SU723411A1 - Pressure transducer - Google Patents

Description

(54) PRESSURE TRANSMITTER

Claims (2)

The invention relates to a reference measuring technique, in particular, to converters of pressure of liquid and gaseous media into an electrical signal. Pressure transducers are known that contain a hermetic housing, a membrane that senses the pressure of the external environment, and a beam-type resilient sensing element that is cantilever-mounted inside the housing with a strain-measuring circuit l. The disadvantages of these transducers are the complexity of assembly and the lack of adjustment of the initial position of the elastic element. A pressure transducer is known, comprising a housing with a sensing element installed therein, interacting with an elastic element, on which strain gages are disposed are divided into two arms, one of which is associated with the sensitive element and the other with the mechanism for adjusting the position of the elastic element 2.1. The disadvantages of this device are its considerable size and low measurement accuracy. The purpose of the invention is to reduce the size and increase accuracy. The goal is achieved by the fact that the mechanism for adjusting the position of the elastic element is made in the form of a wedge with an element for its movement along the axis of the elastic element. Fig. 1 shows the proposed pressure transducer, axial section; Fig. 2 shows an embodiment of a pressure transducer. The pressure transducer contains a sealed enclosure 1, a pressure sensing membrane 2, which can be made separately from the enclosure (see Fig. 1) support 3 and an elastic element in the form of a beam 4, on the surface of which a stress measuring circuit is formed (not shown) 4 is supported on support B by support 3, and one shoulder is connected to the pressure-receiving membrane 2 37 through a rod 5 axially moving in the groove. Support 3 is mounted for movement relative to the body around axis 6, between support 3 and case 1 p A proprietary adjustment element 1, which is connected to the micrometer screw 8 and the second arm of the elastic element. . A micrometer screw is mounted in a plug 9 having a channel 10 with a seal of insulating material for inserting wires 11 connecting a strain gauge circuit formed on the surface of the beam 4 with an external recording device (not shown). The pressure transmitter operates as follows. The measured pressure acts on the elastic membrane, which is deformed and through the rod 5 acts on the beam 4, on the surface of which a strain gauge circuit is formed. When the element 7 is moved along the body 1, the support 3 is moved relative to the body, as a result of which the initial deflection of the beam 4 changes and, consequently, the initial deformation of the curvature of the design diagram. The result is a change in the initial output of the converter. The proposed design of the pressure transducer will allow the initial deformation of the strain gauge circuit of the assembled pressure transducer to be varied within wide limits and thus will allow to adjust its initial output signal. Claims The pressure transducer comprises a housing with a sensing element installed therein, interacting with an elastic element, on which strain gages are placed, supported by two arms, one of which is associated with the sensitive element, and the other with an adjustment mechanism for the position of the elastic element, different In order to reduce overall dimensions and increase accuracy, the mechanism for adjusting the position of the elastic element is made in the form of a wedge with an element for its movement along the axis of the elastic element cient. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 395737, CL G O1 L 9/04, 15.12.71. . 2. Patent of the USSR No. 469272, cl. cl. About 01 U 9/04, publ. 01/24/72 (prototype). FIG. 2