SU1135953A1 - Device for feeding chromatographic samples - Google Patents

Abstract

A DEVICE FOR INPUT OF CHROMATOGRAPHIC SAMPLES, containing a valve, in the case of which two membranes with different effective areas are installed, interconnected by a common rigid center connected to a spring located in the first extreme chamber, connected to the atmosphere. it is a hard center, with an intermembrane chamber, a seal installed in the first extreme chamber against the end of the common rigid center in which the outlet opening of the throttling channel is made, the inlet and the outlet gas channels made at the end of the second extreme chamber, in which a gas channel gate is installed against the common rigid center end, and a control unit with a valve actuation device made in the form of a pneumatic electric converter and an electropneumatic converter connected to the input control electric channel having 1 &;amp; s that, in order to reduce the number of communication lines between the valve and the control unit, a choke is installed in the control unit, the inlet of which is connected to the output of the electropneumatic inverter the receiver, and the output is connected to the input chamber pneumoelectro. transducer and to the intermembrane valve chamber.

Description

The invention relates to instrumentation and can be used, in particular, in chromatography.

A gas flow valve for chromatographs is known, comprising a two-membrane unit installed in the housing, gas channels with a valve made in the form of a membrane, a control channel connected to the intermembrane chamber 1.

In the well-known distribution valve, there is no actuation control unit.

The closest in technical essence to the invention is a device containing a valve, in the case of which two membranes with different effective areas are installed, connected by a common rigid center connected to a spring located in the first extreme chamber connected to the atmosphere and through a throttling channel , made in a common rigid center, with an intermembrane chamber, a seal installed in the first extreme chamber against the end of a common rigid center, in which the outlet opening is throttled channel, the inlet and outlet gas flow passages formed in the end face at the second chambers, wherein the gas damper is installed channels and a signaling control unit actuation valve, made in the form pnevmoelektropreobrazovatel, and elektropnevmopreobrazovatelem connected to a control input electric channel 2.

In the known device, the valve actuation indicator is connected to the first extreme chamber through a hole made in the seal.

When positioned, the valve trip signal in the control unit is connected to the last two, 1-line communications.

The aim of the invention is to reduce the number of communication lines of the valve with the control unit.

This goal is achieved by the device for inserting chromatographic samples containing a valve, in the case of which two membranes with different effective areas are installed, interconnected by a common rigid center connected to a spring located in the first extreme chamber connected to the atmosphere and through throttling a channel made in a common hard center, with an intermembrane chamber, placed on en1; e, installed in the first extreme chamber against the end of a common rigid center in which the outlet opening is throttled Lego channel, gas inlet and outlet gas channels, made in the end of the second extreme chamber, in which a gas channel flap is installed against the common rigid center face, and a control unit with a valve actuation device, made in the form of a pneumatic electric converter, and an anticropneumatic converter, connectors to

An electrical control input channel is installed in the control unit, a resetter, the input of which is connected to the output of an electropneumatic converter, and the output is connected to the input terminal of the pneumo-electric converter and to the intermembrane valve chamber.

The drawing shows a diagram of the device.

The device contains a valve G and a control unit 2. In the valve body 1, two membranes 3 and 4 are installed, and the effective area of membrane 3 is greater than the effective area of membrane 4. Membranes 3 and 4 are interconnected by a common rigid center 5 connected to spring 6. located in the first extreme chamber 7 communicated with the atmosphere. Chamber 7, through the drosserie, Kakal 8, made in the hard center 5, is connected with the intermembrane chamber 9.

A seal 10 is installed in the chamber 7 against the end of the rigid center 5, in which the outlet opening of the throttling channel 8 is installed. At the end of the second extreme chamber I, the inlet 12 and outlet 13 of the gas channels are made, and in the chamber il a valve 14 of the gas channels is installed.

The control unit 2 consists of an electropneumatic converter 15 connected to the input control electric channel 16 via a button 17. The output of the converter 15 is connected via a choke 18

2 to the intermembrane chamber 9 and to in (one chamber of the electric transducer 19, connected with its output to the signaling device 20 and with the output channel 21.

The conductivity of the throttles 18 is established from the condition that the pressure in the chamber of the converter 19 is formed is somewhat less than the pressure of its operation when the throttling channel 8 is open.

The device works as follows.

- The control electrical signal through the closed contact of the button 17 is supplied to the electric transducer 15, where it is converted into a pneumatic signal, which through the choke 18 is supplied to the inter-membrane chamber 9 from valve 1 and to the pneumatic-electric converter chamber 19. With the arrival of the ethical signal, the intermembrane chamber 9 at the initial moment works like a flow-through, the throttle chamber, therefore, the pressure in it

5 and in the chamber of the pneumatic electric converter 19 is increased to a value determined by the ratio of the conductions of the channel 8 and the throttle 18, i.e. up to a value slightly lower than the feed pressure. Under the action of increased pressure, the membrane unit moves with the flap 14, with this sample enters the chromatographic column, and the hard center 5 fits tightly to the seal 10, shutting off the compressed air through the channel 8. Compressed air pressure in the intermembrane chamber 9 and in the chamber pneumo-electric converter 19 rises to the level of supply pressure. At this pressure level, the pneumo-electric converter 19 is activated, its electrical contacts are closed and the electrical signal is fed to the alarm device 20 and into the channel 21. The alarm device 20 signals the operation of valve 1.

If, when the command is issued, the valve I does not work, then the hard center 5 will not press to the seal 10, the pressure in the intermembrane chamber 9 and in the chamber of the pneumatic converter 19 is not. rises to supply pressure level, pneumoelectric transducer

19 does not work, therefore, the electrical signal will not go to the alarm device

20 and into channel 21. The alarm 20 in the case of a single alarm signals an emergency situation.

In the manual mode of operation, valve 1 is controlled by pressing button 17.

The positive effect of using the invention is to increase the degree of reliability and automation of the device.

Claims (1)

DEVICE FOR INPUTING CHROMATOGRAPHIC SAMPLES, containing a valve, in the body of which two membranes with different effective areas are installed, interconnected by a common rigid center connected to a spring located in the first extreme chamber connected to the atmosphere and through a throttling channel made in a common rigid center , with an intermembrane chamber, a seal installed in the first extreme chamber against the end face of the common rigid center, in which the outlet of the throttling channel, the inlet and outlet gas channels made at the end of the second extreme chamber, in which the gas channel shutter is installed against the end of the common rigid center, and a control unit with a valve actuator, made in the form of a pneumatic electroconverter, and with an electro-pneumatic transducer connected to the input control electric channel, characterized in that, in order to reduce the number of communication lines between the valve and the control unit, a throttle is installed in the control unit, the input of which is connected to the output of the electro-pneumatic converter, and the output connected to the inlet chamber of the pneumatic electroconverter and 'to the intermembrane chamber of the valve.