RU204155U1 - Differential pressure indicator - Google Patents

Abstract

The utility model relates to measuring technology and can be used in systems for visual monitoring of the pressure difference of the media. The differential pressure indicator contains a housing that includes two chambers, two bellows, an axial displacement element, a lever, a reading device with a scale for visual monitoring of the medium pressure. Each of the chambers is formed by the inner surface of the corresponding bellows. The bellows are interconnected by an axial displacement element, which is directly connected to the lever. The reading device for visual monitoring of the medium pressure is fixed on the lever. The technical result is to improve the accuracy of the pressure difference indicator. 1 ill.

Description

The utility model relates to measuring technology, namely to optical devices for converting and indicating pressure.

A known pressure difference detector containing optical fibers, two chambers for receiving measured pressures, elastic elements coaxially fixed in the chambers, a rod located inside the housing element and rigidly fixed between the centers of the elastic elements. A reflective surface is formed in the central part of the stem. The axes of the optical fibers are perpendicular to the reflecting surface, and the extensions of the axes of these fibers intersect its left and right boundaries, and the directions of the displacements of the reflecting surface coincide with the axis of each of the elastic elements. Patent of the Russian Federation for invention No. 2547896, IPC G01L 11/02, 10.04.2015.

The device can be used in pressure difference control systems, however, it requires a source and receiver of the luminous flux, as well as software processing of the result of the pressure difference conversion, which limits the scope of its application.

Known electrical pressure converters, such as "Pressure Relay RDK-3" and "RKS-1-OM5-01-1", containing bellows placed in the housing, levers, movable and stationary contacts, an anchor, fixed on the axis. LLC "NEVA-Kip" - measuring devices (instrumentation) and spare parts for the marine (spare parts), railway and industrial directions. [Electronic resource] - Access mode: http://nevakip.ru/rele-davleniya-rdk-3; Melnichenko Yu.D. Refrigeration equipment for cars and air conditioning: Methodological guidelines. - Khabarovsk: FVGUPS, 1997 .-- 22 p.

A feature of these devices is the need for switching electrical circuits for their functioning, which in some cases can also impose restrictions on their area of application.

Known power indicator, including two chambers, elastic elements, elements of axial displacement, a reading device with a scale for visual monitoring of the pressure of the medium, both elements of axial displacement are interconnected by a rocker. USSR author's certificate No. 49396, 08/31/1936.

The disadvantage of the device is that the indication is carried out by a system of levers, the specified device can be used mainly in the field of mechanical engineering, where the presence of a large number of structural elements and, accordingly, the errors introduced by them do not imply its use in precise measuring systems.

Known optical pressure indicator containing chambers for receiving pressures, an axial displacement element with a reflective indicator and a reflective coating, an optical fiber module with optical fibers and a reading device with a scale for visual control of the liquid or gas pressure. Patent of the Russian Federation for utility model No. 140216, IPC G01L 11/02, 10.05.2014.

Due to the absence of a system of levers, optoelectronic components, as well as devices for processing and analyzing information, the measurement process, based on a visual assessment of the pressure of the medium, is direct and non-volatile. However, the need to use complex technological operations in the process of manufacturing a fiber-optic module limits the use of the device.

A known pressure difference indicator contains a housing that includes two chambers, elastic elements in the form of bellows, axial displacement elements, a lever of the first kind, a reading device with a scale for visual monitoring of the medium pressure. Patent of the Russian Federation for utility model No. 199728, IPC G01L 19/08, 16.09.2020. This technical solution was adopted as a prototype.

Each chamber in the housing of the described pressure difference indicator includes a movable element connected to the chamber by an elastic element and directly connected to the corresponding axial displacement element. Both axial displacement elements are directly connected to a first class lever whose fulcrum is centered between the axial displacement elements. The reading device for visual monitoring of the medium pressure is fixed on the lever.

Due to the presence in the prototype of several links participating in the transfer of displacements to the lever, the accuracy of the transformations is reduced, which limits the scope of the device.

The task of the utility model is to create an indicator for visual control of the pressure difference of the medium with increased accuracy.

The technical result is to improve the accuracy of the pressure difference indicator.

The technical result is achieved in that the pressure difference indicator comprises a housing comprising two chambers, two bellows, an axial displacement element, a lever, a reading device with a scale for visual monitoring of the medium pressure, each of the chambers is formed by the inner surface of the corresponding bellows, and the bellows are interconnected by an element axial displacement, which is directly connected to the lever.

The essence of the utility model is illustrated by a drawing, which schematically shows the pressure difference indicator, where:

1 - case;

2 - chamber for receiving the measured pressure P ₁ ;

3 - chamber for receiving the measured pressure Р ₂ ;

4, 5 - bellows;

6 - element of axial displacement;

7 - lever;

8 - supporting element;

9 - reading device;

10 - scale.

The pressure difference indicator comprises a housing 1, which includes a chamber 2 for receiving the measured pressure P ₁ formed by the inner surface of the bellows 4, and a chamber 3 for receiving the measured pressure P ₂ formed by the inner surface of the bellows 5. The bellows 4 and 5 are interconnected by an axial displacement element 6, directly connected to the lever 7, fixed on the support element 8.

A reading device 9 is fixed on the lever 7, by means of which changes in the value of the pressure difference on the scale 10 are displayed. The angular position of the lever 7 and, accordingly, the reading device 9 relative to the pivot point, depending on the pressure difference in chambers 2 and 3, can be displayed in the frontal plane (the plane of the lever 7 and the element of axial displacement 6). In this case, the reading device 9 can be made in the form of a pointer indicator, and the scale 10 - in the form of an angular scale.

Alloy 36NKhTYu GOST ED1 21482-87 can be used as a material for the manufacture of bellows. The design parameters of the bellows are selected based on the values of the pressures P ₁ and P ₂ , as well as the design features of the indicator as a whole. The axial displacement element 6 is a rigid part that can be moved along the guides of the housing 1, connected to each of the bellows 4 and 5 by welding.

The differential pressure indicator works as follows.

The pressures P ₁ and P ₂ are fed, respectively, into chambers 2 and 3. By bellows 4 and 5, by means of an axial displacement element 6, the pressure of the measured medium in chambers 2 and 3 is converted into a change in the angular position of the lever 7 with the reading device 9 relative to the support element 8. On scale 10 observe the displayed value of the pressure difference.

Claims (1)

A pressure difference indicator comprising a housing including two chambers, two bellows, an axial displacement element, a lever, a reading device with a scale for visual monitoring of the medium pressure, characterized in that each of the chambers is formed by the inner surface of the corresponding bellows, and the bellows are connected to each other by an axial element displacement, which is directly connected to the lever.

Images