MODEL 60-7 660-7 ooster Pump Control Valve Simple Hydraulic Operation Low Head Loss Horizontal or Vertical Mounting uilt-in Check Valve Proven Reliable Design The Cla-Val Model 60-7/660-7 ooster Pump Control Valve is a pilot-operated valve designed for installation on the discharge of booster pumps to eliminate pipeline surges caused by the starting and stopping of the pump. The pump starts against a closed valve. When the pump is started, the solenoid control is energized and the valve begins to open slowly, gradually increasing line pressure to full pumping head. When the pump is signaled to shut-off, the solenoid control is de-energized and the valve begins to close slowly, gradually reducing flow while the pump continues to run. When the valve is closed, a limit switch assembly, which serves as an electrical interlock between the valve and the pump, releases the pump starter and the pump stops. Schematic Diagram Item Description 1 Powercheck (Main Valve) 2 CV Flow Control CSM11-2-2 Solenoid Control X105LCW Switch ssembly 5 CVS-1 Shuttle Valve Optional Features Item Description X6 Flow Clean Strainer CK2 Cock (Isolation Valve) X "" Strainer Should a power failure occur, a built-in lift-type check valve closes the moment flow stops, preventing reverse flow regardless of solenoid or diaphragm assembly position. Typical Installation Install Model 60-7/660-7 valve as shown. Flexible conduit should be used for electrical connections to the solenoid control and the limit switch. Model 52-02/652-0 Surge nticipator Valve is recommended for power failure protection. Note: Valve stem can be located in either vertical up or horizontal position. 2 S 2 2 D INLET OUTLET 1 5
Valve Selection Model 60-7 Model 660-7 asic Valve 100-0 (GPM) (Liters/sec) asic Valve 100-1 (GPM) (Liters/sec) Inches mm End Detail Globe ngle Max. Intermittent Max. Intermittent Globe ngle 2 1/2 65 00 70 19 2 Screwed & Flanged These Symbols and Indicate vailable Sizes 80 100 6 150 Flanged 8 200 60 580 29 7 800 990 50 62 1800 2250 11 12 100 900 195 26 10 250 580 7 1025 65 200 15 100 258 660-7 is the reduced internal port size version of the 60-7. For 100-0 basic valves suggested flow calculations were based on flow through Schedule 0 Pipe. Maximum continuous flow is approx. 20 ft/sec (6.1 meters/sec) & maximum intermittent is approx. 25 ft /sec (7.6 meters/sec). For 100-1 basic valves suggested flow calculations were based on flow through the valve seat. pprox. 26 ft/sec (7.9 meters/sec) is used for maximum continuous flow. Valve Sizing Sizing Model 60-7 or 660-7 ooster Pump Control Valves is similar to sizing non-modulating type valves. Simply select the smallest size valve that will handle the pump output at an acceptable head loss for the application. Do not oversize. Oversizing a ooster Pump Control Valve will nullify its ability to prevent surges caused by the starting and/or stopping of the pump. Maximum flow values are given in the selection table above. For further information on flow characteristics for these valves, reference the 100-0 (60-7) or 100-1 (660-7) technical data sheets in the main valve section of this catalog. Cla-Val offers the most complete line of automatic control valves for virtually any type of pump control system available. Please call your Cla-Val regional office or sales agent for complete design assistance. Our goal is to provide the best automatic control valve solution for each application. Wiring Diagram uto-off-hand = Selector Switch 1CR = Relay, DPST Normally Open 2CR = Relay, DPST Normally Open CR = Relay, TPST Normally Open SW 1 = Switch, Remote Start,utomatic SW 2 = Switch, SPDT, Valve Limit Switch Connect to N.C. Terminal PVS = Pilot Valve Solenoid M = Pump Motor Starter Note: SW 2 and PVS supplied by Cla-Val. ll other electrical items supplied by customer. SW 2 is included in the X105L switch assembly which is mounted on the pump control valve cover. Example: booster pump station with a rated output of 1000 GPM and psi is an acceptable head loss for the application. The flow chart for the 100-1(660-7) indicates that a 10 globe valve has less than a psi pressure drop at 1000 GPM. Drain Provisions Each time the valve opens or closes, water is discharged from the solenoid exhaust port, the amount varying with the valve size. Provisions should be made for the disposal of this water. Exhaust tube must be free of any back pressure. Provide an air gap between the solenoid exhaust tube and drain facility. For simplified field wiring, see Model PC-1 Pump Control Panel Data Sheet.
Sequence Of Operation Pump Off... With pump off, static line pressure is transmitted through strainer "F", shuttle valve "C", solenoid control "", and speed control "E" to the chamber above the diaphragm, thus holding the valve closed. If power failure occurs when valve is open, the built-in check valve "J" closes immediately to prevent reverse flow. Starting Cycle... Starting switch closes, pump starts, solenoid control "" energizes and shifts allowing fluid from upper diaphragm chamber to drain to atmosphere. High pressure fluid from pump enters strainer "" and shifts shuttle valve "C", which always supplies the highest pressure from either strainer "" or "F". High pressure fluid is transmitted to the lower diaphragm chamber and opens the valve. The opening speed of the valve is controlled by speed control "D", which limits the rate fluid is relieved from above the diaphragm. Stopping Cycle... Starting switch opens, solenoid control "" de-energizes and shifts, pump continues to run. High Pressure fluid from the pump is directed above the diaphragm, applying force to close the valve. The valve closes slowly as fluid from the lower diaphragm chamber is gradually released to atmosphere through speed control "D" and solenoid "". When the valve closes fully, the limit switch "H" shuts off the pump.
Model 60-7 (Uses asic Valve Model 100-0) Specifications vailable Sizes Pattern Screwed Flanged Globe 2 1 2" - " 2 1 2" - 8" ngle 2 1 2" - " 2 1 2" - 8" Materials Operating Temp. Range Fluids -0 to 180 F Pressure Ratings (Recommended Maximum Pressure - psi) NSI Grade Material Standards* 150 lb. 00 lb. STM 56 Ductile Iron 16.2 250 00 00 STM 216-WC Cast Steel 16.5 285 00 00 STM 62 ronze 16.2 225 00 00 STM 7 Stainless Steel 16.5 285 00 00 56-T6 luminum 16.1 275 Note: Valve ody & Cover Pressure Class Flanged *NSI standards are for flange dimensions only. Flanged valves are available faced but not drilled. **End Details machined to NSI 2.1 specifications. Screwed End** Details Cover Capacity Valve Size Liquid Volume Displaced from Diaphragm Chamber When Valve Opens Displacement 2 1 2".0 gal ".080 gal ".169 gal Valve Size Displacement 6".51 gal 8" 1.26 gal 2 1/2" Globe, Screwed Component Material Options ody & Cover Ductile Cast ronze Stainless luminum Power Unit ody Iron Steel Steel vailable Sizes 2 1 2" - 8" 2 1 2" - 8" 2 1 2" - 8" 2 1 2" - 8" 2 1 2" - 8" Disc Retainer & Cast Cast ronze Stainless luminum Diaphragm Washer Iron Steel Steel Trim: Disc Guide, ronze is standard. Seat & Cover earing Stainless Steel is optional. Stainless Steel is standard. Stem earing Disc una-n Rubber Diaphragm Stem, Nut & Spring Nylon Reinforced una-n Rubber Stainless Steel " ngle, Flanged Model 60-7 Flow Chart (ased on normal flow through a wide open valve.) ngle Valve Sizes (Inches) 21/2 6 8 Pressure Drop psi 100 80 60 0 0 20 10 8 6 Globe Valve Sizes (Inches) 21/2 6 8 2 1 5 10 20 0 0 60 80 100 200 500 1000 2000 5000 10,000 20,000 50,000 Flo Rate Flow Rate GPM (Water)
Model 660-7 (Uses asic Valve Model 100-1) Specifications Cover Capacity vailable Sizes Pattern Flanged Globe ",6",8",10" ngle ",6",8" Operating Temp. Range Fluids -0 to 180 F Liquid Volume Displaced from Diaphragm Chamber When Valve Opens Valve Size Displacement Pressure Ratings (Recommended Maximum Pressure - psi) Valve ody & Cover Pressure Class Flanged Grade Material NSI Standards* 150 lb. 00 lb. STM 56 Ductile Iron 16.2 250 00 STM 216-WC Cast Steel 16.5 285 00 STM 62 ronze 16.2 225 00 STM 7 Stainless Steel 16.5 285 00 56-T6 luminum 16.1 275 Note: *NSI standards are for flange dimensions only. Flanged valves are available faced but not drilled. Materials Component Material Options ody, Cover & Ductile Cast ronze Stainless luminum Power Unit ody Iron Steel Steel vailable Sizes " - 10" " - 10" " - 10" " - 10" " - 10" Disc Retainer & Cast Cast ronze Stainless luminum Diaphragm Washer Iron Steel Steel Trim: Disc Guide, ronze is standard. Seat, Cover earing & Stainless Steel is optional. Stainless Steel is standard. Stem earing Disc una-n Rubber Diaphragm Nylon Reinforced una-n Rubber Stem, Nut & Spring Stainless Steel ".080 gal 6".169 gal 8".51 gal 10" 1.260 gal " Globe, Flanged 6" Globe, Flanged Model 660-7 Flow Chart (ased on normal flow through a wide open valve.) ngle Valve Sizes (Inches) 6 8 100 80 60 Globe Valve Sizes (Inches) 6 8 10 Pressure Loss - psi 0 0 20 10 8 6 2 1 5 10 20 0 0 60 80 100 200 500 1000 2000 5000 10,000 20,000 50,000 Flow Rate - gpm GPM (water) (Water)
Pilot System Dimensions (In Inches) We recommend providing adequate space around valve for maintenance work VLVE SIZE 2 1 2" " " 6" 8" 10" X Max. 16.75 17.75 20.00 2.75 26.75.50 Max. 9.50 10.00 11.00 1.00 15.00 17.00 Z Max.50 5.00 6.00 8.00 10.25 12.00 X Inlet GLOE X NGLE Z Z Inlet Pilot System Specifications When Ordering, Please Specify Temperature Range Water: to 180 F Max Materials Standard Pilot System Materials Pilot Control: ronze STM 62 Trim: Stainless Steel Type 0 Rubber: una-n Synthetic Rubber 1. Catalog No. 60-7 or 660-7 2. Valve Size. Pattern - Globe or ngle. Pressure Class 5. Screwed or Flanged 6. Trim Material 7. Solenoid Voltage 8. Desired Options 9. When Vertically Installed Optional PIlot System Materials Pilot Systems are available with optional luminum, Stainless Steel or Monel materials at extra cost. Solenoid Control Specifications Voltages - See Chart (specify one) Enclosure General purpose NEM Type ; luminum Note: For other enclosures and NEM Types, consult factory Housing ody luminum Trim Stainless Steel Operating Pressure 00 psi C or DC Coil Insulation Class (molded) C Voltage 15. watts DC Voltage 16.8 watts Power Consumption Volts mperes Volts mperes Coil (DC) Holding Pull In (C 60 Hz) Holding Inrush Resistance (ohms) 2.60 2 2 2.88 25. 0.5 28.629 15.6 120.575 5.1 1.1 2.500 18.6 208.0 2.9 0 8.29 10.8 20.288 2.5 58 115.122.2 0.156 1.8 17 125.119. 80.1 1.27 2 250.072 2.5 Volts mperes Coil (C 50 Hz) Holding Inrush Resistance (ohms) 110.8.6 15.7 220.2 2. 66 20.22 2.1 88 Note: For Main Valve Option Descriptions, refer to the 100-0 (60-7) or 100-1 (660-7) Technical Data Sheet. Represented y: E-60-7/660-7 (R-11/01)