SU949364A2 - Liquid pressure pickup - Google Patents

Description

(54) LIQUID PRESSURE GAUGE

The invention relates to a measurement technique and can be used for measuring pressure in liquid media.

According to the main auth. No. 640153 is known for a fluid pressure sensor, containing a measuring element in the form of a cavitating element with an adjustable input resistance, at the output of which a sensitive organ is mounted, a spring-loaded flow-through bellows with a plate. This sensor measures sufficiently high pressure levels.

The disadvantage of this sensor is the relatively narrow range of measured pressures by one and the same sensor. This is due to the fact that the control channels of the plate of the sensitive element provide at a given level of pressure, and hence the flow rate, a certain pressure drop across the sensitive element. And an increase in the measured pressure level, for example, by 4 times, increases and the pressure drop across the sensitive element is also 4 times. Therefore, the range of measured pressure values by the sensor is quite narrow and is determined by the strength characteristics of the sensitive element. It should be noted. That povnyenie. strength characteristics of the sensing element significantly reduces the accuracy of measurement.

The purpose of the invention is to expand the measurement range.

This goal is achieved by the fact that in the fluid pressure sensor

10, the output of the cavitating element is communicated via an adjustable throttle inserted into the sensor. The element is with a low-pressure cavity.

The drawing shows the proposed fluid pressure sensor.

The measuring element of the sensor consists of a Venturi tube 1 operating in the advanced cavitation mode. At the outlet of the tube is installed bellows

20 2 with a plate 3, spring preloaded 4 settings. The movement of the plate can be converted to any kind of signal (mechanical, hydraulic or electrical) that records the pressure of the fluid in the stream. The sensing element of the sensor - bellows 2 operates at a pressure differential, which is determined by the flow through the venturi and

30, the area of the openings A. The received pressure drop on the bellows is balanced by the force of the spring 4, which is carried out by the adjusting screw 5, fixed in a predetermined position by the nut 6. The discharge flow going through the sensor is carried out through the throttle element 7 and the nozzle 8. Except In addition, the fluid pressure sensor contains a converter electrical system 9 and a pre-bellows cavity B.

The sensor works as follows. When the pressure of the fluid changes, the flow through the venturi changes, the magnitude of which is determined only by the input pressure. This leads to the deviation of the pressure drop on the bellows from the value balanced by the spring, and consequently, to the displacement of the plate, which is converted into the sensor output signal by the system 9. With a significant increase in the pressure of the liquid, the throttle element 7 opens. the start-up portion of the flow from the venturi outlet to the low pressure cavity. By calibrating the sensor at this throttle position

element, it is possible to measure high pressure values at acceptable values of pressure drop across the sensitive element. The highest pressure values in a given measurement range are recorded by the sensor with the throttle element fully open.

Thus, the proposed sensor, with the simplicity of its design, allows the range of measured pressures to be expanded.

Claims (1)

1. USSR author's certificate 640153, cl. G 01 L 11/00, 1977.