TECHNI C AL PE PIPES & F IT TINGS

TECH NIC AL PE PIPES & FIT T INGS

SPORTSPRO

SportsPro 100 has been developed using the very latest raw materials and extruding techniques to offer the sports irrigation market and particularly the golf industry, a pipe with excellent installation and long term operational properties. Using XS10B Total petrochemical granules which are of such quality standards that they have been tested for use not only in water but gaseous fuel installations – you would get more than just a wet fairway if one of these pipes fails! – SportsPro 100 exceeds existing standards that are present in the sports industry giving all concerned; the consultant, the installer and the end user, the confidence to install SportsPro 100 for all occasions. SportsPro 100 is available in 10, 12.5 and 16 bar configurations and although the standard lengths are 50m and 100m, Revaho prides itself on being able to offer a ‘bespoke‘ service; we can offer a full range of specific lengths

dependent upon your requirements. The length of coil limits are only the physical limitations of unwinding on site. SportsPro 100 has an identification system of four light green lines along the length of the pipe. No other pipe has this identification system. SportsPro 100 is designed to have maximum strength with minimum wall thickness; this of course achieves a higher dynamic performance for the pipe meaning longer run lengths or lower power inputs. Plus, its increased tensile strength and high resistance to scoring, makes SportsPro more suitable to mole plough installation than PE80 pipes. SportsPro 100 can be used with all approved fitting systems although we recommend +GF+ compression and fusion fittings. Sports Pro is marked in accordance with WRAS information and guidance note ‘9-0205 Issue 2’, relating to the pipe marking and identification of non-potable water supply.

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Glossary of Terms Resistance to gas condensates at 80°C, 2,0MPa (NEN-EN- 1555-1:2002 + EN-921) The EN-921 standard (is going to be replaced by NEN-EN-ISO 1167) specifies a method for determining the resistance of thermoplastics pipes to constant internal water pressure at constant temperature. This standard applies to thermoplastics pipes intended for the transport of fluids. The NEN -EN-1555 gives the specific test parameters for this special test.

Carbon Black dispersion (ISO 18553:2002) Describes a method with two procedures for the assessment of pigment or carbon black particle and agglomerative size and dispersion in polyolefin pipes, fittings and compounds. The method is applicable to polyolefin pipes and fittings, as well as raw material in pellet form, with the choice of procedure to be determined by the referring specification. The method is applicable to carbon black pigmented polyolefin pipes, fittings and compounds with a carbon black content of less than 3%.

Resistance to fracture by impact (Gc) (EN-ISO 179:1997) Specifies a method for determining the Charpy impact strength of plastics under defined conditions. A number of different types of specimen and test configurations are defined. Different test parameters are specified according to the type of material, the type of test specimen and the type of notch.

Density (ISO 1183:1987) Method for the determination of the density of plastics . Our test is based on a calculation of a piece of material that has been measured on a balance in the open air and under water. MFR (ISO 1133:2005) This International Standard specifies the procedure for the determination of the melt mass-flow rate (MFR) of thermoplastic materials under specified conditions of temperature and load. Moisture (EN-ISO 12118) This International Standard specifies a method for the determination of moisture content in thermoplastics. This method is only applicable to thermoplastics for which the melting point is below 160°C. The method is suitable for measuring the moisture content down to 0,0005 %. This method determines the total moisture content in the test piece and included surface moisture and moisture contained within the test piece. Because the test piece is converted to a molten state, it is assumed that all moisture is expelled. Volatile content (EN-ISO 12099) Specifies a method for determining the content of material volatile at 105° C in polyethylene (PE) piping materials. This method is applicable to moulding and extrusion materials. It also can be applicable to components in PE piping systems. OIT (ISO/TR 10837:1991) Specifies a method of measuring the oxidative thermal stability in oxygen at typical processing and welding temperatures. The thermal stability measured by this method depends on mass and size of the test specimen used. Short term surge pressure resistance (ING 4-37-02) This test is done on a pipe with diameter > 90mm. The pipe is notched according EN-ISO 13479 and shall be pressurised to either give failure or attainment of at least 2,5 times the pressure rating (PN) at a loading of 8 bar/sec. Slow crack growth pipe size 110 – 125 or 180mm SDR-11 (EN-ISO-13479) Long term stress crack resistance at 80°C: on notched pipe (EN-ISO-13479) Specifies a method for determining the resistance to slow crack growth of a polyethylene (PE) pipe expressed in terms of time to failure in a hydrostatic stress rupture test of a pipe with longitudinal notches machined in the outer surface. According EN-ISO-13479 the pipe shall not fail within 165h when pressurised at 9,2 bar (PE-100) or 8 bar (PE-80) Long term MRS at 20°C (NEN-EN-ISO-9080:2003) Describes a method for estimating the long-term hydrostatic strength of thermoplastics materials by statistical extrapolation. This method is applicable to all types of thermoplastics pipes at applicable temperatures. This method was developed on the basis of test data from pipe systems. The pipe dimensions to be tested can be specified in the relevant product/ system standards and have to be included in the test report.

RCP (Full Scale Test) (EN-ISO 13478) This International Standard specifies a full-scale method of test for determination of arrest or propagation of a crack initiated in a thermoplastics pipe at a specified temperature and internal pressure. It is applicable to the assessment of the performance of thermoplastics pipes intended for the supply of gases or liquids, in the latter case when air may also be present in the pipe. Dimensions (NEN-EN-12201 and NEN-EN-1555) These standards specifies the dimensions of the pipe. Marking (NEN-EN-12201 and NEN-EN-1555) These standards specifies the marking of the pipe. Tensile Yield Stress (ISO 6259) Specifies a method of determining the tensile properties of polyolefin (polyethylene, cross-linked polyethylene, polypropylene and polybutene) pipes, and in particular the following properties: - stress at yield point; elongation at break.

T EC HNIC AL PE PIPES & FIT TINGS

Carbon Black content (ISO 6964) Test for the determination of carbon black content in raw material or material taken from a pipe. The test is based on pyrolysis of a specified quantity of material at 550oC ±50oC in a stream of nitrogen for 45 minutes and calcinations at 900Co ±50oC. Calculation of the carbon black content from the difference in mass before and after calcinations and pyrolysis. The specification of the carbon black content according the several standards is 2 – 2,5%.

Elongation at break (ISO 6259) Specifies a method of determining the tensile properties of polyolefin (polyethylene, cross-linked polyethylene, polypropylene and polybutene) pipes, and in particular the following properties: - stress at yield point; elongation at break. Appearance (NEN-EN-12201 and NEN-EN-1555) These standards specifies the appearance of the pipe. Long term hydrostatic at 20°C (cross checks) (prNEN-EN-ISO-1167) Specifies a general test method for determination of the resistance to internal hydrostatic pressure at a given temperature of thermoplastics pipes, fittings and piping systems for the transport of fluids. The preparation of test pieces to be used is described in the appropriate parts 2, 3 or 4 of this international standard. Long term hydrostatic at 20°C (squeezed pipe) (NEN-EN-12106:1998) Specifies a test method for the hydrostatic-strength of polyethylene (PE) pipes after being subjected to a squeeze-off procedure. Hydrostatic pressure resistance at 20°C (1h) and 80°C (165h) (EN-921) The EN-921 standard (is going to be replaced by NEN-EN-ISO 1167) specifies a method for determining the resistance of thermoplastics pipes to constant internal water pressure at constant temperature. This standard applies to thermoplastics pipes intended for the transport of fluids. Water Quality (NEN-EN-12201) Pipe made according to this standard is suitable for supply of drinking water. GAS Quality (NEN-EN-1555) Pipe made according this standard is suitable for supply of gaseous fuels. Green Stripes (intern method) The green stripe indicates that the pipe is Revaho SportsPro 100 and it is especially made for the professional irrigation industry.

T3

6 BAR PE PIPES

TECHNIC AL PE PIPES & FIT T INGS

PE PIPE 68 BAR

Technical Specifications of Polyethylene Dimension (outside):

3-250mm

Pressure Class:

1-16 bar

Recommended Working Temp:

0-20°C

Maximum Temp:

60°C (at decreasing max pressure)

Specific Weight:

930-955 kg/m3 (black PE)

Coefficient of Thermal Expansion LDPE:

2.3 cm/100m,°C

HDPE:

1.8 cm/100m,°C

PE QUICK COUPLING SYSTEM

Technical Specifications Diameter:

75 mm (other dimensions on request)

Length:

6 m (other lengths on request)

Max.

Pressure: 6 bar

Material:

HDPE

Starting Piece:

75 mm x 2 1/2” (F x female thread)

Nozzle Connection:

1” (on F connector)

Stabilising Plate:

40 x 5.5 cm

Optional:

80 x 5.5 cm

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T EC HNIC AL PE PIPES & FIT TINGS

Specifications

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T5

PLASSON COMPRESSION FITTINGS 16 BAR / PLASSON STAINLESS STEEL REPAIR CLAMPS

TECHNIC AL PE PIPES & FIT T INGS

PLASSON COMPRESSION FITTINGS 16 BAR The comprehensive Plasson Mechanical fittings range offer solutions for connecting PE pipes, used for conveying water and other fluids in urban and inter-urban infrastructure, industrial, mining, landscape and farming applications and for carrying communication lines. Chemical Resistance: Plasson Mechanical Fittings are supplied as standard with Polyacetal split rings and NBR O-rings which are suitable for water. For specific chemical applications CPVC split rings and EPDM or FPM O-rings can be supplied, please contact us for advice.

Installation Instructions

Technical Features Range:

16mm - 125mm

Working Pressure:

Upto 16 bar

Materials:

Polypropylene, high-grade Copolymer Polypropylene, high-grade Copolymer Polyacetal (POM) Nitrile rubber (EPDM) NBR

Operating Temperatures:

Plasson Fittings and Valves are designed for cold water applications to 20 Degrees C, for other applications, please contact us for specific guidance. The fittings and valves will withstand sub-zero temperatures

Standards:

ISO 14236, AS/NZS 4129, ISO 7/1, BS 21, DIN 2999, UNI 9561, NEN 3258, AS 1722, DIN 8076

PLASSON STAINLESS STEEL REPAIR CLAMPS Plasson’s range of repair clamps are designed to repair water mains pipes where corrosion or mechanical damage has caused leakag. The clamps materials are selected to give maximum service life and the clamp is designed for ease of use. All materials meet the requirements of WRAS and the DWi for use on a potable water system.

Technical Features

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PLASSON THREADED FITTINGS / PLASSON SILVER LINE FITTINGS

PLASSON THREADED FITTINGS

Technical Features Size: Pressure: Materials:

Available in 1/2” up to 4” up to 16 Bar Body: Polypropylene, high-grade copolymer. Reinforcing Ring: Stainless steel

Operating Temperatures: The fittings and valves are not to be used with hot water, although they withstand the same temperature as the polyethylene pipe itself. The fittings and valves will withstand sub-zero temperatures. Note We strongly recommend the use of PTEE tape in threaded connections.

All threads conform to I S O -7/1, BS 21 - 1973, DIN 2999, NEN 3258, AS 1722 Part 1 - 1975. All internal (female) threads smaller than 3” are parallel. All other threads (male and female) are tapered.

T EC HNIC AL PE PIPES & FIT TINGS

Plasson range includes a comprehensive range of threaded fittings, including sockets, bushes, elbows, tees, nipples and tank connectors. Manufactured from high performance polypropylene and pressure rated to 16 bar the threaded products enhance the Plasson offering allowing quick and easy adaption of a wide range of Plasson or third party products and fittings.

PLASSON SILVER LINE FITTINGS

Technical Features Range: Working Pressure: Materials:

Operating Temperatures:

Thread:

20mm - 63mm upto 10 Bar Body - Polypropylene, high-grade Copolymer Nut - Polypropylene, high-grade Copolymer Split Ring - Polyacetal (POM) Seal - Nitrile rubber (EPDM) O Ring - NBR The fittings are not to be used with hot water, although they withstand the same temperature as the polyethylene pipe itself. The fittings will withstand sub-zero temperatures. All threads conform to ISO-7/1 BS 21-1973, DIN 2999, NEN 3258 AS 1722 Part 1-1975

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T7

PLASSON ELECTROFUSION FITTINGS 16 BAR / PLASSON SILICONE LUBRICANT

TECHNIC AL PE PIPES & FIT T INGS

PLASSON ELECTROFUSION FITTINGS 16 BAR Plasson fittings are specifically designed for reliable, high performance pipe joining and long system life. This automated system has been proven to be most economical due to the low potential for operator error. All Plasson ElectroFusion fittings are produced from material class PE100 which conform to international standards for potable water and natural or suitable manufactured gas systems. Production from PE80, available upon request.

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All Plasson ElectroFusion fittings are produced from material class PE100 which conform to international standards for potable water and natural or suitable manufactured gas systems. Production from PE80, available upon request

Standards:

EN 1555 EN 12201 NF 136 AS/NZS 4129 WIS 4-32-14 WIS 4-32-15

Stronger pipe joining - Plasson ElectroFusion quality fittings have long penetration depths and fusion zones which ensure high quality joints. Most Economical - Economic benefits are a result of overall integrated system quality and innovation including the computerized smart system which reduces the potential for operator error. High Performance - Proven high performance in gas and water distribution and industrial applications. Superior Service - Plasson provides unmatched service based on over 40 years in the field.

Installation Instructions for 75mm - 125mm Fittings

T8

GRIFFON PE CLEANERS

GRIFFON CLEANER FOR PE, PP, PVDF AND PB

· Universal · Very powerful cleaning effect

Directions for use:

1. Apply cleaner to a clean, non-pilling cloth (Griffon Cleaner Cloth) 2. Clean and degrease surfaces to be joined. 3. Remove any condensation with a clean cloth and let surfaces dry properly. Close packaging carefully immediately after use.

Shelf life:

At least 24 months, if stored in well-closed packaging, in a dry place at B
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T EC HNIC AL PE PIPES & FIT TINGS

Properties:

Field of application: For cleaning and degreasing (rigid) PVC, PVC-C, ABS, PE, PP, PVDF and PB pipes, sockets and fittings before joining. To be used in combination with Cleaner and PE Cleaner. Also suitable for removing non-hardened cement residue.

T9

GRIFFON PE CLEANERS

TECHNIC AL PE PIPES & FIT T INGS

GRIFFON CLEANING WIPES FOR PE, PP, PVDF AND PB

T10

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Directions for use:

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Technical Features

T EC HNIC AL PE PIPES & FIT TINGS

CLAMP SADDLES

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T11

TAVLIT VALVES & FITTINGS

TECHNIC AL PE PIPES & FIT T INGS

POLYPROPYLENE THREADED FITTINGS Polypropylene (PP) threaded fittings are universal threaded couplings with an incorporated O ring for assembly without teflon tape (self-sealing). The PP threaded fittings set is extremely complete and includes threaded (transition) sockets and (transition) nipples, angles, tees and end plugs, both male and female threaded. The advantage of the selfsealing fittings is not only that they reduce assembly time (no tape or glue required), but the components can also easily be turned after assembly without causing leakage.

Technical Specifications Max Pressure: Max Temperature: Nominal Pressure: Thread: Housing Material: O Ring:

8 Bar (at 20oC) 60oC (at decreasing pressure) 6 Bar 1/2” - 2” B.S.P.T. (male & female) Polypropylene NBR

NUTLOCK FITTING Nutlock fittings combine the advantages of barbed connectors and clamping couplings. The PE hose is slid over the loose grip and fastened with the swivel. No rings are required to seal the hose. The hose is easily assembled and disassembled, for a new crop for example: the grip and swivel remain on the hose and will not get lost. Nutlock fittings are available as couplings, tees or end sets, male or female threaded. The Nutlock fitting has standard B.S.P.T. thread. Nutlock fittings make a flexible system and facilitate future adjustment of standard Tavlit threaded couplings (addition or removal of swivel and grip, for example). The use of Nutlock fittings enables effortless installation or removal of valves, filters, water gauges etc. They can be repaired, replaced or temporarily removed for protection against frost in no time at all.

Technical Specifications Max Pressure: Nom Pressure: PE Hose Size: Housing Material: Swivel: Grip: Thread:

T12

t
t

t

t



8 Bar (at 20oC) 6 Bar 16 - 25mm Polypropylene Polypropylene Acetal 1/2” - 1” B.S.P.T.

Recommended PE Wall Thickness Nutlock fitting (mm)

Hose Wall Thickness (mm)

16 - 17

0.7 - 1.5

20

1.0 - 2.0

25

1.4 - 2.0

/VUMPDL
mUUJOHT
DBO
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mUUJOH
DBO
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GPS

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TAVLIT VALVES & FITTINGS

PE VALVES

T EC HNIC AL PE PIPES & FIT TINGS

PE valves are low-pressure valves with a hose connection and/or threaded connection. Tavlit PE valves have a double O ring seal for extra security and long-term use. The valves remain easy to operate therefore. The housing with hose connection is made of Acetal, which ensures improved grip on the hose. The housing with threaded connection is made of Polyamide for improved sealing. PE valves are used in (indoor and outdoor) irrigation systems with pressures up to 3 bar.

Technical Specifications Max Pressure: Nominal Pressure: Hose Diameter: Thread: Housing Material: Handle: O Ring:

4 Bar (at 20oC) 3 Bar 16 -25mm 1/2” - 3⁄4” B.S.P.T (male and female) Acetal or Polyamide Polyamide NBR

BARBED CONNECTORS Barbed connectors (or hose sockets) are insert sockets for 12-25 mm PE hoses. Tavlit barbed connectors are made of Acetal, due to which they are rigid and retain their shape, thus improving their locking in the hose. Barbed connectors are used in indoor and outdoor irrigation systems with pressures up to 3 bar.

Technical Specifications Max Pressure: Nom Pressure: Hose Diameter: Thread: Material:

Recommended PE Wall Thickness

4 Bar (at 20 C) 3 Bar 16 - 25mm 1/2” - 3⁄4” B.S.P.T (male and female) Acetal o

Nutlock fitting (mm)

Hose Wall Thickness (mm)

16 - 17

0.7 - 1.5

20

1.0 - 2.0

25

1.4 - 2.0

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T13

TAVLIT VALVES AND FITTINGS

TECHNIC AL PE PIPES & FIT T INGS

SWIVEL FITTING Swivel fittings allow for quick and simple assembly and disassembly of connections. The incorporated O ring ensures a perfect seal, even if the connection is tightened by hand. After assembly, the materials can be turned without causing leakage. Swivel fittings are available as couplings, tees or crosses, and are male threaded (swivel) or female threaded (B.S.P.). The Swivel fitting is also available with a Nutlock connection (16-20 mm). The use of Swivel fittings enables effortless installation or removal of valves, filters, water gauges etc. They are repaired, replaced or temporarily removed for protection against frost in no time at all.

Technical Specifications Max Pressure: Nom Pressure: Thread: Housing Material: Swivel: Sealed Ring:

8 Bar (at 20oC) 6 Bar 1/2” - 3⁄4” B.S.P.T (male and female) Polypropylene Polypropylene EPDM

Recommended PE Wall Thickness Nutlock fitting (mm)

Hose Wall Thickness (mm)

16 - 17

0.7 - 1.5

20

1.0 - 2.0

25

1.4 - 2.0

t
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mUUJOHT
DBO
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11
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and also with a great many other appendages and materials. If the required combination is unknown, it is recommended to first make a sample piece and test the sealing.

T14

TECHNI C AL PVC PIPES & FIT TIN GS

PVC PIPES

TECHNIC AL PVC PIPES & FIT T INGS

PVC SPRAYLINE PVC Sprayline is generally used as a conveyor pipeline in drip irrigation, sprinkler or ebb and flood systems. The tubes come with a moulded glue socket (from Ø 16 mm) and a bevelled edge for ease of gluing together. Ø 25-40 mm PVC Sprayline tubes are available with pre-drilled 3/8WW or M11 thread for sprinkler nozzles. For CO2 systems, the Ø 16-63 mm tubes can be supplied with Ø 1-3 mm holes (drilled on one or both sides). Other lengths and/or pressure classes are available on request.

Technical Specifications Max Pressure: Temperature: Length: Joint: Colour:

7.5 or 10 bar (at 20°C) 0-45°C (at decreasing max. pressure) 5.055 m (incl. glue socket) (other lengths available for pre-drilled tube) By means of moulded glue socket Grey RAL 7011 (or blue for 32 mm tube)

PVC SPRINKLER TUBE DRILL TABLE possible drillholes (Ø in mm)* Tube Ø NN

16 20 25 32 40 50 63

3/8WW

M11

1,5

2

2,5

3

11

2

   

    









   

     


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B
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B
XBMM
UIJDLOFTT
PG
BU
MFBTU

NN
GPS
BQQMJDBUJPO
XJUI rotating greenhouse sprinklers.

T16

PVC PIPES

PVC PIPE

PVC is resistant to most water-soluble acids, salts and lyes and to substances naturally occurring in the soil. PVC is not resistant to aromatic and chlorinated hydrocarbons, esters, ethers, ketones and phenol. Synthetics are temperature-sensitive. Both higher and lower temperatures affect the strength of synthetics such as PVC. The characteristics listed here are based on standard situations at 20°C. At higher temperatures, the permissible working pressure will decrease (see table). At approximately 0°C, PVC becomes brittle instead of tough. Below +5°C, careful transport, handling and assembly will be required (gluing is not recommended) and below -5°C, transport and handling should be avoided where possible. PVC pipes may be either smooth or fitted with a glue nozzle or rubber ring. PVC pipes may be mounted underground or above ground. For underground application, the soil must be free from stones and from subsidence. Use filling sand, if necessary, and make sure that the soil around the tube is equally compacted. Higher pressure classes are recommended for applications in soft soil.

T EC HNIC AL PVC PIPES & FIT TINGS

PVC pipe is suitable for transport of watery solutions under pressure. PVC pressure tube is classified into pressure classes which indicate the maximum working pressure. The permissible pressure in operating conditions may be lower due to increased external loads, the influence of chemicals or temperatures, but also due to water shock, for example. The large number of pressure classes (up to 16 bar) allows for selection of a stronger tube as soon as external factors affect the tube.

Technical Specifications Material: PVC-U Density: Expansion: Decrease in Length: Max. Temperature: Min. Temperature: Tensile Strength: Modulus:

17$6
1PMZWJOZMDIMPSJEF6OQMBTUJmFE
XJUIPVU
QMBTUJDJ[FS

1.38 - 1.4 g/cm3 0.06 - 0.08 mm/m/°C 1.0 mm/m at max. pressure (free-lying pipe) 0.5 mm/m at 25% max. pressure (free-lying pipe) 45°C (at decreasing pressure, cf. table) 0°C (before use, at decreasing max. pressure) 55 N/mm2 3000 N/mm2

The total strength of the system is largely determined by the connections of the PVC pipes and the manner in which they are suspended or dug in. Non-observance of the instructions may seriously impair the system. Assembly of PVC pipes requires knowledge of both the manufacturer‘s instructions and local regulations. Overhead application of PVC pressure pipe with rubber rings is not recommended or requires special brackets to fasten the pipe. PVC will become brittle at temperatures around 0°C and requires extra care. PVC pipes and fittings must be emptied prior to frost in order to avoid damage. Check the pipes prior to use and do not use pipes which show external deformations or do not fit well. PVC-U pipes are not suitable for application in compressed air systems. PVC-C is a post-chlorinated PVC which has a higher temperature resistance than PVC-U. PVC-C can be properly glued together with special PVC-C glue.

T17

PVC PIPES

TECHNIC AL PVC PIPES & FIT T INGS

PVC PIPE RUBBER RING PRESSURE PIPE PVC pipes with rubber rings are used if glued joints are not possible (low temperature, damp conditions) or undesirable (large diameters). As the rubber ring joints are flexible, elongation and longitudinal contraction can be absorbed. Pressure tubes with a rubber ring joint are for underground use only. Clean both the rubber ring and the tube end prior to assembly and smear the rubber ring with a lubricant. Avoid direct pressure on the tube due to bumping. Use a piece of wood for protection. Tubes may not be mounted by means of great mechanical force (of a crane or shovel). Make sure that the tube is adequately fastened in bends, branches, pits and suchlike in order to avoid it becoming detached. Pressure tubes with rubber ring joints may only be pressurised once the piping has been completely enclosed.

Technical Specifications Max Pressure: Max Temperature: Diameter: Length: Joint: Colour:

12.5 Bar 45°C (at decreasing max. pressure) 63-250mm 6m By means of moulded rubber ring RAL 7011

For pressure tubes with rubber washers, it is recommended to: t

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of thrust blocks on both sides of the bend, t

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17$
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T18

PVC PIPES

RAINWATER PIPE WITH SOLVENT SOCKET CLASS 41 & 51

Technical Specifications Max Pressure: Max Temperature: Diameter: Length: Joint: Colour:

T EC HNIC AL PVC PIPES & FIT TINGS

Rainwater pipes with glued joints are used for (virtually) pressureless applications if the joints must be resistant to tensile strain. The pipes come with a moulded glue socket or smooth ends. The pipes are manufactured using a coextrusion process, with new PVC inner and outer layers and a recycled PVC (foam) intermediate layer. The pipes comply fully with the applicable standards for solid pipes of the same class, but have the advantage that they are lighter in weight which facilitates installation. Rainwater pipes BSF
BWBJMBCMF
JO

QSFTTVSF
DMBTTFT
DMBTT

GPS
VTF
above ground and classes 34 and 41 for underground use (for normal and light traffic loads, respectively). Rainwater pipes are particularly used for rainwater discharge (above ground and underground). For greenhouse discharge, special fitted lengths are available in sizes Ø 125-200 mm.

(Virtually) Pressureless 45°C (at decreasing max. pressure) 32 - 630mm 5m (6m or 10m Optional) moulded glue socket or rainwater discharge appendages RAL 7037 (White-Black Optional)

'PS
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EFUBJMT
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17$
QJQF

T19

PVC PIPES

TECHNIC AL PVC PIPES & FIT T INGS

PVC RAINWATER PIPE WITH RUBBER RING CLASS 41 & 51 Rainwater pipes with rubber ring are used for (virtually) pressureless applications if glued joints are not possible because of too large a diameter or due to low temperatures and humid conditions. The pipes are manufactured using a co-extrusion process, with new PVC inner and outer layers and a recycled PVC (foam) intermediate layer. The pipes comply fully with the applicable standards for solid pipes of the same class, but have the advantage that they are lighter in weight which facilitates installation. As the rubber ring joints are flexible, elongation and longitudinal contraction can be absorbed. Rainwater pipes with a rubber ring can be used underground or above ground in rainwater discharge or CO2 systems, for example. 3BJOXBUFS
QJQFT
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underground use (for normal and light traffic loads, respectively). Clean both the rubber ring and the pipe end prior to assembly and smear the rubber ring with a lubricant. Avoid direct pressure on the pipe due to bumping for example. Use a piece of wood for protection. Pipes may not be installed by means of great mechanical force (of a crane or shovel). Make sure that the pipe is adequately fastened in bends, branches and pits in order to avoid it becoming detached.

Technical Specifications Max Pressure: Max Temperature: Diameter: Length: Joint: Colour:

(Virtually) Pressureless in open joints 45°C (at decreasing max. pressure) 110 - 630mm 5m Moulded rubber ring RAL 7037

t
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17$
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BOEPS
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CSPXO
PO
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T20

VDL PVC IRRIGATION FITTINGS

VDL PVC IRRIGATION FITTINGS

PVC t
4PMWFOU
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KPJOUJOH


NN
UN

NN t
5ISFBEFE
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w
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w
#41

PE t
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NN t
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w
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w
#41

Material: PVC-U (PVCh) = Unplasticised polyvinylchloride (with tin based stabiliser) PP = Polypropylene PE = Polyethylene A KIWA ATA certificate is obtained for the raw materials used by VDL. Therefore the products are suitable to be VTFE
JO t
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QPPMT t
*SSJHBUJPO

T EC HNIC AL PVC PIPES & FIT TINGS

VDL is a producer of a comprehensive range of injection moulded fittings and fittings made of tube for 17$
BOE
1&
QSFTTVSF
QJQF
TZTUFNT
5IFTF
BSF
BWBJMBCMF
JO
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TJ[FT

PVC-U (PVCh) is not suitable for use in compressed air pipelines.

T21

VDL PVC IRRIGATION FITTINGS

TECHNIC AL PVC PIPES & FIT T INGS

Dimensions and Standards: 5IF
mUUJOHT
BSF
JO
BDDPSEBODF
XJUI
GPMMPXJOH
TUBOEBSET PVC t
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 t
*40
 t
,*8"
OS
#3-
 PE t
,*8"
#3-,
 5ISFBEFE
mUUJOHT
XIJDI
BSF
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XJUI
B
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UISFBE
DPNQMZ
XJUI
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OPSNT
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*40
3

Working Pressures and Test: The working pressures as mentioned in the catalogue are based on water pressure at 20°C. Samples of VDL fittings are taken at random from the production and submitted to pressure test. These pressure tests simulate wear during 50 years at indicated work pressure at 20°C. T (oC)

t

PN6 (Bar)

PN10 (Bar)

PN16 (Bar)

20

1

25

42

67

20

100

21

35

56

40

1000

7.8

13

21

T (oC)

t

PN6 (Bar)

PN16 (Bar)

20

1

33

52.8



1000

5.5

8.8

PP Pressure Tests

1 bar = 105 N/m2 = 105 Pa = 1.02 ato = 14.5 lb/in2 (psi)

Jointing: Solvent cement with gap-filling properties must be used. Joints made with threaded fittings should incorporate PTFE tape to effect a good seal.

T22

VDL PVC IRRIGATION FITTINGS Marking: .PTU
7%-
mUUJOHT
JODPSQPSBUF
GPMMPXJOH
NBSLT Name

Van de Lande B.V.

PVC-U (PVCh)

Material

Polyvinylchloride Zonder Weekmaker

63

Size

Diameter 63mm

PN 16

Nominal Pressure

16 Bar

KIWA PN 16

Nominal Pressure in Accordance with KIWA

16 Bar

DN 50

Nominal Bore

Diameter 50mm

Gaskets: (BTLFUT
TVQQMJFE
BT
TUBOEBSE
BSF
NBEF
GSPN E.P.D.M. = Ethylene Propylene Rubber N.B.R. = Nitrile Rubber "MTP
BWBJMBCMF
BT
PQUJPO
JT F.P.M. = Fluorine Rubber (Viton®) Viton® is a registered trademark of DuPont Performance Elastomers

Work Pressure (Bar)

KIWA

VDL

6

-

PN 6

7.5

-

-

10

PN 10

PN 10

12.5

-

-

16

PN 16

PN 16

T EC HNIC AL PVC PIPES & FIT TINGS

VDL

T23

PVC GLUE

TECHNIC AL PVC PIPES & FIT T INGS

SABA PVC GLUE SABA PVC glues are widely used in agriculture and horticulture for applications in a wide variety of PVC systems, but also in sanitary applications and drain systems. SABA glues are easily spreadable and therefore simple to apply. SABA PVC & ABS cleaner is the standard PVC cleaner which has great dissolving capacity and is also suitable for cleaning equipment and removing glue residue. SABA PVC glues do not contain toluene. S3: Very versatile PVC glue, and widely used therefore. Suitable for tube diameters exceeding NN
,*8"BQQSPWFE
VQ
UP

NN 914: Particularly suitable for gluing of close-fitting, rigid PVC tubes (press fit). High resistance to weak bases and acids. PVC & ABS Cleaner: Inflammable cleaning agent, particularly suitable for cleaning PVC and ABS tube surfaces.

Quality mark Viscosity at 23°C Density Solid content Bonding time Consumption Clean off with Processing temperature Storage temperature Resistance to temps Storage life in unopened packaging

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T24

t

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4BGFUZ
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TIFFUT
BSF
BWBJMBCMF
PO
SFRVFTU

PVC GLUE

PROCESSING INSTRUCTIONS FOR SABA PVC GLUES

There are a few basic rules in order to make a proper glued joint: 1.

Saw the tube at right angles, then bevel off and debur.

2.

Mark the insertion depth of the tube.

3.

Thoroughly clean the tube and coupling sleeve with SAVA PVC & ABS Cleaner. If required, remove condensate with a piece of clean paper or a non-fluffing cloth.

4.

Apply the glue evenly, both to the tube and the sleeve. Apply a thick layer of glue, lengthwise, to the pin/tube. Apply a thin and light layer of glue around the sleeve in order to avoid a surplus of glue inside the tube.

5.

Join immediately after gluing, without twisting or tilting, and hold tight for a few seconds. Remove superfluous glue right away.

6.

The glued tubes may not be moved during the first 5 minutes. At temperatures below 10°C, this time increases to 15 minutes.

7.

Avoid heavy mechanical stress within 10-12 hours. Keep to the drying times given below before bringing the construction under pressure.

8.

Do not subject to pressure tests within 24 hours.

T EC HNIC AL PVC PIPES & FIT TINGS

"QQMJDBCMF
UP
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GPMMPXJOH
QSPEVDUT SABA S3 SABA 914

Drytime (hours) Diameter (mm)

Temperature (oC)

10 Bar

10 - 16 Bar

16 - 25 Bar

16 - 75

>15 5 - 15

2 4

4 8

6 12





>15 5 - 15

4 8

8 16

12 24

200 - 400

>15 5 - 15

8 16

16 32

24 48

General tips t
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4"#"
17$
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NVTU
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HMVF t
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VTF t
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CSVTIFT
XJUI
4"#"
17$
DMFBOFS

Safety recommendations You are working with solvent-based products. Adequate ventilation should therefore be ensured and naked flames and sparks avoided. Tubes not immediately used must be blown through or filled with water. Refer to the corresponding safety info sheet of the SABA PVC product.

T25

GRIFFON

TECHNIC AL PVC PIPES & FIT T INGS

GRIFFON PTFE TAPE PTFE tape is for sealing metal and plastic threaded connections. Properties:

· 100% P.T.F.E. · Chemicals-resistant · Mould-resistant · UV-resistant · Removable · Can be subjected to a load immediately

Field of application:

Suitable for water, oxygen, steam, fuels, solvents and acids. Not suitable for gas.

Directions for use:

Wind tape tightly over screw thread in thread direction, with 50% overlap. Always work towards the end. Assemble joint and do not turn joint back in order to avoid damaging tape. 8BUFS
SFTJTUBODF
7FSZ
HPPE
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SFTJTUBODF
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HPPE At least 24 months. Store in well-sealed packaging in a dry place at a temperature between +5°C and +25°C.

Technical properties: Shelf Life:

GRIFFON PVC CLEANER Cleaner products for cleaning and deceasing Ridged PVC ,PVC C and ABS. Properties:

Very powerful cleaning effect. Universal

Field of application:

For cleaning ridged PVC, PVC –C and ABS pipes, Sockets and Fittings to be joined. Also sutible for removing cement residue and cleaning brushes and tools, Not suitable for Diluting PVC, PVC-C and ABS cements.

Directions for use:

1. Apply cleaner to a clean, highly absorbent cloth. 2. Clean and decrease surfaces to be joined. (Griffon Cleaner Cloth) 3. Remove condensation with a clean cloth and allow to dry thoroughly. 4. Seal packaging carefully immediately after use.

Shelf Life:

At least 36 months. Store in well-sealed packaging in a dry place at a temperature between +5°C and +25°C.

$07&3"(&

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PG
UIF
OVNCFS
PG
DPOOFDUJPOT
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-

T26

Ø

32

40

50

63

75

90

110

125

160

200

250

315

#

800

700

650

550

330

250

160

140

90

50

35

23

GRIFFON

GRIFFON UNI 100 WRAS

T EC HNIC AL PVC PIPES & FIT TINGS

Fast thixotropic ridged PVC cement. Application:

Dry conditions

Properties:

t
8JUI
TQFDJBM
QJQF
CSVTI t
8JUI
RVJDL
SFMFBTF
DBQ t
'BTU t
5IJYPUSPQJD t
(BQ
mMMJOH

Standards:

t
&/

.FFUT
SFRVJSFNFOUT
&VSPQFBO
TUBOEBSE
"EIFTJWF
GPS
nonpressure t
5IFSNPQMBTUJD
QJQJOH
TZTUFNT
&/

.FFUT
SFRVJSFNFOUT
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standard 14814 t
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GPS
UIFSNPQMBTUJD
QJQJOH
TZTUFNT
GPS
nVJET
VOEFS
QSFTTVSF

Field of application:

For joining pipes, sockets and fittings with interference fit and loose fit (gapfilling) in pressure and drainage systems. Suitable for diameters = 315 mm. .BY

CBS
1/
 
5PMFSBODFT
EJBNFUSJDBM
DMFBSBODF
NBY

NN

NBY
0.2mm press fit. Suitable for e.g. pipe systems conforming to &/

 
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*40


17$ 

Technical properties:

5FNQFSBUVSF
SFTJTUBODF
¡$
QFBL
MPBE
¡$
$IFNJDBMT
SFTJTUBODF The chemical resistance of joints depends on gap width, drying time, pressure applied, temperature, type and concentration of the product. In general, the joint can be stated to have the same chemical resistance as the material itself, with the exception of a limited number of very aggressive chemicals, such as concentrated anorganic acids, lyes and powerful oxidants.

Shelf Life:

At laest 24 monthes, if stored in well-closed packaging in a dry place at a temperature between +5C and 25C. Limited shelf life after opening.

$07&3"(&

*OEJDBUJPO
PG
UIF
OVNCFS
PG
DPOOFDUJPOT
QFS
Ø

32

40

50

63

75

90

110

125

160

200

250

#

650

290

160

100

90

70

40

30

20

12

8

Ø

16 - 63mm

75 - 110mm

125 - 315mm

C

10 BAR

16 BAR

10 BAR

16 BAR

10 BAR

16 BAR

5oC - 10oC

4 hours

8 hours

8 hours

16 hours

16 hours

32 hours

>10oC

2 hours

4 hours

4 hours

8 hours

8 hours

16 hours

o

Brush Size depends on pacaging volume. Use package that best suits diameters to be joined. 16 -63mm

40 - 90mm

50 - 160mm

160 - 315mm

250 ml

500 ml

1000 ml

BRUSH

T27

GRIFFON

TECHNIC AL PVC PIPES & FIT T INGS

GRIFFON WDF05 WAS Very fast, blue, thixotropic rigid PVC cement

"QQMJDBUJPO

Wet and Dry

1SPQFSUJFT

t
8JUI
TQFDJBM
QJQF
CSVTI t
8JUI
RVJDL
SFMFBTF
DBQ t
7FSZ
GBTU t
5IJYPUSPQJD t
(BQ
mMMJOH

4UBOEBSET

.FFUT
SFRVJSFNFOUT
GPS
&VSPQFBO
4UBOEBSET
&/

BOE
&/



'JFME
PG
BQQMJDBUJPO

For joining flexible hoses and rigid PVC pipes, sockets and fittings with interference fit and loose fit (gap filling) in pressure and drainage systems. Excellent for e.g. swimming pools, whirlpools and applications under humid conditions. Suitable for diameters 1460mm. Max.146 bar (PN 146). ABS max. 
CBS
1/
 
.BYJNVN
UPMFSBODFT
EJBNFUSJDBM
DMFBSBODF

NN
nFYJCMF
hoses 0.3 mm) / 0.2 mm press fit. Suitable for e.g. pipe systems in accordance XJUI
&/

 
BOE
*40

$17$

5FDIOJDBM
QSPQFSUJFT

5FNQFSBUVSF
SFTJTUBODF

¡$
QFBL
MPBE
¡$
$IFNJDBMT
SFTJTUBODF
5IF
chemical resistance of joints depends on gap width, drying time, pressure applied, temperature, type and concentration of the product. In general, the joint can be stated to have the same chemical resistance as the material itself, with the exception of a limited number of very aggressive chemicals, such as concentrated anorganic acids, lyes and powerful oxidants.

4IFMG
-JGF

At least 24 months, if stored in well-closed packaging in a dry place at a temperature between +5°C and +25°C. Limited shelf life after opening.

$07&3"(&

*OEJDBUJPO
PG
UIF
OVNCFS
PG
DPOOFDUJPOT
QFS
Ø

32

40

50

63

75

90

110

125

160

200

250

#

650

290

160

100

90

70

40

30

20

12

8

CURING TIME Ø

16 -50mm

63 -110mm

125 - 160mm

C

5 BAR

10 BAR

16 BAR

5 BAR

10 BAR

16 BAR

5 BAR

10 BAR

5oC - 15oC

30 min

1 hour

4 hours

1 hour

2 hours

8 hours

4 hours

16 hours 32 hours

>15oC

15 min

30 min

2 hours

30 min

1 hour

4 hours

2 hours

8 hours

o

t
'MFYBCMF
UVCF
IPVST"#4
NBY

CBS
EPVCMF
TFUUJOH
UJNF
POMZ
VTF
8%'


t
.BZ
WBSZ
EFQFOEJOH
PO
BP
TVSGBDF
QSPEVDU
RVBOUJUZ
VTFE
IVNJEJUZ
MFWFMT
BOE
BNCJFOU
UFNQFSBUVSF Brush Size depends on packaging volume. Use package that best suits diameters to be joined.

T28

16 -63mm

40 - 60mm

250 ml

500 ml

16 BAR

16 hours

GRIFFON

GRIFFON BLUE GEL WRAS

Properties:

t
"DJEGSFF t
5IJYPUSPQJD t
8BUFSTPMVCMF

Working conditions:

Do not use at temperatures below -5°C.

Directions for use:

1. Cut pipes square, chamfer edges and remove burrs. 2. Remove dirt and moisture. 3. Apply lubricant to pipe end and rubber sleeve. 4. Join parts immediately by sliding pipe into sliding socket until stopper. 5. Close packaging carefully immediately after use.

Stains/residue:

Remove stains with water.

Shelf life:

At least 12 months, if stored in well-sealed packaging in a dry place at a temperature between +5°C and +25°C. Limited shelf life after opening.

Quality labels/Standards: #FMHBRVB
"QQSPWFE
GPS
ESJOLJOH
XBUFS
TZTUFNT
JO
BDDPSEBODF
XJUI
)ZESP
DIFDL
Procedures: ,*8"
-VCSJDBOUT
GPS
mUUJOHT
XJUI
B
SVCCFS
TMFFWF
DPOOFDUJPO
$FSUJmDBUF
,
CBTFE
PO
#3-
, ,*8""5"
"QQSPWFE
GPS
ESJOLJOH
XBUFS
TZTUFNT 83"4
"QQSPWFE
GPS
ESJOLJOH
XBUFS
83"4
DFSUJmDBUF
#4


T EC HNIC AL PVC PIPES & FIT TINGS

Lubricant for fitting pipes, sockets and fittings with rubber sleeve (Sliding Socket) connections in pressure and drainage systems.

$07&3"(& Indication of the number of connections per 1 L Ø

32

40

50

75

90

110

160

250

#

900

600

400

200

135

90

45

20

T29

TECHNIC AL PVC PIPES & FIT T INGS NOTES

T30

T E C H N I C A L G A LV A N I S E D F I T T I N G S

TECHNIC AL GALVANISED FIT T INGS

GALVANISED FITTINGS

Due to their long history and tradition, malleable cast iron fittings are the most common (widest spread) pipe fittings. Because of their durability and mechanical strength these fittings continuously enjoy great popularity. The material bearing high mechanical stress together with the universal, standardised jointing method ensure a save use in a wide range of applications.

Fields of Application:

Advantages:

t
4BOJUBSZ
IFBUJOH
BOE
HBT
JOTUBMMBUJPO t
4QSJOLMFS
BOE
HBT
mSF
FYUJOHVJTIJOH
TZTUFNT

t
$PSSPTJPO
SFUBSEJOH
BOE
SFJOGPSDFE
GSFF outrunning) internal threads design for the most common articles

t
$POTUSVDUJPO
PG
JOEVTUSJBM
QMBOUT
FH
HBT

FNVMTJPO
BOE
QSFTTVSFE
BJS
QJQF
XPSL

t
/BSSPX
UISFBET
XJUI
QSFDJTF
BYJBM
BMJHONFOU

FOTVSF
IJHI
TFBMJOH
GPSDFT
BOE
FYBDU
QJQF
MJOJOH

t
.BDIJOF
DPOTUSVDUJPO
FH
PJM
DPPMJOH
BOE lubrication pipes)

t
5IF
CJHHFTU
BTTPSUNFOU
PG
BMM
QSPEVDFST
o
DPTU
reduction due to a minimum number of joints

t
$POTUSVDUJPO
PG
QFUSPM
TUBUJPOT
HBT
MJOFT

t
.PTU
IJHIHSBEF
NBUFSJBM
XJUI
CFTU
HBMWBOJ[BCJMJUZ

t
.BDIJOFT
GPS
QBQFS
QSPEVDUJPO
BOE printing machines

t
%SJOLJOH
XBUFS
GSJFOEMZ
HBMWBOJTJOH
XJUI
IJHIMZ
QVSF
[JOD

t
$PNNFSDJBM
WFIJDMFT
DPOTUSVDUJPO

t
%SJOLJOH
XBUFS
GSJFOEMZ
QSFTFSWBUJPO
BHBJOTU
SVTU during storage, also ideal for anaerobic sealing

t
$PPMJOH
BOE
BJS
DPOEJUJPOJOH

t
4QFDJBM
UFTUFE
mUUJOHT
GPS
IJHI
QSFTTVSFT
BCPWF 25 bar

Technical Specifications Max Working Conditions: Range: Temperature Range: Connection:

¡$


CBS
¡$


CBS
JOUFSQPMBUFE
WBMVFT
CFUXFFO 
UP

JODI ¡$
UP
¡$
TIPSU
UFSN
UP
¡$

Jointing threads, sealing on the threads

Materials Fittings: Surface: Suitable For:

T32

8IJUF
IFBSU
NBMMFBCMF
DBTU
JSPO
&/(+.
BDD
UP
&/
 #MBDL
PS
IPU
EJQ
HBMWBOJ[FE 4UFFM
QJQFT
BDD
UP
&/


TECHNIC AL ACCESSORIES

A.R.I. VALVES

T EC HNIC AL ACC ESSOR IES

S050P AIR PLASTIC RELEASE 16 BAR Automatic Component A.R.I patent, Rolling Seal Mechanism: t
%SBNBUJDBMMZ
SFEVDFT
UIF
QPTTJCJMJUZ
PG
PCTUSVDUJPO

CZ
EFCSJT t
%JTDIBSHFT
IJHI
BJS
nPX
SBUFT
VQUP

NI t
0OF
TJ[F
PSJmDF
GPS
B
XJEF
QSFTTVSF
SBOHF

VQ
UP

CBS  t
4FMG
DMFBOJOH
NFDIBOJTN 8PSLJOH
QSFTTVSF
SBOHF

CBS

QTJ  "WBJMBCMF
JO
w
NN


w
NN

w
NN
#415/15
UISFBEFE

D040 COMBINATION AIR VALVE Automatic Component A.R.I patent, Rolling Seal Mechanism: t
%SBNBUJDBMMZ
SFEVDFT
UIF
QPTTJCJMJUZ
PG
PCTUSVDUJPO

CZ
EFCSJT t
%JTDIBSHFT
IJHI
BJS
nPX
SBUFT
VQUP

NI t
0OF
TJ[F
PSJmDF
GPS
B
XJEF
QSFTTVSF
SBOHF

VQ
UP

CBS  t
4FMG
DMFBOJOH
NFDIBOJTN "WBJMBCMF
JO
w
NN


w
NN


w
NN


#415/15
UISFBEFE

T34

A.R.I. VALVES

AV010 AIR & VACUUM VALVE

t
8PSLJOH
QSFTTVSF
SBOHF

CBS t
5FTUJOH
QSFTTVSF

CBS t
8PSLJOH
5FNQFSBUVSF
¡
$ t
.BYJNVN
JOTUBOUBOFPVT
XPSLJOH

UFNQFSBUVSF
¡
$ t
5IF
CPEZ
JT
NBEF
PG
IJHI
TUSFOHUI
QMBTUJD
BOE
BMM
PQFSBUJOH
QBSUT
BSF
NBEF
PG
TQFDJBMMZ
TFMFDUFE




DPSSPTJPOSFTJTUBOU
NBUFSJBMT t
%SJQUJHIU
TFBMJOH
BU
MPX
QSFTTVSF t
"MM
QBSUT
BSF
67
QSPUFDUFE t
-JHIUXFJHIU
TNBMM
EJNFOTJPOT
TJNQMF
BOE

SFMJBCMF
TUSVDUVSF

T EC HNIC AL ACC ESSOR IES

Main Features

NR010 CHECK VALVE Applications: t
t
t
t
t


(SFFO
IPVTFT 8BUFS
TVQQMZ
*SSJHBUJPO
TZTUFNT $PSSPTJWF
BOE
BHHSFTTJWF
nVJET 4XJNNJOH
QPPMT
BOE
XBUFS
UBOLT 8BUFS
TVQQMZ
TZTUFNT

Main Features: t
t

t
t


8PSLJOH
QSFTTVSF

CBS 8PSLJOH
5FNQFSBUVSF
VQ
UP
¡
$
6OPCTUSVDUFE
nPX
TUSVDUVSF -PX
IFBE
MPTT %SZ
3FFE
NJDSP
TXJUDI
BWBJMBCMF

Advantages and Benefits: t
t
t
t


$PNQBDU
TUSVDUVSF .BJOUFOBODF
GSFF
*ODMVEFT
nBOHF
SVCCFS
TFBMT *NQSPWFE
TFBMJOH
TZTUFN
/PODPSSPTJWF
NBUFSJBMT $PTU
FõFDUJWF
QSPEVDU

T35

A.R.I. VALVES

T EC HNIC AL ACC ESSOR IES

NR020 CHECK VALVE t





.BEF
PG
FOHJOFFSFE
QMBTUJD
NBUFSJBMT
w
NBEF
PG
B
IBSE
BOPEJ[F
DPBUFE
BMVNJOJVN


JU
DBO
PQFSBUF
VOEFS
IJHIMZ
DPSSPTJWF
DPOEJUJPOT
4QSJOH
MPBEFE
DIFDL
WBMWF
NBZ
CF
JOTUBMMFE
JO
BOZ
QPTJUJPO

t
.JOJNVN
IFBE
MPTT
"T
UIF
nBQ
SJTFT
JUT
BSN

TIPSUFOT
SFTVMUJOH
JO
B
SFEVDFE
NPNFOU
DBVTJOH
B

SFEVDUJPO
JO
IFBE
MPTT t





3FDPNNFOEFE
GPS
VTF
JO
IPU
XBUFS
BOE
IFBUJOH
TZTUFNT
JSSJHBUJPO
TZTUFNT
JO
HFOFSBM
BOE
GPS UIF
BQQMJDBUJPO
PG
GFSUJMJ[FST
UISPVHI
JSSJHBUJPO



TZTUFNT

t
8BGFSUZQF
DPOTUSVDUJPO
NPVOUFE
CFUXFFO
nBOHFT t
8PSLJOH
QSFTTVSFT

CBS

QTJ  ‹
"WBJMBCMF
JO
w

NN

w

NN

Options: t
/3
'7
$IFDL
WBMWF
XJUI
4UBJOMFTT
4UFFM
4USBJOFS

BT
B
'PPU
7BMWF

T36

TEFEN MIXRITE

MIXRITE TF5

Water pressure: Flow Rate: Weight: Coupling:




CBS



14*




NI



(1.


LH

MC

w
PS

NN

A

4FBM
LJU


;

%

4VDUJPO
$IFDL
7BMWF
,JU

;

E

.FDIBOJTN
4QSJOH

;

'

4VDUJPO
$ZMJOEFS
,JU

;

(

4VDUJPO
1JTUPO
,JU

;

T EC HNIC AL ACC ESSOR IES

Technical Specification

T37

TEFEN MIXRITE

T EC HNIC AL ACC ESSOR IES

MIXRITE TF10

T38

Technical Specification Water pressure: Flow Rate: Weight: Coupling: A




CBS



14*




NI



(1.


LH

MC

w
PS

NN 4FBM
LJU


;

4FBM
LJU


;

%

4VDUJPO
$IFDL
7BMWF
,JU

;

E

.FDIBOJTN
4QSJOH

;

'

4VDUJPO
$ZMJOEFS
,JU


;

4VDUJPO
$ZMJOEFS
,JU


;"

4VDUJPO
1JTUPO
,JU


;

(

TEFEN MIXRITE

MIXRITE TF25

Water pressure: Flow Rate: Weight: Coupling: A




CBS



14*




NI



(1.


LH

MC

w
PS

NN 4FBM
LJU


;

4FBM
LJU


;

%

4VDUJPO
$IFDL
7BMWF
,JU

;

E

.FDIBOJTN
4QSJOH

;

'

4VDUJPO
$ZMJOEFS
,JU


;

4VDUJPO
$ZMJOEFS
,JU


;

4VDUJPO
1JTUPO
,JU


;

4VDUJPO
1JTUPO
,JU


;

(

T EC HNIC AL ACC ESSOR IES

Technical Specification

T39

TEFEN MIXRITE

T EC HNIC AL ACC ESSOR IES

MIXRITE 2.5 0.3  2% 2502

Technical Specification Rate of Additive: Water pressure: Flow Rate: Size:
Weight: Coupling:


UP




CBS



14*




MI



(BMI


Y
DN
w
IJHI
Y
w
XJEF


LH

MC

w

MIXRITE 0.2% FIX 2500

Technical Specification Rate of Additive: Water pressure: Flow Rate: Weight: Coupling:


mYFE
EPTJOH



CBS



14*

1


MI



(BMI


LH

MC

w

MIXRITE 0.3  2% BYPASS

Technical Specification

T40

By-Pass Injector Rate of Additive: Water pressure: Flow Rate: Weight: Coupling:










mY



CBS



14*




MI



(BMI


LH

MC

w

A

4FBM
,JU


;

#

4VDUJPO
1JTUPO
,JU

;

$

4VDUJPO
5VCF
,JU

;

%

$IFDL
7BMWF
,JU

;

E

.FDIBOJTN
4QSJOH

;

'

4VDUJPO
$ZMJOEFS
,JU

;

(

6
-BUDI
,JU

;

AMIAD FERTILIZER / CHEMICAL INJECTOR

FERTILISER / CHEMICAL INJECTOR

T EC HNIC AL ACC ESSOR IES

KEY:   1. Motor  seal,  large   2. Motor  seal,  small   3. Pump  seal   4. Injection  valve   5. Injection  valve  housing  assembly  incl.   Air-­Release  valve   6. Non-­return  valve   7. Chemical  injection  outlet   8. Inlet  valve   9. Chemical  inlet   10. Pilot  line  inlet   11. Automatic  cutout   12. Start-­stop  knob   13. Drive  water  inlet   14. Exhaust  water  outlet   15. Motor  main  valve   16. Suction  head  base  plate   17. Suction  head  filter   18. Plastic  float  ball   19. Motor  and  pump  assembly   20. Housing 21. Motor  air  vent   22. Pilot  line  –  cutout   23. Bearing  disc   24. Injection  valve  spring   NOTE:  VALVES  AND  SPRINGS   If  the  valves  are  removed  from  the   injector-­special  care  must  be  taken  to   return  them  so  they  face  the  correct   direction  as  in  Fig.  1.   Please  note  that  only  the  Injection   valve  No.4  is  fitted  with  a  spring.   Please  take  care  when  refitting  the   spring  and  be  sure  that  it  sits   completely  inside  the  four  legs  of  the   valve.

T41

ARAD WATERMETERS

T EC HNIC AL ACC ESSOR IES

WATERMETER M

T42

Technical Specifications: Max. Working Pressure:




#BS

#BS
PQUJPOBM

Max. Working Temp.:










P$ P$
GPS
)PU
XBUFS





Body:














*Option for Plastic Body

insizes 1/2” - 3/4”





3FJOGPSDFE
QPMZUIFOF

Coupling Threads:


#41
/15







$PSSPTJPO
QSPPG
DPQQFS
BMMPZ $BTU
JSPO
VQPO
SFRVFTU


Performance Data: Model

Nominal Size JODI

Qmax .BYJNVN
'MPXSBUF
N

IS

Qn /PNJOBM
'MPXSBUF
N

IS

Qt 5SBOTJUJPOBM 'MPXSBUF MUS

IS

Qmin .JOJNVN
'MPXSBUF MUS

IS

Maximum Register Capacity N

Minimum Register Capacity MJUSF

.

w













.

w













.



w













.



w















.


w













.

w













Accuracy Between Qmax & Qt

Accuracy Between Qt & Qmin

œ

œ

ARAD WATERMETERS

WATERMETER WT

T EC HNIC AL ACC ESSOR IES

Technical Specifications: Max. Working Pressure:












#BS
4UBOEBSE


#BS
6QPO
SFRVFTU

Max. Liquid Temp.:






P$

Body:


































$BTU
JSPO
QPMZFTUFS
DPBUFE 0QUJPOBM

#SPO[F
"88"
TUBOEBSE


Connection:


















'MBOHFT
BDDPSEJOH
UP
*40
#4


"88"
PS
PUIFST


WT II UZQF
EJBM

Performance Data: Model WT II /PNJOBM
4J[F

Qmax Maximum Flowrate N

IS

Qn ISO 4064 N

IS

Qn Nominal Flowrate N

IS

Qt Transitional Flowrate N

IS

Qmin Minimum Flowrate N

IS

Starting Flow N

IS

Maximum Register Capacity N

Smallest Readable Unit MJUSF



NN

JODI















































































Accuracy Between Qmax & Qt

Accuracy Between Qt & Qmin

±2%

±5%

T43

ARAD WATERMETERS / FERTILIZER METER

T EC HNIC AL ACC ESSOR IES

AGRICULTURAL WATERMETER FLANGED Technical Specifications: Max. Working Pressure:




#BS

Max. Liquid Temp.:






P$

Body:


















$BTU
JSPO
QPMZFTUFS
DPBUFE

Connection:


















'MBOHFT
BDDPSEJOH
UP
*40
#4


"88"
PS
PUIFST

Register:



















.
64
(BMMPO
DVGU
.-
$FOUSBM QPJOUFS
PS

QPJOUFST





*35
5ZQF
%JBM

Performance Data: Model IRT

Qmax Maximum Flowrate N

IS

/PNJOBM
4J[F NN

JODI

Qn Nominal Flowrate N

IS

Qt Transitional Flowrate N

IS

Qmin Minimum Flowrate N

IS

Maximum Register Capacity N

Smallest Readable Unit MJUSF



















































Accuracy Between Qmax & Qt

Accuracy Between Qt & Qmin

œ

œ

FERTILIZER METER Technical Specifications: Max. Working Pressure:




#BS

Max. Liquid Temp.:






P$

Body:


















114










w
#41

Electrical Output:













MJUSF

QVMTF

Connection:

Performance Data: Model SF /PNJOBM
4J[F

T44

NN

JODI





Qmax Maximum Flowrate MUS

IS

Qt Lowest Flowrate Measured Between ±2% MUS

IS

Qmin Lowest Flowrate Measured Between ±5% MUS

IS

Loss of Head at Maximum Flowrate CBS









SPRAYLINE ACCESSORIES

BRACING WIRE

0QUJPOBMMZ
UIF
XJSF
DBO
CF
TVQQMJFE
JO
TUSBJHIU
MFOHUIT
/PT

UP
 
4UBUF
UIF
SFRVJSFE
XFJHIU
NVMUJQMFT
PG
LH
JO
ZPVS
PSEFS Wire No

Thickness (mm)

Length / Roll (25kg) (m)

Weight / 1000m (kg)

Available









0O
3FRVFTU









0O
3FRVFTU









4UBOEBSE

WIRE STRETCHERS

T EC HNIC AL ACC ESSOR IES

(BMWBOJTFE
XJSF
GPS
TVTQFOTJPO
PG
JSSJHBUJPO
MJOFT
PS
GPS
VTF
BT
DSPQ
XJSF
GPS
FYBNQMF
"WBJMBCMF
JO
WBSJPVT
UIJDLOFTTFT
5IF
XJSF
JT
TVQQMJFE
PO

LH
SPMMT


%JDISPNBUFE
XJSF
TUSFUDIFST
GPS
JOTUBMMBUJPO
PG
SBDJOH XJSF
4VJUBCMF
GPS
TVTQFOTJPO
PG
JSSJHBUJPO
MJOFT Maximum Thickness (mm)

(No.)

Recommended for Planting Distance (m)

















Wire Stretcher No.

Length (mm)

 

6OEFS
TUSBJO
CSBDJOH
XJSFT
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Link Thickness (mm)

Link Length (mm)

Link Width (mm)

Weight / 100m (kg)

Max. Suspended Weight (Kg)













DOUBLE LOOP CHAIN 'PS
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T45

T EC HNIC AL ACC ESSOR IES

STORAGE TANKS

T46

Code

Dimensions

Litres

Gallons

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T E C H N I C A L V A LV E S

DOROT PLASTIC VALVES

T EC HNIC AL VALVES

PRINCIPLE OF OPERATION

3-Way Control System The main valve is controlled by a manually, electrically or pressure actuated selector that: (1) Introduces the upstream pressure or an external pressure source to the valve’s control chamnber, thus pressing the valve diaphragm from the top to a closed position. (2) Opens the valve by relieving the pressure from the control chamber and enabling the internal pressure in the line to push the valve diaphragm up and creating an unresticted, full-flow passage. (3) Shutes all passages to and from the control chamber, thus keeping the main valve in a fixed poition. This position does not exist in devices used for ON / OFF control applications but is necessary in modulating valves.

2-Way Control System A control system that consists of two restrictions: (a) A fixed restriction at the upstream side of the control system (nozzle or needle valve). (b) ON / OFF device (valve, relay or solenoid) or a modulating pilot-valve with a larger passage than restriction ‘a’ that is installed at the downstream side of the control system. The main valve position is affected by downstream pilot-valve ‘b’ in the following ways: (1) When the pilot-valve is closed, no water can be vented to the downstream and the main vlave is closed by the upstream pressure, introduced into the valve control chamber through the restriction ‘a’. (2) Opening the vlave is enabled when the pilot ‘b’ is fully open and allows the drainage of pressure in the control chamber to the downstream. At this position the pressure in the control chamber nearly equals that of the downstream. (3) Throttling pilot-valve ‘b’ so the flow running through it equals the flow entering through the restriction ‘a’, keeps a fixed volume of water in the control chamber and the main valve in a fixed position.

T48

DOROT PLASTIC VALVES

DOROT  75 VALVE

T EC HNIC AL VALVES

The Dorot-75 series consists of plastic membrane valves for agricultural use. They are resistant to fertilisers and have a large free passage (and therefore a high flow rate and/or low resistance). The membrane minimises the risk of water shock and allows for accurate regulation, even at low flow rates. The Dorot-75 2-way valve is the economical version which is often used for sprinkling and drip irrigation. The unique built-in non-return valve keeps the valve closed even if there is no pressure in the line and thus prevents annoying trickling during start-up. The ‘stand-alone‘ is a special version featuring an automatic device which is fitted directly on the valve and which allows for individual control of the valve, independent of a central control system. A 2-way pulse solenoid is used for battery control by the automatic device. The 3-way version is used if large flow rates are required or if dirty water is used. The Dorot-75 3-way valve also features an industrial solenoid which ensures improved reliability and allows for external pilot pressure (air for example). Basic valves can be used for the construction of pilots, floats etc. and for (hydraulic) remote control. The Dorot 2-way and 3-way valves are fitted with a throttle, an electric solenoid and a manual control device. The Dorot-75 series is BSPT female threaded.

Technical Specification Max. Pressure: Max. Temperature: Housing Material: Membrane: Spring: Bolts:

3/4” - 3” 1 1/2” - 3” 1 1/2” - 3” 3/4” - 3” (for 9V battery) Without throttle 2-Way with G80 (industrial solenoid) Air-controlled (3-Way & Basic) 24V DC/AC (50/60Hz); 230V as stand-alone with automatic device 3/4” - 1” Basic

HEADLOSS CHART

(BLUE AREA INDICATES RECOMMENDED OPERATING RANGE)

psi mwc   











2-WAY ELECTRIC CONTROL-MODEL 75



 

 

3-WAY CONTROL MODEL 75, 95, 96 psi mwc  

  

10 Bar (at 20oC) 60oC (at decreasing max. pressure) Reinforced Polyamide Natural Rubber INOX 302 INOX 304



  



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Diameter 2-Way: Diameter 3-Way: Basic: 2-Way Pulse: Optional:

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T49

DOROT PLASTIC VLAVES

T EC HNIC AL VALVES

DOROT  80 VALVE

The hydraulic Dorot-80 valve offers substantial improvements when compared with existing valves. It has been specially designed for the greenhouse industry and is supplied as a right angle model (Dorot-80-AT), and from mid-2005 also as a straight model (Dorot-80-T). The main difference versus the well-known Dorot-75 is the shape of the membrane. The Dorot-80 is a ‘globe‘ type valve, whereas the Dorot-75 is a ‘Gal type valve (with a freely moving membrane). The membrane of the Dorot-80 is entirely supported, whether open or closed, which extends its life and increases reliability. The wide internal passage of the Dorot-80 provides a higher flow rate when compared with similar valves. The Dorot-80 is fitted with a non-return valve and is available in 2-way or 3-way versions (mid-2005). Its special characteristics render the new Dorot-80 ideally suitable for sprinkling. The right angle design facilitates compact incorporation and the non-return valve prevents annoying trickling during start-up of the system. Thanks to the high flow rate, the valve is ahead of its field in ebb and flood systems and large drip sections. The 80-A is the right angle version in 1 1/2” or 2”, while the Dorot-80 is straight. The extension T stands for Throttle. The 2-way version is supplied with an agricultural or industrial solenoid (G80), the 3-way version with an industrial solenoid (Baccara). The Dorot-8-T-1” is a special quick-closing version, intended for Fogger systems for example. Opening and closing times are approx. 1 second.

Benefits of Dorot-80











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Technical Specification

T50

Operation:

2-Way

Optional:

Design 80 A: 80: -T: Flowrate 1”: 1 1/2” - 2”:

3-Way Right angle: 1 1/2” - 2” Straight: 1, 1 1/2”, 2” Throttle 0.01 - 6m3 / hour 1 - 40m3 / hour

Max. Pressure: Max. Temperature: Housing Material: Seals: Steel Components:

24VAC-DC (agricultural sloenoid) Other voltages 10 Bar 60oC (at decreasing max. pressure) Glass-fibre Reinforced Polyamide EPDM and NR INOX

DOROT PLASTIC VALVES

T EC HNIC AL VALVES

801, 80¾ IRRIGATION VALVES

T51

DOROT PLASTIC VALVES

T EC HNIC AL VALVES

80 SERIES 1½” AND 2” SPECIFICATION Solenoid  Valve (2-­way  model) 3  Position     Manual  Override   (2-­way  model)

Flow  Control  Stem   (optional) Labyrinth  Restrictor     (2-­way  model)

Diaphragm   Support  Rings

Diaphragm  &   Plug  Trim

Integral   SST  Filter

It is recommended to avoid pressure losses across the valve exceeding 0.5 bar.


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DOROT PLASTIC VALVES

DOROT  95 / 96 PVC VALVES

The 95/96 series is generally supplied as a basic valve with a 3-way industrial solenoid, which can be used for the construction of manual control devices, pilots, floats etc. and for (hydraulic) remote control. A PR-pilot (29-100) can be used as a throttle and for automatic pressure regulation. The Dorot-95-PVC valve is supplied with 3” female thread, the 96-series with a glued connection. (90 or 110 mm).

Technical Specification Diameter 95:

3” (Female threaded)

Diameter 96: Optional: Control Signal: Optional:

90 - 110mm 160mm 24V DC/AC (50/60Hz); 230V Air-controlled (max. 1.6mm solenoid nozzle) Manual As a Float Valve As a Control Valve with Pilot Soft Membrane (low-pressure app.)

Max. Pressure: Min. Pressure: Max. Temperature: Weight: Housing Material: Membrane: Spring:

T EC HNIC AL VALVES

The Dorot-95/96 series consists of U-PVC valves which are suitable for high flow rates and/or low resistances. They are resistant to fertilisers and have a free passage (and therefore a high flow rate and/or low resistance). The membrane minimises the risk of water shock and allows for accurate regulation. Special, soft membranes are available for applications with minimal pressure downstream of the valve and minimal working pressure (0.5 bar).

8 Bar (at 20oC 1 Bar (0.5-1 Bar soft membrane rec.) 40oC (at decreasing max. pressure) 4.2Kg uPVC NR INOX 302

The Dorot-95/96 series can be installed in any required position though ‘upright‘ or ‘vertical with solenoid up‘ is preferable in order to allow air to escape and to prevent accumulation of dirt behind the solenoid core. t

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T53

DOROT SPARES

T EC HNIC AL VALVES

DOROT SOLENOIDS

Dorot supplies a complete range of agricultural and industrial solenoids for 2-way and 3-way valves. The economical, low capacity 2-way solenoids are mounted directly on 2-way valves. Industrial 24V or 230V 2-way solenoids are optionally available (G80, standard on Dorot-80 valves). 3-way solenoids can be directly mounted on Dorot 3-way valves or on their own sub-base on basic valves. When mounted directly, the valve is always NC (Normally Closed). When mounted on a basic valve, a NO (Normally Open) or NC solenoid can be used to make the valve NC or NO respectively. NO valves (with NC solenoid) are used if the valves are normally open and will only close upon a pilot signal being given. A special 2.5 W 3-way solenoid (with special operator and core) is available for applications in which the solenoid is energised for a long time. The components of a 3-way solenoid are partly interchangeable (see table). Standard solenoids are supplied with a 1.6 mm nozzle in the operator for the 75 series, and with a 2.4 mm nozzle for the PVC series. Other applications are possible (see table). All industrial solenoids are fitted with an INOX operator (core armature).

Technical Specification 2-Way Agicultural: %PSPU
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T54

















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Connections: Optional:

1 x 1/8” (female thread) and 2 x 1/4” (female thread) 3 x 1/8” (female thread)

DOROT SPARES

DOROT SPARE PILOT

T EC HNIC AL VALVES

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T55

DOROT METAL VALVES

T EC HNIC AL VALVES

44 SERIES

Hydraulic  Performance mm 20 3/ inch 4 3 m /hr 6 Max. Flow Continuance gpm 26.4 m3/hr 16 Max. Flow Intermittent gpm 72 m3/hr Minimal Flow gpm Kv m3/hr @ 1 bar 17 Cv gpm @ 1 psi 20 Kv* m3/hr @ 1 bar -­ Cv* gpm @ 1 psi -­ Valve Size

* High pressure models T56

25 1 10 44 27 120

40 11/2 25 110 68 300

50 2 40 176 109 480

65 21/2 40 176 109 480

80 323 40 176 109 480

80LF 3 90 396 245 1080

100 4 100 440 273 1200

150 6 350 1540 955 4200

17 20 -­ -­

64 75 -­ -­

95 110 78 91

95 110 -­ -­

95 110 -­ -­

170 200 120 140

220 260 200 230

600 700 550 640

DOROT METAL VALVES














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T EC HNIC AL VALVES




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MODEL

MODEL 44

SIZE

MM

INCH

Inch

mm

L

H

L

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1 1/2

40

170

93

6 5/8

3 5/8

2

50

188

113

7 3/8

4 1/2

2 1/2

65

219

118

8

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323

80

225

126

8 7/8

5

3

80

316

130

15 3/8

51/8

T57

DOROT METAL VALVES

T EC HNIC AL VALVES

BACKFLUSH VALVES

T58

Mode of Operation The black-flushing control valves are activated by system water pressure or by pneumatic pressure source. Operation is initiated by an electric solenoid, hydraulic relay or manually by a 3 way selector. The back-flush valve has a Normally Open (N.O.) filter port and a Normally Closed (N.C.) drain port. Each port has it‘s own sealing seat but they share a common stem activating diaphragm. The valve operates as a mutually integrated unit. When one port is open, the other is closed, by this permitting the back-flush valve to perform it‘s two modes of operation

DOROT METAL VALVES

51/52

INTERNAL PARTS

FILTRATION MODE

FLUSHING MODE

T EC HNIC AL VALVES

MODEL

57/58

T59

BERMAD VALVES

T EC HNIC AL VALVES

FLOW CONTROL VALVES The BERMAD 200 Series plastic control valves range from 3/4” to 2” in size, in either globe or angle pattern. These control valves provide superior hydraulic performance, constituting as they do, the state-of-the -art in hydraulics and in plastic technology.

Features t
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pressure surge hazards.

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Technical Specifications Valve Pattern: Sizes: End Connections:

Globe, Angle & Y-pattern (1”) 3/4”, 1”, 11/2” & 2” Female threaded BSP, NPT

Pressure Rating: ISO: PN 10 ANSI: Class 125 Operating Pressure Range: 0.7-10 Bar (10-150 psi) Temperature Range: Water up to 80°C (180°F)

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T60

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Electrical Data: – Standard: Voltage: Current: – Optional Voltages: Materials: Body & Cover: Metal Parts: Diaphragm: Seals:

24V AC (50-60 Hz) Holding 0.20A, Inrush 0.40A 6V DC, 12V DC, 24V DC, 12V AC, 24V AC Nylon Reinforced Stainless Steel Natural Rubber Buna-N & NR

BERMAD VALVES

Flow Chart

T EC HNIC AL VALVES

Hydraulic/Electric Control Valve Assembly

T61

BERMAD VALVES

T EC HNIC AL VALVES

100 SERIES t
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ELECTRIC VALVE, MODEL 1102WN “Look-through design” Straight through flow results in ultra-high flow capacity with minimum pressure loss.

T62

BERMAD VALVES

T EC HNIC AL VALVES

Technical Specifications

Materials

Sizes: Ends Connections: Pressure Ratings: Working Pressure Range: Temperature:

Body, Cover, Valve Plug: Diaphragm:

2”, 3”, 4” (DN 50, 80, 100) NPT ; BSPT female threads ISO PN 10 ; 150 PSI ; JIS 10K 0.5-10bar ; 7-150 psi Water up to 80°C ; 180°F

Seals: Spring: Cover Bolts:

Glass Filled Nylon NBR [Buna–N], Nylon Fabric Reinforced NBR [Buna–N] Stainless Steel Stainless Steel

T63

T EC HNIC AL VALVES NOTES

T64

TECHNICAL LANDSCAPE & SPORTS

MP ROTATOR

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N
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Operating Specifications Flow Rate: Radius: Rec. Pressure Range: Precipitation Rates:

0.61 to 9.73 l/min 3.1 to 9.1 m 1.75 to 3.75 Bar; 175 to 375 kPa 10 mm/hr approx.

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MP 3500 - NEW

Provisional Flow Rate Data

90o

Colour

Radius M

Flow LPH

Flow LPM

1.75

10.0

236.2

3.9

9.4

10.7

2.00

10.3

256.7

4.3

9.7

10.9

2.40

10.3

274.8

4.6

10.2

11.9

2.75

10.6

290.7

4.8

10.2

11.7

3.10

10.6

313.4

5.2

10.9

12.7

3.45

10.6

324.8

5.4

11.4

13.2

3.75

10.6

340.7

5.7

11.9

13.7

1.75

10.0

501.9

8.4

9.9

11.4

10.3

508.8

8.5

9.4

10.9

10.3

601.9

10.0

11.2

13.0

10.6

649.6

10.8

11.4

13.2

10.6

704.1

11.7

12.4

14.2

10.6

729.1

12.2

12.7

14.7

10.6

745.0

12.4

13.2

15.2

1.75

10.0

588.3

9.8

9.9

11.4

2.00

10.3

645.0

10.8

10.4

11.9

2.40

10.3

699.5

11.7

11.2

13.0

2.75

10.6

747.2

12.5

11.2

13.0

3.10

10.6

804.0

13.4

12.2

14.0

3.45

10.6

853.2

14.2

13.0

15.0

3.75

10.6

894.9

14.9

13.5

15.5

Brown = 90o to 210o

Pressure Bars

2.00 2.40

180o

2.75 3.10 3.45 3.75

210o

Precip mm/hr

T EC HNIC AL L ANDSC APE & SPORTS

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PROSPRAY

Hunter MP Rotator Performance Chart. 360O @ 2.5bar 2

3

4

5

6

7

8

9

PR mm/hr

PR mm/hr

PR mm/hr

PR mm/hr

PR mm/hr

PR mm/hr

PR mm/hr

PR mm/hr

2m

23.4

3m

20.8

4m

15.6

5m

18.7 28.2

18.7

15.6

28.2

24.1

21.1

18.8

18.8

16.1

14.1

12.5

28.2

12.5

28.2

11.7

21.1

16.9

14.1

12.5

22.5

16.9

13.5

11.3

10.4

18.8

14.1

26.6

28.4

10.6

24.9

22.8

19.9

17.7

15.6

22.1

19

16.6

14.8

24.1

16.1

12.1

28.4

22.8

19

16.3

14.2

12.6

8m

21.1

14.1

10.6

24.9

19.9

16.6

14.2

12.4

11.1

9m

18.8

12.5

17.7

14.8

12.6

11.1

All results are below a suggested 1.4 Scheduled Co-efficiency All precipitation rates are based on 360 degree rotators set at 180 degrees.

MP 1000

MP 3000

MP 2000

No Recommendation

29.5

22.1

6m

22.1

26.6

12.1

7m

29.5

11.3

22.5

10.4

15.6

T67

HUNTER SPRAYS

TECHNIC AL L ANDSC APE & SPOR T S

$0.1"3*40/
$)"35 14
6-53"

130 413":¥

134

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.13

PROSPRAY Operating Specifications

Recommended pressure range: 1.0 to 5.0 Bar; 100 to 500 kPa

Factory Installed Options Drain check valve (up to 3 m of elevation) Reclaimed water ID cap

User Installed Options Drain check valve (up to 3 m of elevation; P/N 437400) Reclaimed water ID cap (P/N 458520) Snap-on reclaimed cover (P/N PROSRCCAP) 4 5" /% " 3 %
.0 %& - 4 1304
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T68

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HUNTER ROTORS

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PGJ ROTORS Operating Specifications Radius: Flow Rate: Rec. Pressure Range: Operating Pressure Range: Precipitation Rates: Nozzle Trajectory:

t

t

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T EC HNIC AL L ANDSC APE & SPORTS

$0.1"3*40/ $)"35

4.3 to 11.6 m 0.13 to 1.23 m3/hr; 2.2 to 20.5 l/min 1.7 to 3.8 Bar; 170 to 380 kPa 1.4 to 6.9 Bar; 140 to 690 kPa 15 mm/hr approx. 14 Degrees approx.

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T69

HUNTER ROTORS

TECHNIC AL L ANDSC APE & SPOR T S

PGP ROTORS Operating Specifications Radius: Flow Rate: Rec. Pressure Range: Operating Pressure Range: Precipitation Rates: Nozzle Trajectory: 1(1
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 T70

6.4 to 15.8 m 0.10 to 3.22m3/hr; 1.7 to 53.7 l/min 1.7 to 4.5 Bar; 170 to 450 kPa 1.4 to 7.0 Bar; 140 to 700 kPa 10 mm/hr approx. Std = 25 Degrees, Low Angle = 13 Degrees

0RESSURE "AR K0A

2ADIUS M

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T EC HNIC AL L ANDSC APE & SPORTS

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T71

HUNTER ROTORS

TECHNIC AL L ANDSC APE & SPOR T S

PGP ULTRA ROTORS Operating Specifications Radius: Flow Rate: Rec. Pressure Range: Operating Pressure Range: Precipitation Rates: Nozzle Trajectory:

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T72

4.9 to 14.0 m 0.07 to 3.23 m3/hr; 1.7 to 53.8 l/min 1.7 to 4.5 Bar; 170 to 450 kPa 1.4 to 7.0 Bar; 140 to 700 kPa 10 mm/hr approx. Std = 25 Degrees, Low Angle = 13 Degrees

1SFTTVSF #BS L1B

                       

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HUNTER ROTORS

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T73

HUNTER ROTORS

TECHNIC AL L ANDSC APE & SPOR T S

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Operating Specifications Radius: Flow Rate: Rec. Pressure Range: Operating Pressure Range: Precipitation Rates: Nozzle Trajectory:

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T74

4.9 to 14.0 m 0.07 to 3.23m3/hr; 1.2 to 53.8 l/min 1.7 to 4.5 Bar; 170 to 450 kPa 1.4 to 7.0 Bar; 140 to 700 kPa 10 mm/hr approx. Std = 25 Degrees, Low Angle = 13 Degrees

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T75

HUNTER ROTORS

TECHNIC AL L ANDSC APE & SPOR T S

I25 ROTORS Operating Specifications Radius: Flow Rate: Rec. Pressure Range: Operating Pressure Range: Precipitation Rates: Nozzle Trajectory:

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T76

11.9 to 21.6 m 0.82 to 7.24 m3/hr; 13.6 to 120.7 l/min 2.5 to 7.0 Bar; 250 to 700 kPa 2.8 to 6.9 Bar; 280 to 690 kPa 15 mm/hr approx. 25 Degrees

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HUNTER ROTORS

I35 ROTOR

Radius: Flow Rate: Rec. Pressure Range: Operating Pressure Range: Precipitation Rates: Nozzle Trajectory:

14.0 to 21.6m 1.65 to 7.24m3/hr; 27.5 to 120.7 l/min 2.5 to 7.0 Bar; 250 to 700 kPa 2.5 to 7.0 Bar; 250 to 700 kPa 12 mm/hr approx. 25 Degrees

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T EC HNIC AL L ANDSC APE & SPORTS

Operating Specifications

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T77

HUNTER ROTORS

TECHNIC AL L ANDSC APE & SPOR T S

I40 ROTOR Operating Specifications Radius: Flow Rate: Rec. Pressure Range: Operating Pressure Range: Precipitation Rates: Nozzle Trajectory:

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T78

13.4 to 23.2m 1.52 to 7.76m3/hr; 25.4 to 129.4 l/min 2.8 to 7.0 Bar; 280 to 700 kPa 2.5 to 7.0 Bar; 250 to 700 kPa 15 mm/hr approx. 25 Degrees

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T79

HUNTER ROTORS

TECHNIC AL L ANDSC APE & SPOR T S

I60 ROTOR Operating Specifications

Radius: Flow Rate: Rec. Pressure Range: Operating Pressure Range: Precipitation Rates: Nozzle Trajectory:

14.9 to 20.4m 1.41 to 4.87m3/hr; 23.5 to 81.2 l/min 2.5 to 4.5 Bar; 250 to 450 kPa 2.8 to 7.0 Bar; 280 to 700 kPa 10 mm/hr approx. 25 Degrees

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T80

HUNTER ROTORS

I90 ROTOR

Radius: Flow Rate: Rec. Pressure Range: Operating Pressure Range: Precipitation Rates: Nozzle Trajectory:

18.9 to 30.8m 4.97 to 18.58m3/hr; 82.8 to 309.6 l/min 4.0 to 7.5 Bar; 400 to 750 kPa 3.5 to 8.0 Bar; 350 to 800 kPa 19 mm/hr approx. 22.5 Degrees

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T EC HNIC AL L ANDSC APE & SPORTS

Operating Specifications

T81

HUNTER ROTORS

TECHNIC AL L ANDSC APE & SPOR T S

ST SYSTEM Operating Specifications ST-90 & STG-900 Radius: Flow Rate: Operating Pressure Range: Precipitation Rates: User Installed Options:

31.4 to 35.1m 16.9 to 18.1m3/hr; 282 to 301 l/min 6.9 to 8.3 Bar; 689 to 827 kPa 35 mm/hr approx. (ST-90, STG900) Rubber Cover Kit ST-90 (P/N 234200) Rubber Cover Kit STG-900 (P/N 473900)

ST-1600 & STG-1600BR Radius: Flow Rate: Operating Pressure Range: Precipitation Rates:

32.5 to 48.7m 21.8 to 65.0m3/hr; 354 to 1,084 l/min 4.0 to 8.0 Bar; 400 to 800 kPa 60 mm/hr approx.

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T82

                        

HUNTER GOLF ROTORS

B SERIES

G70B

Radius: Flow Rate: Operating Pressure Range:

16.2 to 22.9 m 2.95 to 7.66 m3/hr, 49.2 to 127.6 l/min 3.4 to 6.9 Bar; 344 to 689 kPa

G75B

Radius: Flow Rate: Operating Pressure Range:

14.3 to 21.6 m 1.75 to 7.34 m3/hr, 29.1 to 122.3 l/min 2.8 to 6.9 Bar; 275 to 689 kPa

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Operating Specifications

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T83

HUNTER GOLF ROTORS

TECHNIC AL L ANDSC APE & SPOR T S

G800 SERIES Operating Specifications G870

Radius: Flow Rate: Operating Pressure Range:

G875

Radius: Flow Rate: Operating Pressure Range:

17.4 to 21.6 m 3.04 to 7.34 m3/hr, 50.7 to 122.3 l/min 3.4 to 6.9 Bar; 344 to 689 kPa

G880

Radius: Flow Rate: Operating Pressure Range:

20.4 to 26.8 m 5.11 to 13.15 m3/hr, 85.2 to 219.2 l/min 4.5 to 6.9 Bar; 450 to 689 kPa

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T84

16.2 to 22.9 m 2.95 to 7.66 m3/hr, 49.2 to 127.6 l/min 3.4 to 6.9 Bar; 344 to 689 kPa

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HUNTER GOLF ROTORS

G900 SERIES

G990

Radius: Flow Rate: Operating Pressure Range:

23.2 to 29.9 m 7.81 to 16.79 m3/hr, 130.2 to 297.7 l/min 5.5 to 8.3 Bar; 551 to 827 kPa

G995

Radius: Flow Rate: Operating Pressure Range:

20.7 m to 28.0 m 8.06 to 17.04 m3/hr, 134.4 to 283.9 l/min 5.5 to 8.3 Bar; 551 to 827 kPa

* All models pressure rated at 150 psi (10 bars; 1,000 kPa)

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T EC HNIC AL L ANDSC APE & SPORTS

Operating Specifications

T85

TECHNIC AL L ANDSC APE & SPOR T S HUNTER CONTROLLERS

T86

HUNTER CONTROLLERS

ADVANCED FEATURES

Cycle and Soak Water-saving feature that allows the operator to specify a maximum run time for each single station, followed by a minimum soak time, to prevent runoff from slopes or saturated soil. The operator can enter any run time, and the controller will automatically divide it into cycles to allow the water to be absorbed during the soak periods. The feature is adjustable by individual station for unique soil and site conditions. ICC , I-CORE, ACC Delay Between Stations A delay in watering between individual stations as the controller steps sequentially through zones of irrigation. The delay may range from a few seconds, to permit slow-closing valves time to shut down, or much longer to allow pressure tanks, etc., to refill or recharge. X-CORE, PCC, PRO-C, ICC, I-CORE, ACC Seasonal Adjustment This feature allows for quick adjustments to irrigation run times through a percentage scale. During peak season, set the seasonal adjust to 100%. If weather conditions require less water, enter the appropriate percentage value (i.e. 50%) to cut down irrigation run times without the need to adjust each station in the program. Hunter offers three different ways to use Seasonal Adjustment to reduce water usage: Globally: Provides a seasonal adjustment value to all controller programs (available on most Hunter controllers) Monthly: Allows user to program seasonal adjustment values for each month of the year (available on I-Core controller). The controller will automatically change the programmed seasonal adjustment value at the first day of every month. Daily (Solar Sync ET sensor): Implements an automatic daily adjustment based on measured local weather (available for most Hunter controllers) X-CORE, PCC, PRO-C, ICC, I-CORE, ACC, XC HYBRID, ECO LOGIC Easy RetrieveTM A manual back-up utility that stores a complete controller’s schedule and setup information in back-up memory. This allows the saved watering schedule to be restored at any time. This can be used to set a controller back to the initial settings after tampering or at the beginning of a new season. X-CORE, PCC, PRO-C, I-CORE, ACC, XC HYBRID Event day off programming Day(s) of the week can be programmed Off in advance, so that irrigation does not occur regardless of program interval schedules. For example, if the gardener mows the lawn on Saturday, the Event Day Off feature allows Saturday to be programmed Off, so that watering will not occur. PCC, PRO-C, I-CORE

No water window User-specified periods of time during which the controller will not allow automatic irrigation. No Water Window can be used to comply with local watering restrictions or to prevent conflicts with pedestrian traffic. This setting does not affect manual watering options for local maintenance. I-CORE, ACC Programmable rain delay A user-specified number of days for the controller to remain in Off mode, but then automatically revert to automatic irrigation. This will prevent watering during an extended period of inclement weather, but will resume watering automatically without requiring a return visit to the controller. The controller displays the number of days remaining before watering resumes. X-CORE, PCC, PRO-C, ICC, I-CORE, ACC, XC HYBRID, ECO LOGIC Quick CheckTM This feature allows for the quick diagnosis of wiring problems to valves in the field instead of checking each field wiring circuit for potential problems. Quick Check can detect a field wiring short and displays an “ERR” and station number on the display. X-CORE, PCC, PRO-C, ICC, I-CORE, ACC, ECO LOGIC Real Time Flow Monitoring This feature permits connection of a flow meter to recognize high or low flow conditions and react automatically to alarms. The controller learns typical flows for each zone of irrigation and then monitors performance during automatic irrigation. When incorrect flows are detected, the controller can identify the faulty station and shut it down. Used with a normally-closed Master Valve. Alarm parameters are user-programmable. Flow totals are also recorded in controller memory to verify system water usage. I-CORE, ACC

T EC HNIC AL L ANDSC APE & SPORTS

Automatic Short Circuit Protection Automatic short circuit protection, found in all Hunter AC powered controllers, automatically detects electrical faults typically caused by wiring issues or damage. Shorted stations are skipped, allowing watering to continue for those stations that are not faulty. No fuses to blow or internal circuit breakers to trip that can result in completely disabling irrigation. X-CORE, PCC, PRO-C, ICC, I-CORE, ACC, ECO LOGIC

Sens or Programmability The ability to specify which program or stations will be shut down in response to a specific sensor alarm. This allows stations or programs unaffected by the sensor to continue automatic operations. X-CORE, PCC, PRO-C, I-CORE, ACC, XC HYBRID Simultaneous Station Groups The ability to group stations into larger irrigation units that run together within automatic programs. This permits consolidation of large systems into fewer items to program and can be used to control system flow in high capacity installations. ACC Total Run Time Calculator This feature adds up all run times, and calculates the total duration of a program or to instantly display the full length of an irrigation cycle. This information can be used to determine the time of day at which watering will end. PCC, PRO-C, I-CORE, ACC Non-volatile memory This feature offers protection against unreliable power, retaining current time, day, and program data. X-CORE, PCC, PRO-C, ICC, I-CORE, ACC, XC HYBRID, ECO LOGIC

T87

HUNTER CONTROLLERS

TECHNIC AL L ANDSC APE & SPOR T S

XC HYBRID CONTROLLER  BATTERY POWERED  4, 6, 8, 10, 12 STATIONS Electrical Specifications Operates DC latching solenoids only Pump/Master Valve Sensor Inputs: 1 Operating temperature: -18oC to 66oC Uses 6 AA batteries (plastic model) Uses 6 C batteries (stainless model) Optional: 24 VAC input transformer: 230/240 VAC plug in transformer (European P/N 545700) DC latching solenoids (P/N 458200) Pole mount for stainless steel model

XCORE CONTROLLER  2, 4, 6, 8 STATIONS Electrical Specifications Transformer Input:

120 VAC or 230/240 VAC (international model) 1A 0.56 A 0.28 A

Transformer Output (24 VAC): Station Output (24 VAC): P/MV Output (24 VAC): Simultaneous Station Operation (Includes Master Valve): 3 valves Pump/Master Valve Sensor Inputs: 1 Operating Temperature: -18oC to 66oC

PCC CONTROLLER  6, 9, 12, 15 STATIONS  FIXED Electrical Specifications Transformer Input:

120 VAC or 230/240 VAC (international model) 1A 0.56 A 0.28 A

Transformer Output (24 VAC): Station Output (24 VAC): P/MV Output (24 VAC): Simultaneous Station Operation (Includes Master Valve): 3 valves Pump/Master Valve Sensor Inputs: 1 Operating Temperature: -18oC to 66oC

T88

RUN SYSTEM  OFF

MANUAL-­ ONE  STATION

SENSOR BYPASS

CURRENT  TIME/DAY ACTIVE

START  TIMES

RUN  TIMES

SEASONAL  ADJUSTMENT

WATER  DAYS

HUNTER CONTROLLERS

PROC CONTROLLER  3 TO 15 STATIONS  MODULAR

Transformer Input:

120 VAC or 230/240 VAC (international model) 1A 0.56 A 0.28 A

Transformer Output (24 VAC): Station Output (24 VAC): P/MV Output (24 VAC): Simultaneous Station Operation (Includes Master Valve): 3 valves Pump/Master Valve Sensor Inputs: 1 Operating Temperature: -18oC to 66oC

ICORE CONTROLLER  6 TO 42 STATIONS Electrical Specifications Transformer Input: 120/240 VAC, 50/60 Hz Transformer Output (24 VAC): 1.4 A Dual Voltage Transformer (120/240 VAC) Station Output (24 VAC): 0.56 A P/MV Output (24 VAC): 0.28 A Simultaneous Station Operation (includes master valve): 5 Valves Pump/Master Valve Sensor Inputs: Plastic: 2 Sensor Inputs: Metal: 3 Operating Temperature: -18oC to 66oC Factory Installed Smart-Port

T EC HNIC AL L ANDSC APE & SPORTS

Electrical Specifications

T89

HUNTER CONTROLLERS

TECHNIC AL L ANDSC APE & SPOR T S

ICORE / DUAL CONTROLLER

Use Dual to convert the I-Core to a cutting edge two-wire controller.

4HE $5!, $ECODER -ODULE EASILY PLUGS INTO THE ) #ORE CONTROLLER CONVERTING IT TO  WIRE DECODER CONTROL 5P TO  TWO WIRE PATHS CAN BE WIRED TO THE CONTROLLER ALLOWING MAXIMUM DESIGN FLEXIBILITY #AN OPERATE UP TO  STATIONS ON A SINGLE TWO WIRE PATH 2EDUCES MATERIAL AND LABOR COST TO INSTALL A SYSTEM $5!, $ECODERS CAN BE WIRED ANYWHERE ALONG THE  WIRE PATH AND CAN OPERATE  OR  VALVES UP TO  M FROM THE DECODER

Module and Decoder Features Decoder Station Sizes: Max Distance to Decoder: Max Recommended Distance Decoder to Solenoid:

T90

1, 2 2.0 mm2 (14 AWG) Wire Path: 1500 m 3.3 mm2 (12 AWG) Wire Path: 2300 m 30 m

HUNTER CONTROLLERS

ACC CONTROLLER  12 TO 42 STATIONS  MODULAR

T EC HNIC AL L ANDSC APE & SPORTS

Electrical Specifications Transformer input: 120/240 VAC, 50/60 Hz Transformer output (24 VAC): 4.0 A Dual Voltage Transformer (120/240 VAC) Station Output (24 VAC): 0.56 A P/MV Output (24 VAC): 0.32 A Pump/Master Valve: 2, Normally Closed Sensor Inputs: 4 Operating Temperature: -18oC to 66oC

ACC99D CONTROLLER  1 TO 99 STATIONS This decoder version of the powerful ACC offers complete two -wire comand.

.BYJNVN
PG

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8JSF
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Decoder Specifications Decoder station sizes available: Max. distance to decoder: Max. recommended distance, decoder to solenoid:

1 to 99 2.0 mm2 (14 AWG) wire path: 3000 m 3.3 mm2 (12 AWG) wire path: 4500 m 45 m

NODE  1, 2, 4, 6 STATIONS  FIXED Electrical Specifications Sensor Inputs: 1 Power Source: 9-volt battery Operates DC latching solenoids only (P/N 458200) Operating Temperature: -18oC to 66oC

T91

TECHNIC AL L ANDSC APE & SPOR T S

HUNTER CONTROLLERS

ICDHP DECODER PROGRAMMER Features t

8BUFSQSPPG
QSPHSBNNJOH
DVQ t

$PNNVOJDBUFT
XJUI
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UISPVHI
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case — wireless electro-magnetic induction saves waterproof connectors t

$PNQBUJCMF
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series decoders t

64#
QPXFSFE
GPS
TIPQ
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PöDF
VTF

Y
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batteries for field use t

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UFTU
MFBET
BOE
DBCMFT
JODMVEFE
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EVSBCMF
foampadded carrying case t

5VSO
EFDPEFS
TUBUJPOT
PO
BOE
WJFX
TPMFOPJE
TUBUVT current in milliamps, and more t

1SPHSBN
PS
SFQSPHSBN
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TUBUJPOT
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1SPHSBN
BOZ
TUBUJPO
OVNCFST
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BOZ
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PS
TLJQ stations for future expansion t

4JNQMJmFT
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GPS
sensor decoders t

4FOTPS
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GVODUJPOT
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$MJL
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'MPX
TFOTPST
QMVT built-in multimeter t

#BDLMJU
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EJTQMBZ t


JOUFSOBUJPOBM
PQFSBUJOH
MBOHVBHFT t

8BSSBOUZ
QFSJPE

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REMOTE ROAM Electrical Specifications Simultaneous station operation: Up to 4 Sensor inputs: 1 Power source: 4 x AAA battery Operates DC latching solenoids only (P/N 458200) Operating temperature: -18oC to 66oC Frequency of operation: 900 MHz ISM band No FCC license required

T92

Electrical Specifications Power Inputs: Communications:

4 x AA batteries, or standard USB connector (included) Wireless induction, range 25 mm

Fused test leads for unpowered decoder functions

HUNTER VALVES

$0.1"3*40/
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t

t

t

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t

t

t

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t

PGV JARTOP Operating Specifications (PGV-100 & 101) 1” Flow Rate: Rec. Pressure Range:

t t

t

t

t

t

t

T EC HNIC AL L ANDSC APE & SPORTS

437

0.04 to 6.8 m3/hr; 0.7 to 114 l/min 1.5 to 10 Bar; 150 to 1000 Kpa

Factory Installed Options Valve without solenoid DC latching solenoid

User Installed Options Solenoid conduit cover (P/N 464322) DC latching solenoid (P/N 458200) Reclaimed water ID (P/N 269205) ACCU-SYNC Compatible

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T93

HUNTER VALVES

TECHNIC AL L ANDSC APE & SPOR T S

PGV Operating Specifications (PGV-100 & 101) 1” Flow Rate: Rec. Pressure Range:

Operating Specifications (PGV-151 & 201) 1 ½” Flow Rate: 5 to 27 m3/hr; 75 to 450 l/min 2” Flow Rate: 5 to 34 m3/hr; 75 to 570 l/min Rec. Pressure Range: 1.5 to 10 Bar; 150 to 1000 Kpa ACCU-SYNC Compatible

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T94

0.05 to 7 m3/hr; 0.7 to 115 l/min 1.5 to 10 Bar; 150 to 1000 Kpa


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HUNTER VALVES

ICV

T EC HNIC AL L ANDSC APE & SPORTS

Operating Specifications 1” Flow Rate: 0.06 to 9 m3/hr; 0.4 to 150 l/min 1 ½” Flow Rate: 17 to 31 m3/hr; 75 to 510 l/min 2” Flow Rate: 9 to 34 m3/hr; 150 to 560 l/min 3” Flow Rate: 34 to 68 m3/hr; 560 to 1135 l/min Rec. Pressure Range: 1.5 to 15 Bar; 150 to 1500 Kpa ACCU-SYNC Compatible *$7
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ACCUSYNC Operating Specifications Regulation from 1.5 to 7 Bar; 150 to 700 kPa (20 to 100 PSI) Static Pressure: 10 Bar; 1000 kPa (150 PSI) Required dynamic pressure differential: 1 Bar; 100 kPa (15PSI) Works with AC and DC latching solenoids Works with any Hunter valve AS-ADJ: (1.5 to 7 Bar) Height with solenoid: Length:

8.2 cm 2.65 cm

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T95

NETAFIM LANDSCAPE

TECHNIC AL L ANDSC APE & SPOR T S

LANDLINE TM 8 Specifications t
t
t
t
t
t


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nPX
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MI
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T96

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NETAFIM LANDSCAPE

TECHNET TM

t
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CBS (according to flow rate mode). t
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NFDIBOJTN t
3FDPNNFOEFE
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Specifications

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UIJDLOFTT

T97

NETAFIM LANDSCAPE

TECHNIC AL L ANDSC APE & SPOR T S

TECHLINE TM AS Specifications t
1SFTTVSFDPNQFOTBUJOH
SBOHF

CBS t
"OUJ4JQIPO
NFDIBOJTN t
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according to drippers flow rate t
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67
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in agriculture t
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T98

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NETAFIM LANDSCAPE

TECHLINE TM CV 16MM

t
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TQBDJOHT




N (Other dripper spacing available upon request) t
1SFTTVSFDPNQFOTBUJOH
SBOHF

CBS t
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T EC HNIC AL L ANDSC APE & SPORTS

Specifications

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T99

NETAFIM LANDSCAPE

TECHNIC AL L ANDSC APE & SPOR T S

PRESSURE INDICATOR The Pressure Indicator is suitable for Techline or Landline drip systems. The indicator allows for a quick visual check whether the system is in operation (i.e. pressurised). The indicator, in the form of a yellow flag, will be fully up if the pressure is approx. 0.5 bar.

Specifications Working Pressure: Max. Working Pressure: Material: Connection:

0.5 to 4 bar 4 bar PP 5mm collar/branch

NETAFIM AQUAPRO The AquaPro is a combined electric valve and irrigation controller, which is ideally suitable for direct connection to the outside tap or for extension of an existing system. Battery-operated, no 220V connection required. 3 Programming options are available:
t

1
PODF
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UJNFT
EBJMZ
PO
TFMFDUFE
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Specifications Battery: t

Y
7
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t

Y
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T100

DC Valve: t
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DURA & LASCO

SWING JOINTS

/PUF
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T EC HNIC AL L ANDSC APE & SPORTS

t
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pre-compressed in a sealing groove free of parting lines to prevent leakage. t
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(S.E.) diameters and clearances to allow full circle
¡
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and joint fracture at thread roots.

T101

TECHNIC AL L ANDSC APE & SPOR T S NOTES

T102

T E C H N I C A L F I LT R AT I O N

AMIAD PLASTIC FILTERS

T EC HNIC AL FILT R AT ION

AMIAD PLASTIC FILTERS

General With our various filter elements Amiad all purpose plastic filters are made for wide range of filtering applications and filtration degrees and are easy to install and maintain. They are constructed from high quality engineeringplastic materials for providing excellent mechanical strength, durability and in some of the models even corrosion and chemical resistance. Amiad plastic filters need no tools for dismantling or for extracting the filter element from the filter housing for rinsing; also visually monitoring the status of the filter element without disrupting the water flow is easily done with Amiad’s innovative clogging indicator connected to the filter’s pressure check points. Amiad plastic filters can be upgraded to semi-automatic operation by adding one of Amiad’s exclusive Turboclean, Brushaway or Scanaway assemblies.

Filter Elements Amiad supplies various filter elements for its plastic filters line in order to cover wide range of flow rates, filtration degrees and applications.

Screen Elements: (1) These screen elements are constructed of molded plastic ribs that support a stainless steel weave-wire or weaved nylon screen for filtration degrees of 800 to 22 micron.

Perforated Stainless Steel Elements: (2) Suitable for coarse filtration (straining) between 3,500 and 800 micron. (3)

Disc Elements: (3) The disc elements are made to provide high retention of organic substances and are constructed from plastic discs that are stacked onto a telescopic core. The discs are grooved on both sides and intersected to form the filtration element when compressed on the telescopic core.

(1)

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104

AMIAD PLASTIC FILTERS Filtration Degrees Available

T EC HNIC AL FILT R AT ION

The following table lists the various filter elements of Amiad’s Plastic Filters line and the optional filtration degrees for each filter element. For ease of operation and maintenance the various filtration degrees are color coded, please consult your dealer for the most suitable filter element for your application’s requirements.

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AMIAD TAGLINE FILTERS

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AMIAD TAGLINE FILTERS

General With their Screen and Disc elements Amiad TAGLINE filters are made for wide range of irrigation applications. The TAGLINE filters are available in various filtration degrees for covering the needs of modern irrigation systems. TAGLINE filters are made from high quality engineering-plastic for excellent mechanical strength, durability and ease of installation. Amiad’s TAGLINE filters are easy to maintain; no tools are needed for extracting the filter element from the filter housing for rinsing.

Filter Elements For covering a wide range of flow rates, various filtration degrees and a variety of irrigation applications, Amiad supplies two optional filter elements for its TAGLINE series:

Screen Elements: (1) The screen elements are constructed of molded plastic ribs that support a stainless steel weave-wire or weaved nylon mesh for filtration degrees of 80 to 300 micron. The direction of flow in the screen elements is from the inside out. Suspended solids accumulate on the inner side of the screen and the screen can be easily extracted from the filter housing for manual rinsing. The screen elements are designed for creating very low head loss, retention of organic substances and are especially suitable for separating inorganic particles. The screen cylinder incorporates two O-rings to ensure perfect sealing inside the filter housing.

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(1) (2)

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T112

AMIAD TAGLINE FILTERS

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AMIAD STEEL FILTERS

AMIAD STEEL FILTERS

With their various filter elements, Amiad’s all purpose steel filters are made for wide range of filtering applications and filtration degrees and are easy to install and maintain. They are made of carbon steel with high quality polyester coating along with stainless steel housings that are also available. Amiad steel filters need no tools for dismantling or for extracting the filter element from the filter housing for rinsing, also visually monitoring the status of the filter element without disrupting the water flow is easily done with Amiad’s innovative clogging indicator connected to the filter’s pressure check points. Amiad steel filters can be upgraded to semi-automatic operation by adding one of Amiad’s exclusive Turboclean, Brushaway or Scanaway assemblies.

Filter Elements Amiad supplies various filter elements for its steel filters in order to cover wide range of flow rates, multiple filtration degrees and applications:

Stainless steel Screen elements: (1) These screen elements are constructed of molded plastic ribs that support a stainless steel weave-wire screen for filtration degrees of 50 to 800 micron.

T EC HNIC AL FILT R AT ION

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AMIAD SEMIAUTOMATIC FILTERS

T EC HNIC AL FILT R AT ION

AMIAD SEMIAUTOMATIC FILTERS General Amiad’s exclusive Semi-Automatic assemblies provide a quick and efficient way for cleaning manual filters. Amiad’s Scanaway and Brushaway are add-on assemblies built for upgrading Amiad’s steel and plastic filters to semi-automatic operation by adding simple turn-of-a-handle cleaning mechanism to the filter’s screen. Upgrading a manual filter to semi-automatic operation eliminates the need for turning-off the water and extracting the filter screen for rinsing, with the semi-automatic assembly the process flow is not interrupted during operation. Amiad’s semi-automatic assemblies are fitted with a Clogging Indicator for visually monitoring the status of the filter element without disrupting the water flow. A red button pops-up from the indicator when the differential pressure across the screen reaches 0.5 bar. Amiad’s semi-automatic assemblies are available for all Amiad manual filters from 2” to 14”.

How the “Scanaway” Assembly Works The Scanaway assembly consists of a suction-scanner, a hollow pipe with suction nozzles, that is facing the inner side of the screen. Outside the filter a handle is connected to the “suction” scanner, allowing turning the scanner in a spiral movement so it rotates inside the screen surface without touching the screen mesh. Opening the exhaust valve at the filter lid creates low pressure conditions in the suction scanner, which cause the scanner nozzles to suck-in the dirt particles from the screen surface and expel the dislodged particles out through the exhaust valve. Scanning is done during the filtration process without having to stop the flow of process water through the filter.

How the “Brushaway” Assembly Works The Brushaway assembly consists of nylon brushes fitted on a frame and inserted into the filter screen. A simple handle, outside the filter, allows brushing away particles from the inner screen surface and expel them out from the filter through the exhaust valve.Brushing is done during the filtering process without having to stop the flow of process water through the filter.

How the “Clogging Indicator” Works

T120

The Clogging Indicator is a special feature mounted on the filter pressure check points and acts like a “traffic light”. When the pressure differential across the screen reaches a pre-set value of 0.5 bar the red button of the Clogging Indicator pops-up to visually indicate that the filter needs cleaning.

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T121

AMIAD MEDIA FILTERS

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AMIAD MEDIA FILTERS How the MEDIA Filters Work General With its MEDIA filters line Amiad provides a complete solution for depth filtration requirements. Amiad’s MEDIA filter-vessels are high quality corrosion resisting, polyester coated steel tanks. These modular vessels are Phosphate pre-treated, tested for pressure of 10 bars and are available in wide range of types and sizes for flexibility and custom designed applications. Amiad MEDIA vessels are designed for perfect water distribution during filtering and backwashing, providing high filtration efficiency. In addition to the high quality vessels, Amiad’s MEDIA filters line consists of the necessary accessories for constructing a fully operational filtration application, a complete line of manifolds, standard connectors, valves, granular media types and control systems. Amiad’s MEDIA filters use various granular bed-types for perfect matching with the raw water type and the filtration degree required. In addition to other bed-types these may include various grades of sand, gravel, active carbon, anthracite and basalt. Multi-layer bed-types may also be supplied according to the design requirements of the customer application. Amiad provides excellent design & service capabilities for helping our customers to acquire the best solution for their custom designed manual or automatic backwash system, complete with manifolds, valves and control requirements. A typical depth filtration installation is assembled from several media vessels connected together to form a filtration battery. The number of the vessels, the diameter of the manifolds and the size & number of the valves depend on the required flow-rate, raw water quality and the required filtration degree of the system. Please consult your Amiad dealer for the best design. Amiad’s on-the-shelf standard vessels support flow-rates of 6-110 m3/h (26-484 US gpm) per unit, with various filtration degrees and vessel’s inlet/outlet connections of 2”-4” in diameter. Other sizes are available upon request.

The Filtering Process Filtering with media filters, also known as depth filtration, is done by filtering water through a thick layer of graded particles, the filter-bed. These particles can be sand, gravel or other granular materials. The filtration degree depends on the effective size of the bedding and the water velocity through the filter. Raw water enters from the filter inlet (1) and percolates through the filter-bed (2). Suspended materials that come into contact with the media particles adsorped on it. Clean water flows through the filtration nozzles (3) and out of the filter via the outlet valve (4). The gradual dirt buildup in the filter-bed causes an increase in the pressure differential across the filter and when it reaches its maximum designed value, a cleaning process should be performed. In automatic media filter installations a pressure differential switch senses the pressure differential and when it reaches a pre-set value, the self cleaning process begins.

T122









AMIAD MEDIA FILTERS The Cleaning Process

In automatic media filters installations the cleaning process is done by the system’s controller. When the pressure differential switch senses that the differential pressure across the system reached a pre-set value, a signal is sent to the flushing controller and the self cleaning process begins.

The Control System Amiad supplies several control systems for its MEDIA filters such as Electrical Control Boards, Programmable Logic Controllers (PLCs) and Amiad’s proprietary AC/DC Flushing Controllers for supporting any size of media filters installation, starting at a single vessel and ending at very large filtration batteries. Amiad control systems starts the self-cleaning cycle under any one of the following conditions: 1. Receiving a signal from the Pressure Differential Switch 2. Time interval parameter set at the control system 3. Manual Start

T EC HNIC AL FILT R AT ION

Cleaning is done by backwashing; pressurized water flows in reverse direction – from the nozzles upwards, causing suspension of the filter-bed, thus releasing the suspended matter from the bedding. The dirt particles are then washed out of the filter through the back-flush valve.

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AMIAD SAF FILTERS

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AMIAD SAF FILTERS How the SAF Filters Work General The Amiad SAF Series are sophisticated, yet easy-to-operate, automatic filters, with a self-cleaning mechanism driven by an electric motor. The “SAF” filters support flow-rates of up to 400 m3/h (1760 gpm), with various screens designed to cover a range of 800-10 micron filtration degree, and are available in inlet/outlet diameters of 2”-10”.

The Filtering Process Raw water enters the filter inlet (1) through the coarse screen (2) which protects the cleaning mechanism from large debris. The water passes through the fine screen (3), trapping dirt particles which accumulate inside the filter. Clean water flows through the filter outlet (4). The gradual dirt buildup on the inner screen surface causes a filter cake to develop, with a corresponding increase in the pressure differential across the screen. A pressure differential switch senses the pressure differential and when it reaches a pre-set value, the cleaning process begins.

The Self-Cleaning Process Cleaning of the filter is carried out by the suction scanner (5) which spirals across the screen; the open exhaust valve creates a high velocity suction stream at the nozzles tip which “vacuums” the filter cake from the screen. During the self-cleaning process, which takes between 20 to 40 seconds, filtered water continues to flow downstream.

The Control System Two types of control boards are available for the SAF filters: PLC or Electro-Mechanical Relay and Timer. The self-cleaning cycle begins under any one of the following conditions: 1. Receiving a signal from the Pressure Differential Switch (6) 2. Time interval parameter set at the control board 3. Manual Start The control board also provides: t
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AMIAD TAF FILTERS

General Amiad’s TAF Series consists of easy-to-operate 2” and 3” automatic filters constructed of high quality plastic and driven by electrical or electronic self-cleaning mechanism. The various types of TAF screens designed to cover a range of 500-10 micron filtration degree and flow rates of up to 50 m3/h (220 US gpm).

The Filtering Process The water enters the inner area of the screen-cylinder (1) through the Inlet Pipe (2) and flows throughout the screen-mesh to the filter’s Outlet Pipe (3). The dirt particles are trapped on the inner screen surface and “filtration cake” that causes a differential pressure across the screen.









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AMIAD FILTOMAT FILTERS

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AMIAD FILTOMAT FILTERS How the FILTOMAT M100 Filters Work General The Amiad FILTOMAT M100 Series are mid range automatic filters, ideal for remote installation sites, with a water-driven self-cleaning mechanism that doesn’t require external power source to operate. With their various screen areas the M100 models support flow-rates of up to 400 m3/h (1760 US gpm), with filtration degrees of 500 down to 80 micron and inlet/outlet diameters from 2”-10”.

The Filtering Process The filtration process begins when raw water flows through the filter inlet (1) into the coarse screen (2). Here, the water is pre-filtered in order to protect the cleaning mechanism from large debris. The water then passes through the inner surface of the fine screen; dirt particles are trapped and accumulate inside the filter while clean water flows through the filter outlet. The gradual dirt buildup on the inner screen surface causes a filter cake to develop, with a corresponding increase in the pressure differential across the screen.

The Self-Cleaning Process When the pressure differential across the screen reaches a pre-set level of 0.5 bar, the M100 filter’s rinse controller (3) starts the cleaning process by opening the internal flush valve (4). This results in the release of a back-flush stream, flowing through the nozzles (5) out of the hollow Suction Scanner Shaft (6) and the Turbine (7) to the Drainage pipe (8).

M100 Models Amiad’s “FILTOMAT M100 SERIES” consists of the following models: M100-750 for up to 40 m3/h (176 US gpm) M100-1500 for up to 80 m3/h (352 US gpm) M100-4500 for up to 180 m3/h (793 US gpm) M100-6800 for up to 400 m3/h (1760 US gpm)





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NETAFIM DRIPPERLINE

TEC HNIC AL DR IP IR R IGAT ION

UNIRAM RC 16010

Specifications: t
t

t
t
t
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t
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1SFTTVSFDPNQFOTBUJOH
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DRIPNET PC 16010

t

t
t
t
t
t
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JO
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T EC HNIC AL D R IP IR R IGAT ION

Specifications:

DRI PPERS TECHNICAL DATA FLOW RATE (L/H.)

WORKI NG PRESSURE RANGE (B AR)

WATER PASSAGES D I MENS I ONS W I DTH-DEPTH-LENGTH (MM.)

FILTRATI ON AREA (MM2)

CONSTANT

EXPONENT *

K

X

RECOMMENDED FILTRATI ON (MICRON)/(MESH)

1.0

0.40 - 3.0

0.61 x 0.60 x 8

39

1.0

0

130/120

1.6

0.40 - 3.0

0.76 x 0.73 x 8

39

1.6

0

200/80

* Within working pressure range

DRIPPERLINES TECHNICAL DATA MODEL

INS IDE DIAMETER (MM.)

WALL THICKNESS (MM.)

OUTSIDE DIAMETER (MM.)

MAX. WORKING PRESSURE (BAR)

MAXIMUM FLUSHING PRESSURE (BAR)

KD

16010

14.2

1.0

16.2

3.0

3.5

0.72

*Maximum working pressure is defined by the dripper and not by the dripperline wall thickness

MAX. LATERAL LENGTH (METER) AT DIFFERENT INLET PRESSURE AND DIFFERENT SLOPES DRIPNET P$™


t

I%

..

t

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t

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0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

1.0

83

111

134

153

169

183

194

205

214

1.5

106

145

178

207

232

253

274

292

308

2.0

122

169

209

244

275

304

330

354

375

2.5

135

188

234

274

311

344

374

403

429 331

1.0

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130

165

197

226

255

282

307

1.5

114

161

204

243

280

315

349

381

411

2.0

129

183

232

277

320

360

398

434

469

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142

201

255

305

352

396

438

478

517

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102

150

196

242

287

330

374

418

461

1.5

122

177

230

281

331

379

426

473

520

2.0

136

197

255

311

364

417

468

518

567

2.5

148

214

276

336

393

449

502

555

607

Minimum considered pressure 0.4 bar

T153

NETAFIM DRIPPERLINE

TEC HNIC AL DR IP IR R IGAT ION

DRIPNET THINWALL

Specifications: t

t
t
t
t
t
t
t


1SFTTVSFDPNQFOTBUJOH
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t

t
t

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DRI PPERS TECHNICAL DATA FLOW RATE (L/H.)

W ORKI NG PRESSURE RANGE (B AR)

WATER PASSAGES D I MENS I ONS WI DTH-DEPTH-LENGTH (MM.)

FILTRATI ON AREA (MM2)

CONSTANT

EXPONENT *

K

X

RECOMMENDED FILTRATI ON (MICRON)/(MESH)

0.6

0.25-2.5

0.52 x 0.60 x 22

39

0.6

0

130/120

1.0

0.40-3.0

0.61 x 0.60 x 8

39

1.0

0

130/120

* Within working pressure range

DRI PPERL I NES TECHNICAL DATA MODEL

INS I DE DI AMETER (MM.)

WALL THICKNESS (MM.)

OUTS I DE DI AMETER (MM.)

MAX. WORKI NG PRESSURE (B AR)

MAXI MUM FLUSHI NG PRESSURE (B AR)

KD

12250 16125 16150

11.8 16.2 16.2

0.63 0.31 0.38

13.06 16.82 16.96

3.0* 1.8 2.2

3.9 2.1 2.5

1.35 0.40 0.40

*Maximum working pressure is defined by the dripper and not by the dripperline wall thickness

MAX. LATERAL LENGTH (METERS) AT DI FFERENT I NLET PRESSURE AND D I FFERENT SLOPES DRIPNET P$™


t


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T154

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

1.0

77

105

129

148

164

179

191

202

211

1.5

98

137

170

198

224

246

267

285

302

2.0

114

159

198

234

266

295

321

345

367

2.5

126

176

222

262

299

333

364

392

419

1.0

86

122

156

188

217

245

272

298

323

1.5

105

151

192

232

268

303

337

368

399

2.0

120

171

219

264

306

346

384

420

456

2.5

131

188

240

290

336

380

422

463

501 444

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139

184

228

272

315

358

401

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112

165

216

266

314

362

409

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126

184

240

294

347

398

449

499

547

2.5

137

200

260

318

374

428

482

535

586

Minimum considered pressure 0.4 bar

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T155

NETAFIM DRIPPERLINE

TEC HNIC AL DR IP IR R IGAT ION

STREAMLINE

Specifications: t
t
t
t
t
t


3FDPNNFOEFE
mMUSBUJPO

NJDSPO


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Features and Benefits: t
t
t
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DRIPPERS TECHNICAL DATA NOMINAL FLOW RATE (L/H.)

WORKING PRESSURE RANGE (BAR)

WATER PASSAGES DIMENSIONS WIDTH-DEPTH-LENGTH (MM X MM X MM)

1.2

0.7 – 4.0

0.67 x 0.77 x 35

2.0

1.2

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1.03 x 0.75 x 35

2.0

2.0

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BASE CODE COLOR**

0

0.12

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Black

0

0.12

Red

Black

CAP COLOR CODE

3.0

0.7 – 4.0

1.03 x 1.08 x 35

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0

0.12

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Black

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0.7 – 4.0

1.32 x 0.95 x 35

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0

0.12

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Black

8.0

0.7 – 4.0

1.60 x 1.05 x 35

2.0

8.0

0

0.12

Green

Black

*Within working pressure range **In addition , PCJ-LCNL is distinguished by the rings around the barb water inlet connector

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TEC HNIC AL DR IP IR R IGAT ION

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t

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t

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NETAFIM CNL DRIPPERS

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T EC HNIC AL D R IP IR R IGAT ION

Specifications: t
t
t
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t

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NETAFIM NONCOMPENSATED DRIPPERS

TEC HNIC AL DR IP IR R IGAT ION

NONCOMPENSATED DRIPPERS

Specifications: t
t
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t
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DRIPPERS TECHNICAL DATA B utton drippers FLOW RATE (L/H)*

MAXI MUM W ORKING PRESSURE (BAR)

WATER PASSAGES DI MENSI ONS W IDTH-DEPTH-LENGTH (MM .)

CONSTANT

EXPONENT

K

X

B ASIS C ODE COLOR

CAP COLOR CODE

1.05

2.0

0.70 x 0.65 x 50

0.347

0.48

Brown

Black

2.00

2.0

0.98 x 0.89 x 50

0.662

0.48

Red

Black

3.00

2.0

1.05 x 0.95 x 50

0.993

0.48

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Black

4.00

2.0

1.27 x 1.20 x 50

1.325

0.48

Black

Black

8.00

2.0

1.65 x 1.40 x 50

2.649

0.48

Green

Black

CONSTANT

EXPONENT

B ASIS C ODE COLOR

CAP COLOR CODE

* Flow rate at 1.0 bar pressure

Pot drippers FLOW RATE (L/H)*

MAXI MUM W ORKING PRESSURE (BAR)

K

X

1.05

2.0

0.70 x 0.65 x 50

0.347

0.48

Brown

Black

2.00

2.0

0.98 x 0.89 x 50

0.662

0.48

Red

Black

4.00

2.0

1.27 x 1.20 x 50

1.325

0.48

Black

Black

8.00

2.0

1.65 x 1.40 x 50

2.649

0.48

Green

Black

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T162

WATER PASSAGES DI MENSI ONS W IDTH-DEPTH-LENGTH (MM .)

NETAFIM NONCOMPENSATED DRIPPERS

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T EC HNIC AL D R IP IR R IGAT ION

Specifications: t
t

t
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