SU1545113A1 - Method of temperature stabilization of two-cavity membrane box - Google Patents

Abstract

The invention relates to instrumentation engineering, in particular to two-cavity membrane boxes used in absolute pressure gauges, in particular atmospheric. The aim of the invention is to simplify the method of temperature stabilization. When the temperature stabilization of the membrane box with outer membranes 4, greater effective area and inner 5, smaller area, connected by a common hard center, cavities A and B communicate with the atmosphere by crane 12. Set the zero position of the hard center. Then vacuum both cavities A and B of the box. Since the common center was displaced, by applying force F to lever 2, the common center is returned to the zero position with the help of the null indicator 1. Then pressure in cavities A and B is increased. Pressure in one cavity is fixed, and pressure is changed in another Thus, in order to preserve the magnitude of the force F and the zero position of the common center. In this case, the gas-filled box will retain the characteristics of the box evacuations, since the gas pressure in the cavities will not affect the readings of the membrane box. 1 il.

Description

k

I

Јп

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SSSSS / SS / S / 7 S /// /

The invention relates to an instrument structure, namely, elastic sensing elements used in absolute pressure gauges, in particular atmospheric pressure.

The aim of the invention is to simplify the stabilization process.

The drawing shows a diagram of the device for the implementation of the proposed Method.

The device contains a null indicator 1 associated with a lever 2, designed to create a force F directed towards the opposite force F4 ,, that the diaphragm creates when creating a vacuum in cavities A and B membrane (box 3 with membranes and 5 and tech nological unions 6 and 7. The membrane box through taps 8 and 9 is connected to a common airtight air line to which a vacuum pump 11 is connected through the edge 10 and is connected to the atmosphere through a valve 12.

The method is carried out as follows.

Opening the taps 8, 9 and 12, the internal cavities A and B communicate with the atmosphere, and the rigid centers of the membranes are connected with the lever 2 at a zero value of the signal of the null indicator. Then the taps 12 are closed, the valve 10 is opened by means of the pump 11, a vacuum is created in cavities A and B, and the membrane box develops a force

IV s ,,

(one)

where P0 is atmospheric pressure;

S .- effective membrane area 4.

An external force F n F-K, where K is a 45 conversion coefficient, is applied to the opposite force Fa, and controls the equality Fa Fp using a null indicator. Then the valve 12 is opened and due to the leakage of air they increase the pressure in the cavities A and B, and the equality

Fa fn

(2)

broken, after which the valve 8 is closed and a further increase in pressure in the cavity A restores this equality, after which the valve 9 is closed.

After increasing pressure in Cavities A and B, it is possible to close valve 9 and reduce pressure in cavity B until equality (2) is restored,

In general cases, after performing these operations, the condition is provided

Fn pa81-P, (2g-8.-rg b O)

where P is the pressure in the cavity A; P2 - pressure in cavity B; S - effective membrane area 5.

But since Fn P0 S ,, it follows from the condition (3) that

P.,)

5 0 5

$ 0

0

five

five

Observance of this equality is evidence that the temperature does not affect the measurement result.

After completing all of the above operations of the process, the process nipples 6 and 7 close and the membrane box is disconnected from the lines and the lever.

Obviously, as a result of the implementation of the method, the force developed by the membrane box does not depend on the internal pressures and is equal to the force developed by the vacuum membrane box in expression (1).

The technical and economic advantage of the proposed method in comparison with the known method is a reduction in the complexity and laboriousness of technological operations during the implementation of the method, which leads to an increase in performance and, consequently, to a decrease in the cost of manufacturing membrane boxes.

Claims (1)

Invention Formula The method of temperature stabilization of a two-cavity membrane box with an outer membrane of smaller effective surface area than the internal one and connected by a common rigid center, which determines the initial position of the common center when the membranes are unloaded, and creating a vacuum, moves the common center, then changes the pressure .in the cavity, “fix the pressure in one of the lanes 51545113 and change the pressure in the other, rotate the common center to the initial one that differs by the fact that, at the end of the change operation, In order to simplify the stabilization process, cavities are retained in magnitudes, a vacuum is created in both cavities (external force and initial box and then external force to return the common center of the membranes.