RU80565U1 - PRESSURE METER - Google Patents

Abstract

The utility model relates to the field of measuring pressure of liquid and gaseous media and is aimed at simplifying the adjustment of the pressure sensor and increasing the stability of readings during adjustment. The specified technical result is achieved in that the pressure sensor containing the sensing element, made in the form of a Bourdon tube mounted on the holder and connected by its free end to a tribo-sector mechanism, consisting of a rod connected to the main gear sector, pivotally mounted on the holder and in contact with a tribe, which is connected with the pointer arrow, an additional gear sector mounted on the axis of the main gear sector and kinematically connected with the tribe, and an arcuate spring, cat paradise one end fixed to a holder, and the other is in contact with an additional toothed sector, with a spring fixing unit on the holder is designed as a holder for mating with the cylindrical surface of the rack mounted rotatably around its axis and then securing in position.

Description

The utility model relates to the field of measuring pressure of liquid and gaseous media using elastically deformable elements, namely, elastically deformable flexible tubes, for example, Bourdon tubes.

A known manometer with a single-coil tubular spring (Gonek N.F. Manometers L., Mechanical engineering. Leningrad. Department, 1979, p. 106). The pressure gauge consists of a tubular spring, the free end of which is pivotally connected to the rod. The other end of this rod is also pivotally connected to the shank of the gear sector. The length (effective) of the shank and the stiffness of the tubular spring are selected so that with a maximum change in pressure measured by the pressure gauge, the gear sector rotates on its axis by about 10-15 ° in either direction from the middle position. At the same time, the tribe coupled to the sector rotates through an angle of 270-300 ° (± 135 - ± 150 °). At the same angle from the beginning to the end of the scale, the pressure gauge needle is also rigidly fixed on the axis of the tribe. To eliminate gaps in the mechanism, the axis of the tube is supplied with a tension hair - a spiral miniature multi-coil spring, one end of which is connected to the axis of the tube, and the other to some fixed part of the mechanism.

The disadvantage of this pressure gauge is the difficulty of adjustment due to the presence of a groove in the shank of the gear sector.

A pressure gauge is also known (German application No. 2528973, class G01L 7/04. Pressure gauge with an extended measuring range. Publish. November 3, 1977. Bull. No. 44). It contains a base holder, a bourdon tubular spring,

bent along an arc of a circle, ending with a tip sealing it from one end and fixed tightly in the base holder with the other end. In addition, it contains a trimming unit, consisting of a base made in the form of an elastic (deformable) ring, one part of which is fixed to the base holder, and the rest is placed on the outside of the tubular spring. The pressure gauge is adjusted using three trimming screws, for which three through threaded holes are made in the ring, the axes of which are located in the directions of the radii of the circular arc along which the longitudinal axis of the tubular spring is curved. Three adjustment screws are placed in these three threaded holes, while the axis of the first hole is located within the central angle of the tubular spring, but outside the angle of 90 °, measured from the intersection of the longitudinal axis of the tubular spring with the border of the tubular spring in the holder base.

The disadvantages of this pressure gauge are the relative complexity of the design, large dimensions (due to the ring located on the outside of the tubular spring) and the difficulty of adjustment due to the presence of three adjusting screws.

The prototype of the utility model is a pressure measuring device (AS USSR No. 1530951, class G01L 7/04. Pressure sensor. Publish. 12/23/1989. Bull. No. 47). The sensor consists of a Bourdon tube mounted on a holder and a tribo-sector mechanism. A flat spring is fixed to the holder, which contacts an additional gear sector mounted on the axis of the main gear sector and which is engaged with the tribe. The sensitive element, made in the form of a Bourdon tube and mounted on the holder, is rigidly connected to the tip, which is pivotally connected by means of a rod to the shank of the main gear sector. The latter is installed with the possibility of rotation on

the axis holder and is kinematically connected with the tribe on which the index arrow is fixed. An additional gear sector is kinematically connected to the tribe on the same axis. On the holder in the rack a cantilever spring is made cantilever, made in an arcuate shape, which is in contact with an additional gear sector and an emphasis made in the form of a rocker arm, mounted for rotation around the axis of the tribe. In the stop groove made in an arc of a circle, a screw is connected associated with the holder. The geometry and seal of the spring and the path of movement of the stop are coordinated in such a way that, at any position of the stop, it does not come out of contact with the spring. Adjustment is carried out by moving the stop along the length of the flat spring by changing its stiffness. To fix the stop position in it along an arc of a circle, a groove is made in which the screw is placed.

The disadvantage of this device is the difficulty of its adjustment due to the presence of a stop made in the form of a rocker arm and a stop screw.

The objective of the utility model is to simplify the adjustment of pressure sensors and increase the stability of readings during adjustment.

This problem is solved as follows. In accordance with the prototype, the pressure sensor contains a sensing element made in the form of a Bourdon tube mounted on a holder and connected by a free end to a tribo-sector mechanism. The tribo-sector mechanism consists of a rod connected to the main gear sector, pivotally mounted on the holder and in contact with the tube, which is connected with the pointer arrow. An additional gear sector is mounted on the axis of the main gear sector and is kinematically connected with the tribe. It also contains an arcuate spring, which is fixed at one end to the holder and contacts the other toothed sector with the other.

According to a utility model, the spring fixing unit on the holder is made in the form of a cylindrical surface conjugated with the holder

racks mounted with the possibility of rotation around its axis and subsequent fixing in the desired position.

Further, the invention is illustrated by drawings, which depict:

- figure 1 - design of the pressure sensor;

- figure 2 - site adjustment of the pressure sensor (section aa). The sensor consists of a Bourdon tube 1 with a tip 2 mounted on the holder 3, and a tribal sector mechanism consisting of a rod 4, a main gear sector 5, an additional gear sector 6 and a tribe 7. The pointer arrow 8 is fixed on the tribeca 7. Flat spring 9 fixed in the holder 3 using the rack 10, which at the same time is a mechanism for adjusting the pressure sensor. The spring 9 is in contact with an additional gear sector 6, which is mounted on the axis 11 of the main gear sector 5 and is meshed with the tube 7. The adjustment is made by turning the strut 10 around its axis, as a result of which the stiffness of the spring 9 changes. The established position is registered by the nut 12 (Fig. .2).

The sensor operates as follows. When loading the sensing element 1 with a medium pressure, the tip 2 moves along a line close to a straight line. This movement through the rod 4 and the main gear sector 5 is transmitted to the tribe 7 and the index arrow 8. At the same time, an additional gear sector 6 is rotated, being kinematically connected with the tube 7. The spring 9 resists rotation of the latter, the rigidity of which can vary. The device is adjusted by turning the stand 10, the position of which determines the stiffness of the spring 9. The position of the stand 4 is fixed with a nut 12. The presence of the stand rotating around its axis with the possibility of its fastening significantly simplifies the process of adjusting the pressure sensor, which increases the stability of readings.

Claims (1)

A pressure sensor containing a sensing element made in the form of a Bourdon tube mounted on a holder and connected by its free end to a tribo-sector mechanism, consisting of a rod connected to the main gear sector, pivotally mounted on the holder and in contact with the tube, which is connected with the pointer arrow , an additional gear sector mounted on the axis of the main gear sector and kinematically connected with the tribe, and an arcuate spring, which is fixed at one end to the holder and the other to clocks with a further toothed sector, characterized in that the spring assembly for anchoring the holder is designed as a holder for mating with the cylindrical surface of the rack mounted rotatably around its axis and then securing in position.