asic Valve??????? I-9-D Automatic Metering Valve (AMV) The EMAD Model I-9-D is a unique product integrating both a vertical turbine oltman-type water meter and a pilot operated, diaphragm actuated control valve, with a built-in auxiliary shut-off pilot for batch applications. hen this unique assembly delivers a preset quantity of water, its control head mechanism mechanically shifts the shut-off pilot. This automatically and smoothly closes the control valve, stopping the flow of water. The I-9-D provides the full spectrum of metering functions - from simple visual readout, through non-computerized dose control, to pulse output for computerized data capture and control - while simultaneously allowing for numerous control valve features such as pressure, level and flow control. anging in size from 1 1 /"; DN4 through 1"; DN5, the is specifically designed for metering and control applications in agricultural and landscape irrigation as well as municipal and industrial water supply systems. The flow metering unit is vertical to the pipeline and includes an impeller with integrated inlet and outlet flow straighteners. This internal design eliminates the need for straightening distances, enables vertical or horizontal installation, and ensures accuracy even when the valve is partially open during pressure or flow control tasks. The impeller assembly shaft serves as the closure assembly guide, and for centralizing and tightening all internal parts both in their position and to one another. The basic Model I-9-D combines simple and reliable construction with superior performance, while at the same time being virtually free of the typical limitations associated with other single chambered valves. The relatively high impeller housing raises the location of the vulcanized seal seat above the valve body. This results in remarkable cavitation resistance and a smooth mushroom-shaped flow where the valve body is at maximum distance from the flow. The closure assembly, combining a rugged radial disk harnessed to a flexible fiber reinforced diaphragm, slides on the guide along the full valve travel. The diaphragm is carefully balanced and peripherally supported to avoid distortion, resulting in long-life and controlled actuation even under harsh conditions. One diaphragm and spring fully meets the valve's operating pressure range requirements. The cover is removable via fastening bolts for quick in-line inspection and service. All the internal assemblies can be easily removed from the valve body with no need for disassembling the valve from the line.
8 7 9 6 5 1 3 4 8 7 9 6 5 1 3 4 8 7 9 6 5 1 3 4 8 7 9 6 5 1 3 4 8 7 9 6 5 1 3 4 EMAD Irrigation Principle of Operation On-Off Modes, Automatic Metering Valves 3 4 5 3 4 5 6 6 1345 m 3 1 1345 m 3 1 13456 13456 AMV Closed AMV Open The shut-off pilot hydraulically connects the AMV inlet pressure to the control chamber. Setting the AMV closes the shut-off pilot, thereby discharging pressure from the control chamber and opening the AMV. Upon delivering the preset water quantity, the shut-off pilot switches open to divert line pressure into the AMV control chamber. This causes the AMV to shut, stopping the flow of water. On-Off Modes, Sequential Automatic Metering Valves 3 4 5 3 4 5 3 4 5 1345 m 3 1 6 6 m 3 1345 1 1345 m 3 1 6 13456 13456 13456 Previous AMV, Closed Current AMV, Open Next AMV, Set & Closed Each AMV is manually preset to deliver a desired quantity of water. As long as the Previous AMV is set & open, it transmits pressure that enters the Current AMV control chamber through its sequential shut-off pilot, closing it. hen the Previous AMV shuts itself off, it drains the Current AMV control chamber through both AMV's sequential shut-off pilots, opening the Current AMV. The Current AMV inlet pressure is transmitted to the Next AMV, holding it closed until the Current AMV shuts itself off.
Principle of Operation -ay Modulating Modes, Pressure educing Pilot 1345 1345 1345 Modulating to Close The restrictor continuously allows line pressure into the control chamber, while the pilot controls outflow from the control chamber. Throttling when it senses a pressure rise, the pilot causes pressure to accumulate in the control chamber, forcing the valve to modulate closed. Modulating to Open The pilot modulates open when it senses a pressure drop, releasing greater flow from the control chamber than the restrictor can allow in. This causes the accumulated pressure in the control chamber to drop, and the valve to modulate open. Zero Flow Position Upon delivering the preset quantity of water, the AMV shut-off pilot automatically switches, closing the hydraulic relay valve. This causes pressure to accumulate in the AMV control chamber, shutting the AMV. 3-ay Control Modes, Pressure educing 1345 1345 1345 AMV Set, Fully Open Position hen upstream pressure drops, the pilot blocks the pressure port and opens the drain port, venting the control chamber to the atmosphere. This fully opens the valve, minimizing head loss. AMV Set, Modulating to Close Upon pressure rise the pilot switches, blocking the drain port and opening the pressure port. This pressurizes the control chamber, forcing the valve to modulate closed. Automatic Shut-Off Upon delivering the preset quantity of water, the AMV shut-off pilot automatically switches, blocking the pilot while directing line pressure into the control chamber, thereby causing the AMV to shut.
Principle of Operation /3-ay Modulating Modes, Flow Control 1345 1345 AMV Set, Modulating to Close Should demand rise above setting, the increasing flow dynamic-force moves the paddle, which thereby pushes up the pilot trim, causing a negative ratio between water flow into and out of the control chamber. Pressure then accumulates in the control chamber, forcing the AMV to throttle closed. AMV Set, Modulating to Open hen demand is below setting, the pilot's spring force pushes the pilot trim down, thereby causing a negative ratio between water flow into and out of the control chamber. Pressure is then released from the control chamber, enabling the AMV to modulate open 1345 Automatic Shut-Off Upon delivering the preset quantity of water, the AMV shut-off pilot automatically switches, directing line pressure through the shuttle valve into the control chamber, thereby causing the AMV to shut.
Product Parts Features [1] Setting Knob Easy "Push & Set" batch pre-setting [] Control ead Includes: Flow totaling counter, visual flow rate indicator, non-computerized dose control and pulse output for computerized data capture and control. [.1] Shut-Off Pilot: Spring loaded pilot which is manually preset to divert line pressure into the AMV control chamber and automatically switches to drain pressure out of the control chamber. Optional: Sequential Shut-Off Pilot Shut-Off Pilot with Pump Shut-Off Electrical Switch. [3] Valve Cover ocates, centralizes and fastens diaphragm, spring, and impeller assembly ensuring smooth and accurate performance. Simple and light construction enables quick in-line inspection and service. [4] Auxiliary Closing Spring One single spring fully meets valve requirements for operating pressure range, ensuring low opening pressure and secured closing. [5] Closure Assembly Combining a rugged radial disk harnessed to a flexible fiber reinforced diaphragm. The fully guided closure assembly and the carefully balanced and peripherally supported diaphragm prevent distortion and protect the elastomer, resulting in long-life and controlled actuation even under harsh conditions. One diaphragm and spring fully meet the valve's operating pressure range requirements. [6] Impeller Assembly [6.1] Guide Carries the transmission shaft, guides the closure assembly, and centralizes and tightens all internal parts. [6.] Upper Flow Straightener Tightens the seal seat in place, straightens outlet flow, and creates mushroom-shaped flow. [6.3] Impeller oltman-type impeller with tungsten carbide shaft tips and bearings for high, long-term accuracy and negligible wear [7] Impeller ousing [7.1] ower Flow Straightener Straightens inlet flow, eliminating the need for straight upstream pipe required in standard water meters [7.] Seal Seat Metal ring vulcanized with elastomeric seal, raised and remote from valve body to prevent cavitation damage. [8] Integrated Calibration Device Enables recalibration instead of renovation when the recommended standard accuracy period has elapsed (The Calibration Device is stamped closed with a metal seal) [9] ide ody ydro-dynamically designed for efficient flow with minimal pressure loss and excellent resistance to cavitation. [9.1] End Connections conform to pressure ratings and standards: ISO, ANSI, JIS, S, and others. [9.1] [.1] [6.1] [6.] [6.3] [7.1] [7.1] [1] [] [3] [4] [5] [6] [7] [9.1] [8] [9]
Technical Data SI Metric Construction Materials [1] Control ead: Plastic, Stainless Steel and rass [] Shut-Off Pilot: Nylon, Stainless Steel & N (una-n) [3] Cover: Polyester Coated Ductile Iron to EN 1563 [4] External olts / Nuts: Zinc-Cobalt Plated Steel [5] Internal olts, Nuts and ashers: Stainless Steel 34 and 316 [6] Spring: Stainless Steel 3 [7] Closure Assembly: [7.1] Diaphragm: einforced Natural ubber (N) [7.] Closure: Glass Fiber einforced Nylon [8] Impeller Assembly: [8.1] Guide: Stainless Steel 33 [8.] Pivots, earings, and Thrust earings: Tungsten Carbide [8.3] Upper Flow Straightener: Glass Fiber einforced Nylon [8.4] Impeller: Polypropylene [9] Impeller ousing Assembly: [9.1] Seal Seat: N (una-n) Vulcanized rass [9.] Impeller ousing and ower Flow Straightener: Glass Fiber einforced Nylon [1] Valve ody: Polyester Coated Ductile Iron to EN 1563 or Cast Iron O-ings: N (una-n) Coating: Electrostatic Powder Polyester Green A 617, 15 mµ [9.1] [9.] [4] [6] [5] [] 1345 [1] [3] [7.1] [7.] [8.1] [8.3] [8.4] [8.] [1] Technical Specifications Available Patterns, s & End Connections: Connections DN4 DN5 DN65 DN8 DN8 DN1 DN15 DN DN5 Threaded G G & A G Threaded (Male) G G Flanged * G G & A G, A & G & A G & A G Flange Inlet \ Thread Outlet A * G G = Globe, A = Angle 9, = ydrant (Angle 1 ) * Triangle Flange Inlet Connections Standard: Flanged: ISO 75- (PN1 & 16) Triangle Flange (DN65 inlet only) Threaded: p ISO 7/1 (PSP.P) or NPT Pressure atings: PN1 (Plastic Primary Gear Cover) PN16 (Metal Primary Gear Cover) Dial Options Pulse Options: For Dials 3.8 through,1: 1 Pulse per 1 m 3 For Dials 3,5 through 1,: 1 Pulse per 1 m 3 Operating Pressure anges: PN1:.5-1 bar PN16:.5-16 bar For lower pressure requirements, consult factory Temperature: ater up to 5 C Dial Capacity (m 3 ) 3.8 1 4 8 1 15 35 6 8 1,,1 3,5 6, 8, 1, 1, Graduation (m 3 ).1. 1 1 5 1 1 1 5 1 1 1 5 DN4-DN8 DN1-DN5 Pulse Electrical Data: Switching Voltage: 48 VAC/DC max. Switching Current:.A max. Switching Power: 4 max.
Dimensions & eights Flow Charts SI Metric Globe Pattern Connection Type (mm) M (mm) (mm) (mm) (mm) eight (kg) DN4 5 67 137 93 95 7. Threaded DN5 5 77 137 3 95 7.3 DN8 5 137 3 79 7.3 Globe Pattern Connection Type (mm) (mm) (mm) (mm) eight (kg) DN8 31 31 1 15.8 DN8 3 1 45 13 3 DN1 35 5 47 137 3 Flanged DN15 5 38 65 16 7 DN 6 38 64 8 9 DN5 6 45 64 8 14 9 Angle Pattern Connection Type (mm) (mm) (mm) (mm) eight (kg) Threaded DN5-G 1 137 3 15 7.9 DN8-F 15 1 45 196 5.5 DN1 18 5 5 5 35.8 Flanged DN15 5 38 61 36 76.4 DN 5 38 61 8 8. 1 Angle Pattern Connection Type (mm) (mm) (mm) (mm) eight (kg) Flanged Inlet / Threaded Outlet DN65 143 137 43 73 1.3 DN1 8 17 47 83 4.5 Flanged Inlet and Outlet DN65 143 43 73 1.7 DN1 8 3 47 83 7.6
Flow Charts SI Metric Globe Pattern Pressure oss - bar 1 Angle Pattern Pressure oss - bar.5.4.3..15.1.8.6.5.4.3..15.1.5.4.3..15.1.8.6.5.4.3..15 3 4 6 8 1 15 3 4 6 8 1 15 3 4 6 Flow ate (m 3 /h) 9 Angle Pattern Pressure oss - bar.5.4.3..15.1.8.6.5.4.3..15.1 DN65 -ay circuit "Added ead oss" (for "V" below m/s):.3 bar DN4 DN5 DN8 DN1 DN15 DN-5 -ay circuit "Added ead oss" (for "V" below m/s):.3 bar DN5 DN8 DN1 DN15 DN 3 4 6 8 1 15 3 4 6 8 1 15 3 4 6 Flow ate (m 3 /h) -ay circuit "Added ead oss" (for "V" below m/s):.3 bar DN1.1 4 6 8 1 15 3 4 6 8 1 3 Flow ate (m 3 /h)
Flow Properties SI Metric Globe Pattern 9 Angle Pattern 1 Angle Pattern DN4 DN5 DN65 DN8 DN8 DN1 DN15 DN DN5 Kv 41 46 5 115 147 43 55 55 K.4 4.6 4.7 4.9 7.3 4.3 8.3. eq - m 4.8 1.9 19.7 1.6 4.7 4.9 11.5 337. Kv 51 16 18 473 65 K 3.8 4. 4.8 3.5 6.8 eq - m 1.5 18 8.4 35.5 91.3 Kv 51 147 K 3.8 7.3 eq - m 1.5 4.7 Valve flow coefficient, Kv or Cv Kv(Cv)=Q here: Kv = Valve flow coefficient (flow in m 3 /h at 1bar Diff. Press.) Cv = Valve flow coefficient (flow in gpm at Diff. Press. 1psi) Q = Flow rate (m 3 /h ; gpm) P = Differential pressure (bar ; psi) Gf = iquid specific gravity (ater = ) Kv = 65 Cv Gf P Equivalent Pipe ength, eq eq = k D here: eq= Equivalent nominal pipe length (m ; feet) k = Equivalent length coefficient for turbulent flow in clean commercial steel pipe (SC 4) D = Nominal pipe diameter (m ; feet) Note: The eq values given are for general consideration only. K = g Flow resistance or ead loss coefficient, V here: K = Flow resistance or ead loss coefficient (dimensionless) = ead loss (m ; feet) V = Nominal size flow velocity (m/sec ; feet/sec.) g = Acceleration of gravity (9.81 m/sec ; 3.18 feet/sec ) Accuracy Table Flow ate (m3) Q1 Minimum Flow QD Safe Closing (AMV) Q Transitional Flow Qn Nominal Flow ISO 464-1-1993 Q3 Permanent Flow Q4 Maximum Flow (Short Time) Q/Q1 Q3/Q1 Class ISO 464-1-1993 Accuracy ±5% ±5% ±% ±% ±% ±% - - - DN4 1.5 1.3 15 5 31 1.6 5 A DN5 1.3 15 4 5 1.6 5 A DN65 1. 1.9 5 4 5 1.6 33 A DN8 1. 3. 3 4 1 15.5 83 DN1 1.8 4.8 4.5 6 16.5 89 DN15 4 1 1 15 5 313.5 63 DN 6.3 1 15.8 5 4 5.5 63 DN5 6.3 1 15.8 4 4 5.5 63
Irrigation ydrant Valve SI Metric The Irrigation ydrant is a unique valve assembly unit designed for irrigation and water supply distribution for multiple farm units. The Irrigation ydrant consists of two main parts: an Irrigation ydrant Valve and a Automatic Metering Valve(s) Type mounted on top of the Irrigation ydrant Valve. Automatic Metering Valve (AMV) Type The AMV Type is a 1-degree elbow-shaped AMV that integrates both a vertical turbine oltman-type water meter, with a diaphragm actuated hydraulic control valve. It meets the full range of applications of the EMAD. The AMV Type is available in two sizes: DN: 65 & 1. Irrigation ydrant Valve The Irrigation ydrant Valve is available in three inlet sizes: DN: 8, 1 & 15. It is an on/off hand-wheel operated valve with a single flange inlet and one, two, three or four distribution outlets. The Irrigation ydrant Valve is available in three Model Types: Outlet Outlet Outlet (F) (V) Inlet (F) (V) Inlet (F) (V) Inlet Description Type F-8 Type A-1 Type A-14 Inlet Diameter Outlets Outlet Diameter Optional Type DN8 (Optional DN1) (1) DN65 (Triangle) F-81 with single outlet (1) Conforming to major standards (F) Optional port for Automatic Anti-Freezing Cock Valve (V) Optional port for Air Venting Cock Valve DN1 (1) DN1 (1) A-15 with DN15 inlet DN1 (1) 4 DN65 (Triangle) A-154 with DN15 inlet Note Description Quick Coupling & Plug (Guillemin Coupling) DN65 For use on DN65 AMV with threaded outlet Flange Adapter DN1 X DN65 For installing DN65 AMV on A-1 irrigation ydrant Valve Cover (lind Triangle Flange) DN65 For blocking unused F-8 and F-14 Irrigation ydrant Valve outlets Cover (lind Flange) DN1 For blocking unused DN1 flange outlets
Irrigation ydrant Valve SI Metric Dimensions & eights h h h Type (mm) (mm) h (mm) eight (kg) eight 1*(kg) eight *(kg) eight 3*(kg) eight 4*(kg) * Number of AMV s installed. Flow Charts Pressure oss - bar Pressure oss - bar.5.4.3..15.1.8.6.5.4.3 F-8 14 6 36 7. 36. 45. Irrigation ydrant Valves A-1 A-14..15.1 4 6 8 1 15 3 4 6 8 1 3 Flow ate (m 3 /h).5.4.3..15.1.8.6.5.4.3..15 Automatic Metering Valves Type DN65 F-8 F-1 11 73 58 65.5 9.5 115.5 -ay circuit "Added ead oss" (for "V" below m/s):.3 bar DN1.1 4 6 8 1 15 3 4 6 8 1 3 Flow ate (m 3 /h) F-14 97 7 51 51.5 76.5 11.5 16.5 151.5
Technical Data US English Construction Materials [1] Control ead: Plastic, Stainless Steel and rass [] Shut-Off Pilot: Nylon, Stainless Steel & N (una-n) [3] Cover: Polyester Coated Ductile Iron to ASTM A536 [4] External olts / Nuts: Zinc-Cobalt Plated Steel [5] Internal olts, Nuts and ashers: Stainless Steel 34 and 316 [6] Spring: Stainless Steel 3 [7] Closure Assembly: [7.1] Diaphragm: einforced Natural ubber (N) [7.] Closure: Glass Fiber einforced Nylon [8] Impeller Assembly: [8.1] Guide: Stainless Steel 33 [8.] Pivots, earings, and Thrust earings: Tungsten Carbide [8.3] Upper Flow Straightener: Glass Fiber einforced Nylon [8.4] Impeller: Polypropylene [9] Impeller ousing Assembly: [9.1] Seal Seat: N (una-n) Vulcanized rass [9.] Impeller ousing and ower Flow Straightener: Glass Fiber einforced Nylon [1] Valve ody: Polyester Coated Ductile Iron to ASTM A-536 or Cast Iron to ASTM A-16 Class O-ings: N (una-n) Coating: Electrostatic Powder Polyester Green A 617, 15 mµ Technical Specifications [9.1] [9.] [4] [6] [5] [] 1345 [1] Available Patterns, s & End Connections: Connections\ DN4 DN5 DN65 DN8 DN8 DN1 DN15 DN DN5 Threaded G G & A G Threaded (Male) G G Flanged * G G & A G, A & G & A G & A G Flange Inlet \ Thread Outlet A * G G = Globe, A = Angle 9, = ydrant (Angle 1 ) * Triangle Flange Inlet Connections Standard: Flanged: ANSI 16.41 (Cast Iron) ANSI 16.4 (Ductile Iron) Triangle Flange ( 1 / inlet only) Threaded: NPT or p ISO 7/1 (SP.P) Pressure ating Classes: 15 psi (Plastic Primary Gear Cover) Cast Iron - #15; Ductil Iron - #15 (Metal Primary Gear Cover) Operating Pressure anges: 15 psi: 7-15 psi Class #15: 7-15 psi; Class #15: 7-5 psi For lower pressure requirements, consult factory Temperature: ater up to 1 F Dial Options Dial Capacity (gallon) 13, 5, 13, 1, 5, 875, 1,3,,1, Graduation (gallon).1. 1 1 5 1 1 1 / -3 6-1 [3] [7.1] [7.] [8.1] [8.3] [8.4] [8.] [1] Pulse Options: For Dials 13, through 1,: 1 Pulse per 1 gallon For Dials 5, through,1,: 1 Pulse per 1 gallon Pulse Electrical Data: Switching Voltage: 48 VAC/DC max. Switching Current:.A max. Switching Power: 4 max.
Dimensions & eights US English Globe Pattern Connection Type (inch) M (inch) (inch) (inch) (inch) eight (kg) 1 1 / 9 13 /16 5 /8 5 3 /8 11 9 /16 3 3 /4 15.9 Threaded 9 13 /16 3 5 3 /8 11 13 /16 3 3 /4 16.1 3 9 13 /16 5 3 /8 11 13 /16 3 1 /8 16.1 Globe Pattern Connection Type (inch) (inch) (inch) (inch) eight (kg) 3 1 3 /16 7 7 /8 1 5 /8 3 15 /16 35.3 3 11 13 /16 8 1 /4 15 15 /16 4 13 /16 5.7 4 13 3 /4 9 13 /16 18 1 / 5 3 /8 66.1 Flanged 6 19 11 /16 14 15 /16 4 5 /8 8 1 / 154.3 8 3 5 /8 14 15 /16 5 3 /16 9.8 1 3 5 /8 15 15 /16 5 3 /16 9 39.1 9 Angle Pattern Connection Type (inch) (inch) (inch) (inch) eight (kg) Threaded 4 3 /4 5 3 /8 1 11 /16 4 15 /16 17.4 3 5 15 /16 8 1 /4 16 3 /4 7 3 /4 56. 4 7 1 /16 9 13 /16 19 11 /16 8 7 /8 78.9 Flanged 6 9 13 /16 14 15 /16 4 1 1 /16 168.4 8 9 13 /16 14 15 /16 4 11 181. 1 Angle Pattern Connection Type (inch) (inch) (inch) (inch) eight (lb) Flanged Inlet / Threaded Outlet 1 / 5 5 /8 5 3 /8 17 1 3 /4.7 4 8 3 /16 8 9 /16 18 9 /16 11 1 /8 54. Flanged Inlet and Outlet 1 / 5 5 /8 7 7 /8 17 1 3 /4 8. 4 8 3 /16 8 3 /4 18 9 /16 11 1 /8 6
Flow Charts US English Globe Pattern. -ay circuit "Added ead oss" (for "V" below 6.5 f/s): 4.5 psi Pressure oss - psi 1. 8. 6. 4. 3...4.3. 1 1 / 3 4 6 8-1.1. 4 6 8 1 3 4 6 8 1 4 6 1,, 4, Flow ate (gpm) 9 Angle Pattern -ay circuit "Added ead oss" (for "V" below 6.5 f/s): 4.5 psi Pressure oss - psi 1. 8. 6. 4. 3...4.3. 3 4 6 8.1 1 Angle Pattern. 4 6 8 1 3 4 6 8 1 4 6 1,, 4, Flow ate (gpm) -ay circuit "Added ead oss" (for "V" below 6.5 f/s): 4.5 psi Pressure oss - psi 1. 8. 6. 4. 3...4.3. 1 / 4.1 4 6 8 1 3 4 6 8 1 4 6 1,, 4, Flow ate (gpm)
Flow Properties US English Globe Pattern 9 Angle Pattern 1 Angle Pattern 1 1 / 1 / 3 3 4 6 8 1 Cv 47 53 58 133 17 497 636 636 K.4 4.6 4.7 4.9 7.3 4.3 8.3. eq - f 15.7 4. 359.8 7 139.9 14 36.5 116.4 Cv 59 146 8 547 699 K 3.8 4. 4.8 3.5 6.8 eq - f 34.3 58.9 93.3 116.3 99.6 Cv 59 17 K 3.8 7.3 eq - f 34.3 139.9 Valve flow coefficient, Cv or Kv Cv(Kv)=Q here: Kv = Valve flow coefficient (flow in m 3 /h at 1bar Diff. Press.) Cv = Valve flow coefficient (flow in gpm at Diff. Press. 1psi) Q = Flow rate (gpm ; m 3 /h) P = Differential pressure (psi ; bar) Gf = iquid specific gravity (ater = ) Cv = 1.155 Kv Gf P Equivalent Pipe ength, eq eq = k D here: eq= Equivalent nominal pipe length (feet ; m) k = Equivalent length coefficient for turbulent flow in clean commercial steel pipe (SC 4) D = Nominal pipe diameter (feet ; m) Note: The eq values given are for general consideration only. K = g Flow resistance or ead loss coefficient, V here: K = Flow resistance or ead loss coefficient (dimensionless) = ead loss (feet ; m) V = Nominal size flow velocity (feet/sec ; m/sec.) g = Acceleration of gravity (3.18 feet/sec ; 9.81 m/sec ) Accuracy Table Q1 Minimum Flow QD Safe Cleaning (AMV) Q Transitional Flow Qn Nominal Flow ISO 464-1-1993 Q3 Permanent Flow Q4 Maximum Flow (Short Time) Q/Q1 Q3/Q1 Class ISO 464-1-1993 Accuracy ±5% ±5% ±% ±% ±% ±% - - - 1 1 / 3.5 6.6 5.7 66 11 136 1.6 5 A 3.5 8.8 5.7 66 176 A 1 / 5.3 8.8 8.4 11 176 A 3 5.3 14.1 13. 176 44 55.9 31 4 7.9 1.1 19.8 64 74 88.9 33 6 17.6 44 44 66 11 1378 5 8 7.7 5.8 69.6 11 1761 1 1.3 33 1 7.7 5.8 69.6 1761 1761 1 1.3 33
Irrigation ydrant Valve US English The Irrigation ydrant is a unique valve assembly unit designed for irrigation and water supply distribution for multiple farm units. The Irrigation ydrant consists of two main parts: an Irrigation ydrant Valve and a Automatic Metering Valve(s) Type mounted on top of the Irrigation ydrant Valve. Automatic Metering Valve (AMV) Type The AMV Type is a 1-degree elbow-shaped AMV that integrates both a vertical turbine oltman-type water meter, with a diaphragm actuated hydraulic control valve. It meets the full range of applications of the EMAD. The AMV Type is available in two sizes: 1 /" & 4". Irrigation ydrant Valve The Irrigation ydrant Valve is available in three inlet sizes: 3", 4" & 6". It is an on/off hand-wheel operated valve with a single flange inlet and one, two, three or four distribution outlets. The Irrigation ydrant Valve is available in three Model Types: Outlet Outlet Outlet (F) (V) Inlet (F) (V) Inlet (F) (V) Inlet Description Type F-8 Type A-1 Type A-14 Inlet Diameter Outlets Outlet Diameter 3 (Optional 4 ) (1) 1 / (Triangle) Optional Type F-81 with single outlet (1) Conforming to major standards (F) Optional port for Automatic Anti-Freezing Cock Valve (V) Optional port for Air Venting Cock Valve 4 (1) 4 (1) A-15 with 6 inlet 4 (1) 4 1 / (Triangle) A-154 with 6 inlet Note Description Quick Coupling & Plug (Guillemin Coupling) 1 / For use on 1 / ydrometer with threaded outlet Flange Adapter 4 X 1 / For installing 1 / AMV on A-1 irrigation ydrant Valve Cover (lind Triangle Flange) 1 / For blocking unused F-8 and F-14 Irrigation ydrant Valve outlets Cover (lind Flange) 4 For blocking unused 4 flange outlets
Irrigation ydrant Valve US English Dimensions & eights h h h Type (inch) (inch) h (inch) eight (lb) eight 1* (lb) eight * (lb) eight 3* (lb) eight 4* (lb) * Number of AMV s installed. Flow Charts. F-8 4 15 /16 3 5 /8 14 3 /16 59.6 79.4 99. Irrigation ydrant Valves F-1 43 5 /16 8 3 /4 13 /16 144.4 199.5 54.6 F-14 38 3 /16 7 9 /16 1 /16 113.6 168.7 3.8 78.9 334. Pressure oss - psi 1. 8. 6. 4. 3...4.3. F-8 A-1 A-14.1. 4 6 8 1 3 4 6 8 1 4 6 1,, 4, Flow ate (gpm) Automatic Metering Valves Type -ay circuit "Added ead oss" (for "V" below m/s):.3 bar Pressure oss - psi 1. 8. 6. 4. 3...4.3. 1 / 4.1 4 6 8 1 3 4 6 8 1 4 6 1,, 4, Flow ate (gpm)