SU1383118A1 - Pressure transducer - Google Patents

Description

. (21) 4070780 / 24-10 (22) 17.04.86 (46) 23.03.88. Bul № 11

(71) Moscow Production Association Manometer

(72) M.I. Khanchin, V.I. Smy | words, S.M. An-tones and A.V.Golovin

(53) 531.787 (088.8)

(36) Pressure electrical pressure measuring transducers with power KOtf sensing of GPS and electrical power transducers. Technical description and operating instructions, 3.9026, 218, J967, p. 41

Pressure transducers measuring electrical SPD. Technical Description and Operating Instructions 3.9026.269, 1983, p. 12, 15, Fig. 3

(54) PRESSURE SENSOR

(57) The invention relates to measurement techniques and may be. used in the construction of model

means of measuring pressure. The purpose of the invention is to improve measurement accuracy by ensuring smooth tuning. The sensing element of the sensor is made in the form of lever 1 on both sides of immersion 5 and compensation 7 bellows, the internal cavities of the ryh form a positive chamber. The miniature chamber of the sensing element is formed by a cavity between housing 4 and bellows 5, 6. Under the action of the pressure, the bellows creates a force transmitted to lever 1. Moving the associated with lever 1, probe 9 causes a misalignment signal to appear. indicator 8. The force developed by the sensing element is compensated by the force developed by electromagnets 11, 12. By moving the bellows 7 along the axis of the lever 1, the compensation level of atmospheric pressure is adjusted. 1 il.

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00 00 00

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The invention relates to the field of measurement technology and can be used in the design of the cutting tool for measuring pressure,

The aim of the invention is to improve accuracy by ensuring smooth tuning.

The drawing shows the kinematic scheme of the pressure sensor. .

The sensor contains a double-arm lever 1 balanced with respect to support 2 and connected to the stem 3 of the sensing element made coaxially located in one housing 4 of the measuring bellows 5, bellows 6 located on one side of the lever 1, and compensating bellows 7 installed along the other the side of the lever 1 and the lever 1 arranged for movement along the longitudinal axis, the indicator 8 of the misalignment with the movable element (plunger) 9, the calibration weight 10, the electromagnets 11 and 12 with the movable coils 13 and 14, Model 15, 16 range corrector, for example potentiometer. In this case, the movable element 9 (plunger) of the error indicator 8 is rigidly connected to one of the arms of the lever 1 ,. the input of the amplifier 15 is connected to the output of the error indicator 8, and the output is connected to the input of the electromagnets 11 and 12 and the input of the range corrector 16, the output of which is connected to the output of the converter; In addition, the electromagnets 11 and 12 are symmetrically located relative to the support 2 of the lever 1, the calibration weight 10 and the sensing element are placed on different arms of the lever 1. The internal cavities of the bellows 5 and 7 form a plasma camera, and the cavity between the housing 4 and the bellows 5 and 6 form the negative chamber of the sensing element.

The operation of the device is based on the principle of power compensation and is as follows.

When measuring overpressure, pressure is applied to the positive chamber; vacuum pressure — a vacuum is created in the negative chamber; absolute pressure — pressure is supplied to the positive chamber, while a vacuum is created in the negative chamber; pressure drop - pressure (vacuum) is created in both chambers.

with

Q

5 20 25 30, 5 40 s

.

0

five

The bellows 5-7 under the action of pressure (vacuum) create a force that is transmitted to the lever 1. Under the action of the force the lever 1 and the plunger 9 of the error indicator 8 associated with it make a movement. The error signal of the indicator 8 is fed to the input of the amplifier 15, from which output - to the input of the coils 13 and 14 of the electromagnets 11 and 12.

The force developed by the electromagnet 11 and 12, proportional to the output current of the amplifier 15, compensates for the action of the force developed by the sensitive element. The output value of the range corrector 16 is a measure of the pressure to be converted.

When calibrating the converter, the calibration weight 10 is superimposed on the lever I; in this case, the output signal of the corrector 16 must correspond to the calibration value. When the output deviates from ka; The calibration value is made by the corresponding correction of the conversion factor by the corrector 16. In the pressure measurement mode, the calibration weight 10 and the lever 1 do not have mechanical contact with each other.,.

Adjusting the level of compensation for changes in atmospheric pressure is accomplished by moving the compensation bellows 7 along the longitudinal axis of the lever 1. In this case, the total moment — reduced to support 2 and developed by bellows 5–7 — can be reduced to zero.

The use of the present invention will make it possible to manufacture sensors for measuring absolute, excessive, vacuum pressure and pressure drop, which can be used as exemplary measuring instruments, as well as in systems for automatic control and regulation of technological processes and in research work.

Claims (1)

Claims. A pressure sensor containing a two-arm lever, to which the measuring and compensating bellows are connected, two power compensation electromagnets and an error indicator, 313831184 whether or not, so that, ss. on the opposite side of the measure of accuracy over the counting bellows with respect to a smooth adjustment, in the non-partial axis of the lever and with the possibility Compensation, 1st bellows is set to displace in the direction of this axis.