SU1509647A1 - Pressure transducer - Google Patents

Abstract

The invention relates to instrumentation, namely, pressure sensors. The aim of the invention is to maintain the linearity of the characteristic while adjusting the multiplying mechanism. The multiplier mechanism of the sensor is made in the form of two flat springs 3 and 4 with a jumper 10, which is connected to a displacement transducer. The free end of the spring 3 is connected to the housing, and the free end of the spring 4 is connected to the membrane 1. There is a second movable jumper that is moved along the springs relative to the first jumper 10 with screws 9, which allows the sensitivity of the multiplication mechanism to be changed. 1 il.

Description

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The invention relates to instrumentation, namely to a sensor apparatus used to measure and control pressure, force, etc.

The aim of the invention is to maintain the linearity of the characteristic during adjustment.

The drawing shows the design of the pressure sensor or force

The sensor contains a membrane 1 with a rod 2, on which the end of the flat spring 3 is fixed. On a fixed deflection, a second plane is fixed. spring 4, the cross sections and the lengths of both springs are equal. The springs are interconnected by a movable jumper consisting of two clamps 5 and 6 and spacer 7, the thickness of the pad is equal to the gap between the edges of the springs 3 and 4, the clamps 5 and 6 have two threaded holes for fastening screws 8 and one each threaded hole for adjustment screws 9; In the fixed jumper 10 there are two holes for adjustment screws 9 and a pin 11 of fastening flexible conductor 12; The other end of the flexible conductor is fixed to a flat spring 13, the angle of which is set by a screw 14, Potentiometer p 15 with terminals 16 and 17 is mounted on board 18, the potentiometer is connected to the power source through terminals 16 and 1 /, the output signal is removed from terminal 19,

The sensor works as follows. At the initial moment of time in the absence of deformation of the membrane 1, the springs 3 and 4 are parallel to each other. When the measured pressure or force is applied, the membrane 1 and the rod 2 move with it. A spring 3, having a rigid connection with a spacer 7, converts the axial force of the rod 2 on the shoulder, equal to the thickness of the gasket 7, to the bending moment of the spring 4. In this case, the jumper 10 moves to the right and deforms the flexible conductor 12, which increases the area

contact with the working path of the potentiometer 15; In this case, the voltage taken from terminals 13 and 16 is a function of pressure or force acting on the membrane 1,

The sensor is adjusted to the first point of the measured range by moving the flexible conductor 12 by varying the inclination angle of the spring 13 with the screw 14. The last point of the measured range is set by changing the gear ratio of the mechanism, Dp this screws 8 weakening the preload of the springs 3 and 4 to remote spacer 7 and, by turning the screws 9, the length of the springs is set to provide the necessary gear ratio.

The use of a movable jumper in the design of the multiplying mechanism ensures, due to the fixed rigid connection, constant along the length of the springs, the gap between their edges at the initial moment, which is a necessary condition for the linearity of the transmission mechanism characteristic.

Claims (1)

Invention Formula I The pressure sensor, comprising a housing, an elastic sensing element transducer of movement into an electrical signal, a multiplying mechanism in the form of two flat parallel springs, the ends of which are bridged, one free end connected to the sensing element and the other to the body, and the bridge is connected with a transducer of movement into an electrical signal, and a sensitivity regulator of the multiplying mechanism, characterized in that, in order to preserve the linearity of the characteristic during adjustment, l sensitivity torus formed as a surcharge - hydrochloric jumpers installed movably relative to the first along the jumper springs.