SU847095A1 - Differential manometer membrane unit - Google Patents

Description

(54) MEMBRANE BLOCK DIFFERENTIAL MANOMETER

The invention relates to instrumentation and can be used in differential pressure gauges protected from the effects of overload. Designs of differential pressure gauge membrane blocks are known, in which overload protection with the ultimate working overpressure is achieved by using two folding membrane boxes and filling the intermembrane space with liquid. In this case, when subjected to overload, the filling fluid from the membrane box, which is subjected to pressure, is displaced into the second membrane box, and the pressure acts on the folded across the entire surface of the membrane 1. However, the design of the membrane unit with one folding membrane box allows only partial block protection (only from the membrane box side). Protection against overloading of a membrane unit having single membranes requires the use of complex shaped profile stops, which must completely reproduce the profile of the corresponding membranes. A known design showing differential pressure gauge with an anti-overload safety device. In this differential pressure gauge, a single membrane serves as the sensing element, which separates the measuring chambers with comparable pressure. The diaphragm center is rigidly connected with a brush, at the ends of which, on either side of the membrane, there are two valves that cut off the supply of pressure to the measuring chambers during overloads. The stem with valves has the ability to move in elastic joints, which are used as bellows. One of the bellows uses-at the same time to output the movement from the measuring chamber to the indicating mechanism. To return the membrane to its original position after the overload has ceased, additional automatic spring-membrane type 2 control valves are used. The drawbacks of this design are the complexity of execution due to the use of additional bellows, which are themselves sensitive elements, the need to use additional valves to return the membrane initial position at the termination of the effects of overload and the unreliability of the actuation of the valves of the overload device

The purpose of the invention is to increase the reliability of the device and simplify the design.

This goal is achieved by the fact that the elastic sensing element is designed in the form of a folding membrane box, and the valve stem is connected to one wall and passed through a hole in the other, with its central part outside the hole contour tightly connected to the partition.

The drawing shows the device, General view.

The device consists of a membrane box 1 of folding type, hermetically fixed on the partition 2 and dividing the body into chambers of a greater 3 and less 4 comparable pressures. With a rigid center 5 of the membrane box, the elastic rod 6 is attached to the valve 7 with a sealing ring 8. Higher and lower pressure cavities are closed with caps 9. The pressure in the chambers is supplied through the holes 10.

The position of the valve is chosen so that the distance between the surfaces of the septum and the sealing ring does not exceed one and a half times the nominal displacement of the membrane box under the influence of the differential pressure.

The initial position of the membranes in the membrane box is also selected taking into account the possibility of movement under the influence of an external pressure equal to the nominal pressure drop and further folding of the box.

When the working pressure is supplied to chambers 3 and 4, the membrane box is influenced by a pressure differential and moves downward, which is converted to an output signal from existing methods. With a further increase in the pressure of the differential, up to the impact of the limiting working excess

pressure from the chamber side 3, the membrane box is folded over the entire profile, which ensures its protection from the higher pressure side.

In case of an unexpected increase

pressure from chamber 4, the membrane box moves upward until the valve comes into contact with the surface of the partition. At the same time, the inner cavity of the membrane box is cut off from chamber 4, and a further increase in pressure on this side causes a more tight pressure on the valve, and the protection of the membrane box on the lower pressure side is achieved.

With decreasing pressure overload

the valve is depressed and the membrane box automatically returns to its original position.

Claims (2)

1. USSR author's certificate No. 102076, cl. G 01 L 13/02, 15.11.54. 2. For the application of the Federal Republic of Germany No. 2556285, cl. G 01 L 13/02, published 06.23.77 (prototype). 7 eight five