SU1126732A1 - Air-controlled valve for chromatographs - Google Patents

Abstract

1. PNEUMATIC VALVE FOR CHROMATOGRAPHERS, comprising a body in which gas channels are made, a separating locking membrane, an actuator made in the form of a power membrane with a spring-loaded rigid center on which the plunger is fixed, and a control channel connected to the chamber between the power membrane and the body wherein, in order to increase the reliability of the valve, a well is made on the surface of the housing at the location of the holes of the gas channels under the plunger, and between the tensioned in the initial position A resiliently deformable incompressible working body is placed by a stubborn diaphragm made of an elastic and plunger. 2. Valve according to claim 1, characterized in that a hydroplast is used as the working fluid, and the spring is placed in the working fluid between the housing and the plunger. 7

Description

The invention relates to means of pneumatic automation and can be used for dosing steam-gas mixtures in a gas chromatograph.

A known gas flow distributor valve for chromatographs comprising a housing, a spring-loaded unit of power membranes, a control channel, distribution channels and a shutter blocking these channels with a separation membrane, a control channel, distribution channels and a shutter blocking these channels using a dividing flaccid membrane, moreover, the cavity between the separation membrane and the valve is partially filled with liquid [1].

The disadvantage of this device is its low reliability, especially when distributing media under low pressure under continuous continuous operation due to the loss of fluid from the cavity between the valve and the membrane due to evaporation, diffusion and leakage.

The closest to the invention in technical essence and the achieved effect is a pneumatically controlled valve containing a housing in which gas channels are made, a separation membrane, an actuator made in the form of a power membrane with a spring-loaded rigid center on which a plunger is fixed, and a control channel connected to the camera between the power membrane and the housing [2].

A disadvantage of the known device is the presence of gas diffusion through the separation membrane from the gas channels into the intermembrane chamber and in the opposite direction. In addition, the impact of a solid plunger on the separation membrane reduces the reliability of the device.

The aim of the invention is to increase the reliability of the valve.

This goal is achieved by the fact that in the pneumatic control valve for chromatographs containing a housing in which gas channels are made, a separation shut-off membrane, an actuator made in the form of a power membrane with a spring-loaded rigid center on which a plunger is fixed, and a control channel connected to the chamber between a power membrane and the housing, on the surface of the housing at the location of the holes of the gas channels under the plunger, a hole is made, and between the tensioned in the initial position of the separation locking membrane, ennoy elastic, and a plunger placed reversibly deformable, incompressible working fluid.

Hydroplast can be used as a working fluid 55, and a spring is placed in the working fluid between the body and the plunger.

The drawing shows a diagram of a pneumatically controlled valve.

The valve comprises a housing 1 with a spherical hole 2 and gas channels 3, a dividing locking membrane 4, fixed by a ring 5. The actuator housing 6 with a cover 7 contains a power membrane 8 with a rigid center 9 connected to the plunger 10, ^{10, the} working fluid 11 and the spring 12. The chamber 13 is connected to the control channel 14. The housing 1 and the housing of the actuator 6 have, respectively, a recess and a protrusion in the form of a matrix punch. During assembly, the presence of these elements15 allows the membrane to be tensioned 4.

Pneumatic valve operates as follows.

In the absence of control pressure in the chamber 13, the power membrane 8 with a rigid ²⁰ center 9 and the plunger 10 are in the initial state. The unloaded working fluid 11 occupies the sub-plunger space, the membrane 4 opens a message between the channels 3.

When applying control pressure through the channel 14 to the chamber 13, the rigid center 9 of the power membrane 8 moves the plunger

10, which acts on the working fluid

11, compressing the spring 12. The working fluid 11 bends the separation membrane 4, pressing it to the surface of the hole 2, leads to the overlap of the message between the channels 3.

When the pressure is released in the chamber 13 under the action of the spring 12, the plunger 10 and the power membrane 8 with a rigid center 9 ³⁵ return to their original state, unloading the working fluid 11, which takes its initial position. The separation membrane 4 due to the forces of tension opens the message between the channels 3.

As a working fluid, a reversibly deformable incompressible material can be used, for example, hydroplast, which is a composition consisting of polyvinyl chloride resin, plasticizer and calcium stearate. 'Between the plunger ⁴⁵ and the housing walls of the channel there is a gap. However, the low fluidity of the working fluid of the hydroplast does not impose high requirements on the accuracy of manufacturing a pair of plunger-body. The use of an initial tensioned membrane and a reversibly deformable incompressible working fluid ensures reliable operation of the device at both high and low pressures in the distribution channels, as well as increased durability of the device.

Claims (2)

1. PNEUMATIC VALVE FOR CHROMATOGRAPHES, comprising a housing in which gas channels are made, a dividing locking membrane, a drive made in the form of a power membrane with a spring-loaded rigid center on which a plunger is fixed, and a control channel connected to the chamber between the power membrane and the body, characterized in that, in order to increase the reliability of the valve, a hole is made on the surface of the body at the location of the gas channel openings under the plunger, and between the dividing locking membrane stretched in the initial position, you filled with elastic, and a plunger placed a reversibly deformable incompressible working fluid. 2. Valve according to π. 1, characterized in that a hydroplast is used as the working fluid, and the spring is placed in the working fluid between the housing and the plunger.