W100t control valve system description, Drive assembly – Watts W100T Twin Alternating Series User Manual

34 W100T Twin Alternating Series Softeners

Drive Assembly

The drive assembly consists of the following parts:

• Drive Bracket
• Printed Circuit (PC) Board
• Motor
• Drive Gears
• Drive Gear Cover

The drive bracket holds the PC board, the motor, the drive gears and the drive gear cover in place.

The PC board receives and retains information, displays the information, determines when to regenerate and initiates regeneration. The display

shows different types of information in the initial system set up (for softeners or filters), installer display settings, diagnostics, valve history or

user display settings.

The PC board powers the motor. The PC board’s two-prong jack connects wires to the direct current (DC) motor. The motor is held in place on

the drive bracket by a spring-loaded clip and a small bulge in the plastic, which fits in one of the slots on the motor housing. The motor turns

drive gears that drive the piston to cycle positions for backwashing, regeneration, rinsing, refill or service. The motor is fully reversible (turns

both ways) and changes direction of rotation to change the direction of piston motion. The motor is easily replaced if necessary.

There are three drive gears held in place by the drive gear cover. All three drive gears are the same size. A reflective coating is applied to the

gears. As the center drive gear turns a light shines on the coating and a light sensing diode determines if a light pulse was returned. The PC

board counts the pulses and determines when to stop driving the motor.

Drive Cap Assembly, Main Piston and Regenerant Piston

The drive gears turn the main gear of the drive cap assembly, which moves the piston. The screw-driven, horizontally moving piston stops at

specific positions to direct the flow of water to backwash, regenerate, rinse or refill. The PC board determines the position of the piston by

counting pulses produced when the piston is moved. An optical sensor looking at one of the reduction drive gears generates these pulses.

Each cycle position is defined by a number of pulses. The counter is zeroed each time the valve goes to the service position. The PC board

finds the service position by noting the increase in current delivered to the motor when the mechanical stop at the service position is reached.

This method of controlling piston position allows for greater flexibility and requires no switches or cams (U.S. Patent 6444127).

One of two main pistons is always used:
1. A 1.25" diameter downflow piston is used when the W100T control valve is used as a downflow softener, regenerating filter or non-

regenerating filter.

2. A 1.25" diameter upflow piston is used when the W100T control valve is used as an upflow softener. Upflow option not applicable for EA,

EE or EI control valves.

If the control valve is used as a softener or a regenerating filter, a regenerant piston must be attached to the main piston. If the control valve is

to be used on a system that does not require a regenerant to be added, the regenerant piston must be removed.

The W100T control valves consist of the following components:
1. Drive Assembly
2. Drive Cap Assembly, Main Piston and Regenerant Piston
3. Spacer Stack Assembly
4. Injector Cap, Screen, Injector Plug and Injector

5. Refill Flow Control Assembly or Refill Port Plug
6. Drain Line Flow Control and Fitting Assembly
7. Water Meter
8. Twin Transfer Valve

W100T Control Valve System Description