SU483658A1 - Device for automatic pressure control - Google Patents

Description

one

The invention relates to devices for controlling gas pressure in a closed volume and can be used to automate gas absorption processes by solids in the chemical industry.

A device for automatic pressure control in a volume is known in which a process of gas absorption by solid materials takes place, comprising a working chamber connected through a restricting diaphragm to an intermediate chamber equipped with a pressure meter with a rheostatic outlet, which is connected to the gas collector and the supporting chamber through regulators connected with the control unit connected to the contacts of the position regulator of the secondary device of the differential pressure gauge connected to the reference and intermediate chambers and measuring the pressure differential between them, with the secondary windings of the diftransformers of the differential pressure gauge and the secondary device being connected in series to the input of the amplifier of the secondary differential pressure meter.

The disadvantage of such a device is that it provides a pressure buildup in the volume with a constant increase. This leads to a long technological process time and limits the range of regulated pressures, since while maintaining the DR constant in absolute

value across the entire control range

Rc pz

the relationship - and - y tends to unity, and P, PJ

mass flow - to zero,

where PI is the pressure in front of the restriction device, i.e. in our case, before the restrictive diaphragm;

PI - before the pores of the solid sample;

PZ - pressure after the restriction device;

R.2 is the pressure in the pores of the solid sample. The aim of the invention is to create a device that provides a constant mass flow rate and, as a result, a reduction in the process time of the process and an extension of the range of regulated pressures.

This goal is achieved by the fact that the rheostat output of the pressure gauge is connected in series with the secondary winding of the diffractormeter of the differential pressure gauge connected in parallel and in antiphase of the secondary winding of the secondary transformer of the secondary device to the input of the amplifier of the secondary differential pressure meter and automatically changes its measuring range depending on the pressure in the working chamber.

FIG. 1 is a schematic diagram of the device; in fig. 2 is an electrical circuit for connecting a differential pressure gauge with a secondary device and a rheostat output of a pressure gauge.

The device for automatic pressure control consists of a gas collector 1, a regulator 2, an intermediate chamber 3, a restricting diaphragm 4, a working chamber 5, a regulating authority b, a supporting chamber 7, a differential pressure gauge 8, a secondary device 9, a differential pressure meter of the control unit 10, a secondary device 9 of a differential pressure meter , the control unit 10, the secondary device 11 pressure gauge, the sensor of the pressure meter 12, the diffuser of the secondary device 13, the electronic amplifier of the secondary device 14, the rheostatic output of the pressure meter 15 and diftransformator 16 differential meter.

The device works as follows.

Assume that at the moment the device is turned on, the pressure in the intermediate chamber 3, the support chamber 7 and the working chamber 5 is equal, then the secondary instrument 9 of the differential pressure gauge 8 gives readings corresponding to the value of the difference "O contact" min. the position regulator of the secondary device 9 is closed, which will ensure, by known methods, through the control unit, the position "closed, the regulator 6 on the equalization line and the position" openly of the regulator 2, on the line from the gas collector 1 to the intermediate chamber 3; therefore, the gas from the gas collector 1 will flow into the intermediate chamber 3. The leakage will stop as soon as the pressure difference in the intermediate chamber 3 and the onion chamber 7 is equal to the differential value corresponding to the contact position setting of the max position controller of the secondary device 9, which is closed through the unit The management will receive a command to close the regulator 2.

As the gas in the working chamber 5 entering through the limiting diaphragm 4 from the intermediate chamber 3 is absorbed (discharged), the pressure in the latter decreases; accordingly, the pressure drop over the chambers 3 and 5 will decrease.

When the value of the differential, corresponding to the value of the contact closure "norm, positional regulator of the secondary device 9, the regulator 6 on the equalization line opens through the control unit. The pressure in chambers 3 and 5 is equalized; the secondary device 9 will give readings corresponding to “On the nonrepair.

The control unit by known methods, which is caused by the requirements of the technological process, eliminates the time delay, and then gives the order to close the regulator 6 and open the regulator 2, to let in the following

the gas is absorbed into the intermediate chamber 3. Since the absorption of gas by the solid material cannot occur indefinitely, the pressure will increase with the next inlet until the initial pressure in the working 5 and intermediate 3 chambers, therefore, due to the residual pressure. At the same time, with the increase in pressure, the readings of pressure gauge 11 will change and along with this the resistance value will increase.

rheostatic output 15 connected in series with the secondary winding of the diffusion transformer 16 of the differential pressure gauge 8, which leads to an automatic change of the measuring limits of the scale of the secondary instrument 9 of the differential pressure gauge

8, and therefore increasing the reference on the max contact, the position regulator of the secondary device 9, thus, as the pressure increases in chambers 3 and 5, the pressure increment P. also increases.

Subject invention

A device for automatic pressure control, comprising a working chamber connected through a restricting diaphragm to an intermediate chamber with a rheostatic pressure meter, which is connected to

the gas collector and the reference chamber through regulating bodies connected to the control unit connected to the secondary winding of the diffraser of the secondary device of the differential pressure gauge connected to the reference and

Intermediate chambers, characterized in that, in order to expand the functionality, a second diffraction transformer is introduced into it, the secondary winding of which is connected in parallel and in antiphase with

the secondary winding of the first diftransformer, in series with which the rheostatic pressure meter is connected.

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