Technical Library

Pinch Valve Driven by Solenoid:
Technical Overview

Pinch Valve Driven by Solenoid: Technical Overview

Geeplus Orange LogoPinch valves facilitate opening and closing the flow of liquid through a tube without any contact between the liquid and the valve itself.

The tube is pinched between a fixed and a moving bar (pinch elements); as these are closed together the tube is pinched closed until flow is shut off.

Pinch Valve Types

Pinch Valve driven by SolenoidPinch Valves are described by 3 types, Normally Open (NO), Normally Closed (NC), and Changover (CO).

A Normally Open Valve permits flow in the de-energised condition (without Power). When power is applied, a solenoid actuator closes the pinch elements to squeeze the tube closed and shut off flow.

A Normally Closed Valve incorporates a spring which closes the pinch elements to shut off flow in the de-energised condition. When power is applied, a solenoid actuator opens the pinch elements to allow flow through the tubing.

A changeover valve incorporates two channels, one of which is open, and the other closed in the deenergised condition. The individual channels of a changeover valve may be described as NO or NC type.

Operating Parameters

NC Closing Force

In an NC valve (or NC channel of a changeover valve), the force closing the tube is provided by a spring, or a combination of springs.
Pinch Valve Diagram

Pinch Valve Net Closing Force chartIn the PV24-CO2 changeover valve, the spring configuration looks as above. The lower spring ‘Spring 1’ pulls down the pinch bar assembly and provides the closing force. The upper spring ‘Spring 2’ holds down the tube clamp to retain tubes in place, however it also pushes upon the pinch bar assembly, reducing the overall pinch force. The combined effect of the two springs looks like the attached graph. This Net force is the value given in specifications.

The drawing also shows the minimum opening heights of the pinch area in NC and NO positions. These heights will determine what minimum wall-thickness of tubing can be used with the valve. In the case shown, the pinch elements will close up to a nominal height of 0.75mm, this should be sufficient to close a tube having 0.5mm or greater wall thickness.

NO Closing Force

In the NO valve (or NO channel of a changeover valve), the closing force is provided by a solenoid. The force developed by a solenoid tends to increase exponentially as the gap between pole-pieces reduces towards zero. This exponential increase can be a problem when using fragile tubing materials.

Pinch Valve driven by solenoidTube Closing Force

The force required to close a given tube will be affected by tubing material, dimensions, environmental (some tubing materials harden at low temperature and become harder to close) and pressure conditions of the controlled liquid. Applying excessive pressure to the tubing can lead to high operating power requirement, and can damage the tubing leading to premature failure.

For optimum behaviour the force required should be determined by testing with the tubing to be used in the application under worst case conditions. With worst case conditions, the tube should be clamped between a pair of pinch elements similar to the valve to be used, and pressure applied to the pinch elements is increased until flow of liquid ceases.

Geeplus has fixtures to measure clamping force and can carry out testing on
samples of tubing to determine operating force.

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