SU369439A1 - PRESSURE METER - Google Patents

Description

one

The invention relates to the field of instrumentation, in particular to membrane-controlled pressure sensors, and can be used to remotely measure the pressure of a liquid or gas in internal combustion engines.

Pressure sensors for liquid or gas gases containing a membrane assembly, a transmission linkage mechanism with a winding and a brush, which convert pressure into a corresponding resistance change of the rheostat, are known.

In the known sensors, the axis of rotation of the brush is placed normal to the longitudinal axis of the winding of the rheostat, and the brush is shifted across the winding props, which increases the required force of its movement. In such sensors, a relatively large stroke of the brush is provided by a multi-step mechanism with a lever transmission mechanism.

However, such a mechanism, having several articulated joints, increases the sensor hysteresis, thereby reducing the accuracy of readings, and also complicates the design. In such sensors, mounted on motors and operating under conditions of increased vibration, in order to ensure reliable contact of the brush with the winding, an increased force of pressing the brush against the winding is required. However, this in combination with the movement of the brush across the winding wires and the relatively large gear ratio of the multi-stage lever mechanism leads to a large load on the membrane and the gear mechanism, reducing the accuracy of the readings and the service life of the sensor.

To increase the accuracy, simplify the design and increase the padding in the proposed sensor, the brush is made in the form of a plate rigidly applied to the driven lever of the transmission mechanism and provided with a face that contacts the winding of the rheostat and is inclined at an angle to the winding of the rheostat, and

the brush of the usganoplon is parallel to the longitudinal smallpox of the resostat, and the width of the brush is equal to the length of the rheostat winding.

The drawing shows the described sensor in two projections.

The sensor comprises a membrane gauge assembly including a housing / with a fitting 2 for supplying a liquid whose pressure is measured. Housing / enclosed by membrane 3, forming chamber A. Rheostatic unit

The sensor consists of a frame 4 of a rheostat with a winding 5. Brush 6 has face 7 in contact with the winding 5, which is inclined at an angle to the generator winding 5 of the rheostat. Brush 6 with one end connected to the lever

5 and with it rotates around axis 9,

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which is installed parallel to the longitudinal axis of the rheostat. The other end of the lever 8 interacts with the return spring W. The transmission mechanism forms a pusher 11 and a lever 8 fixed on the axis 9. One end of the winding 5 is connected to terminal 13 via the contact plate 12, the other end and the brush 6 are connected to the sensor mass. The lever 8 has a bent petal 14, the bent of which establishes the initial position of the brush 6 on the winding 5. The pusher 11 is eccentrically located in the regulating sleeve 15, turning which pusher distance // from the axis 9 changes and, thus, the gear ratio. The angle of inclination of the brush 6 to the generator winding 5 of the rheostat and the stroke of the brush 6 are set by attaching the latter to the lever 8 by means of rivets 16.

The sensor works as follows. The fluid whose pressure is measured through shutter 2 enters chamber A and presses on the membrane 5. The membrane, bending, moves the pusher llj which rotates the lever 8 and the associated brush 6 around the axis 9. The brush 6 slides along the winding 5 along its axis turns and includes in the electrical circuit the resistance is proportional to the pressure of the liquid.

When the pressure decreases, the spring 10 returns the lever 8 and the brush 6 to the initial position.

Such a sensor design allows

reduce the friction caused by the movement of the brush 6 along the winding 5 of the potentiometer, and reduce the force required to move it, which, in turn, allows the use of a simple lever transmission mechanism.

Subject invention

A pressure sensor comprising a diaphragm manometric assembly, a transmission mechanism and a rheostat with a winding and a brush, characterized in that, in order to increase accuracy, simplify the design and increase reliability, the brush in it is made in the form of a plate rigidly attached to the driven lever of the transmission mechanism, and provided with a face in contact with the winding of the rheostat, which is inclined at an angle to the generator of the winding of the rheostat, while the axis of rotation of the brush is set parallel to the longitudinal axis of the rheostat, and the width of the brush is equal to the length of the winding rheostat.

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