SU1673836A1 - Displacement transducer in pressure indicator - Google Patents

Abstract

The invention relates to a measurement technique and may find application in displacement sensors for a pressure detector. The purpose of the invention is to reduce the error of the result of the registration of movement. In the displacement sensor, the pulses from the generator 4 of the pulses arrive at the modulator 5, excites the light emitter 1, which produces corresponding light pulses affecting the photoreceiver 2. If the displacement element 3 does not overlap completely the light pulses, then the photodetector 2 produces photocurrent pulses that through amplifier 7 The photocurrent affects the counters 8 and 9. The state of the counters 8 and 9 determines the operating mode of the counter 10, displayed by the recorder 6. 1 Il.

Description

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The invention relates to a measurement technique, and 1 to a movement sensor in a pressure alarm device.

The aim of the invention is to reduce the error of the result of movement registration.

The drawing shows one of the possible variants of the proposed displacement transducer in a pressure alarm device.

The displacement sensor comprises a light emitter 1 and a photodetector 2 located on opposite sides of the displacement element 3 made in the form of an opaque shutter mechanically connected with a pressure indicator, a pulse generator 4 connected by an output to the input of the modulator 5, a recorder and a photocurrent amplifier 7.

The output of the modulator 5 is connected to the light emitter 1, made in the form of an LED. and the photodetector 2, made in the form of a photodiode connected by one of the outputs to the common bus, is connected to the information input of the photocurrent amplifier 7.

The displacement sensor also contains the first and second counters 8 and 9 connected by zeroing inputs to the output of the pulse generator 4 connected to the synchronization input of the photocurrent amplifier 7 made with level locking, and the third counter 10 whose output is connected to its synchronization input and to the recorder 6. In this case, the photocurrent amplifier 7 can be made in the form of a latch-type trigger having positive feedback. The direct and inverse outputs of the photocurrent amplifier 7 are connected to zeroing inputs of the first and second counters 8 and 9, respectively, connected by outputs to the mode selection input and the zeroing input of the third counter 10.

The work of the proposed sensor is as follows.

The pulses of a fixed duration come with a fixed period from the output of the generator 4 pulses to the modulator 5, acting on the light emitter 1. The light emitter 1 generates the corresponding light pulses acting on the photodetector 2. In this case, the light pulse acting on the photodetector 2 depends on the position 3 movements. If motion element 3 does not completely overlap

light pulse, then the photodetector 2 generates a pulse of the photocurrent supplied to the amplifier 7 of the photocurrent. Photocurrent amplifier 7 enhances the photocurrent to the level of logical

zero or level of logical unit and fixes these levels at the time of arrival of the pulse front of the generator 4 pulses to the synchronization input From the direct and inverse outputs of amplifier 7 of the photo library, the levels of logical zero or logical unit go to the first and second counters 8 and 9, respectively. they are reset, and the other accumulates the pulses of the generator 4 pulses. The state of the first and second counters 8 and 9 uniquely identifies the mode of operation of the third counter 10. If the third counter 10 is zero, then the logic zero level comes from its output to the recorder 6 input. If the third

Since the counter 10 is in the counting mode, then from its output to the input of the registrar 6 the level of the logical unit is supplied. Due to this, the registrar 6 transmits to the consumer information about the position of the movement element 3

Claims (1)

Invention Formula Motion sensor in the alarm device a pressure comprising a light emitter and a photodetector placed on opposite sides of the displacement element, a pulse generator connected by an output to the input of the modulator, a photocurrent amplifier and a recorder, the output of the modulator being connected to the light emitter. and the photodetector is connected to the information input of the photocurrent amplifier, characterized in that, in order to reduce errors of the registration of the movement, the first and second counters are connected to it, connected by synchronization inputs to the output of the pulse generator connected to the synchronization input a photocurrent amplifier made with latching, and a third counter, the output of which is connected to its synchronization input and a recorder input, the direct and inverse outputs of the photocurrent amplifier connected to zeroing inputs of the first and second counters, respectively, connected by the outputs, respectively, to the mode selection input and entering the zero counter third counter.