Author: CStrickland

Level Control Valves (LCV)

Level control valves are used in situations which require that the valve be able to shut tightly (“bubble tight”) when the system is not operating.  This is always required on open top vacuum type filters that are located below the pool water level.  They are also required when an open surge tank is similarly located.  These valves are closed by powerful spring actuators.  They are opened by water pressure from the main circulating pump.  When no water pressure is present due to a shutdown of the circulation system, the spring actuator forces the butterfly valve closed.  A schematic system is shown below.  These valves are more accurately machined for close tolerances.  You will note that they give less resistance to flow, at any given flow rate, when comparing the flow charts for this type valve to those of a modulating valve.  A similar sized level control valve does not need to be set as deep as a modulating valve to achieve the same flow or pool turnover rate.  Also, the pilot valve allows one to hold a water level above the valve depth, as long as the operating level provides a difference between water levels sufficient to provide flow.  See table #2 for depth versus flow of level control valves. The level control valve actuator is a spring to close type that will open when pressure is applied to the underside of the diaphragm.  The pilot valve acts as a controller.  As water level in the tank drops, the pilot closes and bleeds off less water from the supply line, thereby increasing pressure on the actuator diaphragm, opening the LCV and allowing more water to flow into the tank.  Conversely, when the water level rises the pilot valve bleeds more water and less pressure is applied to the actuator allowing the spring to close the valve.  On system shut down no pressure is applied to the actuator and the spring closes the valve tightly.

 

Specifications

POOL SURGE TANK VALVE

Modulating (float) valves are not tight-closing, in fact, our valves are designed to pass some flow when the ball is in the full up or “closed” position, so as not to stop main drain flow entirely.  The optimum operating condition for the float controlled valve is between 60% and 70% open.  The resistance to flow between these two opening positions establishes the minimum depth required for the center of the main drain line so that the desired flow can be maintained.  If the depth and size of the line are incorrect the proper flow rate will not be attainable.  See table #1 for values of depth versus flow.  Use the charts given to select a valve and minimum depth needed to achieve the flow rate for the pool turnover you require.  Note that the depth from the chart is not all that is required.  To this depth you must add an estimate of the losses in the main drain line before the valve.  The valve tables are limited to a maximum water velocity of six feet per second.  This velocity will generally give line losses which are much smaller than the losses through the modulating valve. 

“LP” Series Low Profile Strainers

Inlet
Diameter
A B C D Basket Free Area Ratio to Incoming Pipe Area
4″ 7-3/4″ 14″ 17-1/4″ 5″ 78 6.2
6″ 8-3/4″ 20″ 21-1/2″ 9″ 178 6.3
8″ 9″ 24″ 22-1/4″ 11″ 235 4.7
10″ 10-1/4″ 26″ 24-3/4″ 13″ 323 4.1
12″ 11-3/4″ 28″ 28″ 15″ 478 4.2
14″ 13-3/4″ 31″ 31″ 18-1/2″ 666 4.3
16″ 16″ 32″ 33″ 18-1/2″ 1089 5.4

Inlet Dia. Outlet Dia. A B B1 C D E
4″ 3″ 7-3/4″ 14″ 18″ 17-1/4″ 5″ 8-1/4″
4″ 2-1/2″ 7-3/4″ NA 18″ 17-1/4″ 5″ 8-1/2″
4″ 2″ 7-3/4″ NA 18″ 17-1/4″ 5″ 8-3/4″
6″ 5″ 8-3/4″ 20″ 24″ 21-1/2″ 9″ 9-1/4″
6″ 4″ 8-3/4″ 20″ 24″ 21-1/2″ 9″ 9-3/4″
6″ 3″ 8-3/4″ NA 24″ 21-1/2″ 9″ 10-1/4″
6″ 2-1/2″ 8-3/4″ NA 24″ 21-1/2″ 9″ 10-1/2″
8″ 6″ 9″ 24″ 30″ 22-1/4″ 11″ 10″
8″ 5″ 9″ NA 30″ 22-1/4″ 11″ 10-1/2″
8″ 4″ 9″ NA 30″ 22-1/4″ 11″ 11″
8″ 3″ 9″ NA 30″ 22-1/4″ 11″ 11-1/2″
10″ 8″ 10-1/4″ 26″ 32″ 24-3/4″ 13″ 11-1/4″
10″ 6″ 10-1/4″ NA 32″ 24-3/4″ 13″ 12-1/4″
10″ 5″ 10-1/4″ NA 32″ 24-3/4″ 13″ 12-3/4″
10″ 4″ 10-1/4″ NA 32″ 24-3/4″ 13″ 13-1/4″
12″ 10″ 11-3/4″ 28″ 34″ 28″ 15″ 12-3/4″
12″ 8″ 11-3/4″ NA 34″ 28″ 15″ 13-3/4″
12″ 6″ 11-3/4″ NA 34″ 28″ 15″ 14-3/4″
12″ 5″ 11-3/4″ NA 34″ 28″ 15″ 14-1/4″
14″ 12″ 13-3/4″ 30″ 36″ 31″ 18-1/2″ 14-3/4″
14″ 10″ 13-3/4″ NA 36″ 31″ 18-1/2″ 15-3/4″
14″ 8″ 13-3/4″ NA 36″ 31″ 18-1/2″ 16-3/4″
14″ 6″ 13-3/4″ NA 36″ 31″ 18-1/2″ 17-3/4″
16″ 14″ 16″ 30″ 36″ 33″ 18-1/2″ 17″
16″ 12″ 16″ NA 36″ 33″ 18-1/2″ 18″
16″ 10″ 16″ NA 36″ 33″ 18-1/2″ 19″
16″ 8″ 16″ NA 36″ 33″ 18-1/2″ 20″

“S” Series Replacement Strainer

STA-RITE REPLACEMENT S-SERIES STRAINER

Replacement for

Sta-Rite Series C & D Pumps

Housings are fiberglass reinforced plastic construction, pressure tested to 50 psi.  Exit flanges on these units bolt directly onto the pump suction of the Sta-Rite pump.

Features include a clear lid for easy viewing of basket contents, quick opening latches and a stainless steel basket.

 

“M” Series Marlow Replacement Strainer

MARLOW REPLACEMENT M- SERIES FIBERGLASS STRAINER

 

Inlet X
Diameter
Overall
Height
In/Out Elev. Basket Dia. Volume cu. in. Open Area sq. ft.
8″ x 8″ 25″ 12-5/8″ 8-7/8″ 732 241
6″ x 6″ 23″ 11-5/8″ 8-7/8″ 732 241
6″ x 5″ 23″ 11-5/8″ 8-7/8″ 732 241
5″ x 5″ 23″ 11-5/8″ 8-7/8″ 732 241

 


 

Inlet x Outlet Basket Dia. Volume cu. in. Open Area sq. ft.
4″ x 4″ 6-7/8″ 269 120
4″ x 3″ 6-7/8″ 269 120
3″ x 3″ 6-7/8″ 269 120
2-1/2″ x 2-1/2″ 6-7/8″ 269 120

Call Us

Meet Us

   25 Arrow Rd. 
Ramsey, NJ
07446
X