RU2621475C1 - Pressure drop measuring module with piezoresistive sensor protected from overload pressure - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: device contains a two-piece cylindrical body, on the opposing end surfaces of which there are separation membranes. Inside the body there is a three-piece cylindrical body. In the first part of the body there is a strain-resistive sensor, and in the cavity at the boundary of the middle and the third parts of the body there is a membrane block fixed by a rigid center to the middle part of the body and comprising two elastic compensating membranes. Herewith the membrane of the block is located one above the other with a gap between them, formed by an annular insert welded with membranes along the outside diameter. Both elastic membranes of the block are made corrugated with corresponding corrugations. The piezoresistive sensor is connected to the separation membranes and elastic compensating membranes by the pressure feed channels.

EFFECT: reducing the dimensions of the pressure measuring module while maintaining good performance.

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Description

The invention relates to pressure measuring instruments and can be used in oil and gas, chemical, etc. industries.

The known differential pressure transmitter FMD-78 developed by Endress + Hauser, presented in the technical information TI 382P / 00 / en Endress + Hauser, page 6 (see Appendix 1 to the application) and selected as a prototype closest structurally to the claimed technical solution .

The well-known measuring module includes a cylindrical body made of three parts, on the two outer surfaces of the first and third parts of which dividing corrugated membranes are placed, a strain gauge sensor is located at the boundary of the first and middle parts, and is placed at the border of the third and middle parts in an oil-filled cavity a flat elastic compensation membrane, while the specified cavity is connected by channels with a strain gauge sensor and with separation membranes, which are slightly smaller e dimensions than an elastic membrane.

The known design (see Appendix 1 to the application) works as follows.

When acting on both sides of the separation membranes 9 of equal pressure, the movement of the module parts does not occur and the signal of the sensor remains constant.

When the pressure drop acts on the separation membrane 9 from the Pi side, this membrane moves and, acting through the oil, bends the elastic membrane 7, which creates a pressure drop on the strain gauge sensor 6. As the pressure drop increases further, the oil volume from the gap between the separation membrane 9 and the housing flows into the gap between the deflection compensation membrane 7 and the housing until the movement of the separation membrane 9 is limited to the profile surface of the housing, while the transfer stops the expansion of the compensation membrane 7 and the increase in pressure drop across the sensor 6.

When a differential pressure is applied to the separation membrane 9 from the P ₂ side, the compensation membrane 7 deflects in the opposite direction until the movement of the separation membrane 9 is limited by the profile surface of the housing from the P ₂ side.

The known module provides protection of the strain gauge sensor from the effects of overload in both directions and good performance.

A disadvantage of the known measuring module is its significant dimensions, due to the fact that in order to ensure a sufficiently small movement of the elastic membrane during operation, in order to eliminate the hysteresis phenomenon, it must be large, which leads to significant dimensions of the module and increases its cost. Moreover, the large diameter of the elastic membrane leads to a large volume of liquid in its cavity, which does not affect the metrological characteristics of the sensor and the reliability at low (-40 ° C) and high temperatures in the best way.

The objective is to reduce the dimensions of the pressure measuring module while maintaining good performance.

The problem is solved in that in the measuring module of the differential pressure with a strain gauge sensor, protected from pressure overload, equipped with two dividing corrugated membranes and including a housing made of three-part relative to its transverse axis, on the border of the first and middle parts of which there is a strain gauge sensor, and on the border of the third and middle parts of which an elastic compensation membrane is placed in the cavity filled with oil, while the specified cavity is connected by flow channels with dividing membranes and with a strain gauge sensor, according to the invention, the said three-part housing is located inside the cylindrical body in its central part, and the separation membranes are placed on the two outer end surfaces of the cylindrical body, while the membrane unit attached by a rigid center to the middle part of the body and including two elastic compensation membranes located one above the other with a gap between the membranes, about azovannym annular insert welded in outer diameter with the two membranes, which are corrugated with corrugations corresponding to each other.

Placing a three-part case inside a cylindrical case in its central part, and dividing membranes on two outer end surfaces of the cylindrical case, using a membrane block as an elastic compensation membrane attached by a rigid center to the middle part of the case and including two elastic compensation membranes located one above the other the gap between the membranes formed by an annular insert welded along the outer diameter with both membranes that are corrugated They are connected with corrugations corresponding to each other (which provides a larger compensating ability with their smaller diameters) and makes it possible to significantly reduce the size of the measuring module, providing reliable protection of the sensitive element during pressure overloads and good performance.

EFFECT: reduced dimensions while ensuring high reliability of protection of the sensor against pressure overloads.

The inventive measuring module has a novelty in comparison with the prototype, differing from it by such significant features as the placement of a three-part case inside the cylindrical body, and the separation membranes on the two outer end surfaces of the cylindrical body, the use of a membrane unit attached as a flexible compensation membrane with a rigid center to the middle parts of the housing and including two elastic compensation membranes located one above the other with a gap between the membranes, images an annular insert welded along the outer diameter with both membranes, which are made corrugated with corrugations corresponding to each other, which together ensure the achievement of a given result.

The applicant is not aware of technical solutions possessing the indicated distinguishing features that would ensure in the aggregate the achievement of a given result, therefore he considers the claimed design to meet the criterion of "inventive step".

The inventive measuring module can be widely used in the oil and gas, chemical and other industries for measuring pressure drops and therefore meets the criterion of "industrial applicability".

The invention is illustrated by drawings, which show:

FIG. 1 - measuring module with a high pressure strain gauge sensor protected against overload in the context;

FIG. 2 - sectional membrane block.

The measuring module contains a two-part cylindrical housing 1, on the opposite end surfaces of which there are dividing membranes 2 and 3. Inside the housing 1 there is a three-part cylindrical housing 4. In the first part of the housing 4 there is a strain gauge sensor 5, and in the cavity at the border of the middle and third parts of the housing 4 the membrane unit 6 is located, attached by a rigid center 7 to the middle part of the housing 4 and including two elastic compensation membranes 8 and 9. In this case, the membranes of the unit 6 (see Fig. 2) are located one above the other coal with a gap 10 between them, formed by an annular insert 11, welded with membranes along the outer diameter. Both elastic membranes 8 and 9 of block 6 are corrugated with corrugations corresponding to each other. The strain gauge sensor 5 is connected to the separation membranes 2 and 3 and the compensation membranes of the block 6 pressure supply channels 12 and 13.

The measuring module operates as follows. When acting on two sides on the separation membranes 2 and 3 of equal pressure, the movement of the module parts does not occur and the signal of the strain gauge sensor 5 remains constant.

With an increase in the pressure drop across the separation membrane 2 from the Pi side, the membrane 2 moves and, acting through the oil in the channels 12, bends the elastic membranes 8 and 9 of block 6 in opposite directions (from each other), which creates a pressure drop across the strain gauge sensor 5. as the pressure drop increases further, the volume of oil from the gap between the separation membrane 2 and the profile surface of the housing 1 flows into the gap between the deflection compensation membranes 8 and 9 of block 6 until the separator moves oh the membrane 2 is not limited to the profile surface of the housing 1 by P _1, the movement of the stop block 6 and increase the membrane pressure drop on the sensor 5.

When a differential pressure is applied to the separation membrane 3 from the P ₂ side, the membrane 3 moves and, acting through the oil in the channels 13, bends the elastic membranes 8 and 9 of the block 6 in opposite directions (to each other) until the movement of the separation membrane 3 is limited by the profile surface of the housing 1 from the P ₂ side, while this stops the movement of the membranes of block 6 and the increase in pressure drop across the sensor 5.

Compared with the prototype, the claimed design of the module with high pressure protected against overload, the strain gauge sensor has smaller dimensions while maintaining good performance.

Claims (1)

The differential pressure measuring module with a strain gauge sensor, protected against pressure overload, equipped with two dividing corrugated membranes and including a housing made of a three-part relative to its transverse axis, on the border of the first and middle parts of which there is a strain-resistant sensor, and on the border of the third and middle parts of which an elastic compensation membrane is placed in the oil-filled cavity, while the specified cavity is connected by flow channels to the separation membranes and with a strain gauge sensor, characterized in that the three-body case is located inside the cylindrical body in its central part, and the separation membranes are placed on the two outer end surfaces of the cylindrical body, while a membrane block attached by a rigid center to the middle part is used as an elastic compensation membrane housing and comprising two elastic compensation membranes located one above the other with a gap between the membranes formed by the annular insert, welded d along the outer diameter with both membranes, which are made corrugated with corrugations corresponding to each other.

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