SU934203A1 - Displacement-measuring device - Google Patents

Description

(54) DEVICE FOR MEASUREMENT OF DISPLACEMENTS

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The invention relates to instrumentation technology and can be used to measure the movement of objects.

Inductive displacement transducers are known, which contain magnetic cores with .ob :, coils and ferromagnetic measles, which are connected in the measurement process with a controlled object {1.

The disadvantage of such converters is the need to use a special power source, which is difficult and sometimes not feasible, for example, in the case of long-term measurements and in the absence of control by the supervising personnel.

Closest to the invention is a device for measuring displacements, comprising a relatively movable housing and a crank, a transducer of the speed of movement, and a recording device, which is soloed as an integrator 2.

Since in the device the speed converter is inductive, the sensitivity of the device in the case of measuring

The slow movement is small, which is a significant disadvantage.

The purpose of the invention is raising. measure the accuracy of measurements.

The goal is achieved by the fact that the device is equipped with a spring-loaded element for preloading the battery to the body, and the speed converter of the interchange (made in the form of a thermoelectric sensor of heat flux placed between the body and UITO

1 in the room and attached to the body or. Opoka.

The drawing shows a schematic diagram of the device.

The device comprises a housing 1, a brush 2, connected in the process of measurement with a coitrorating object 3, and a spring-loaded element 4, which serves to press the brush 2 to the housing 1. The element 4 is spring-loaded by a spring 5, the compression force of which is adjusted by a screw 6. In the gap 7 between housing 1 and

Joint stock .2 fixed on the housing 1 (or the stem 2) is placed a thermoelectric heat flux sensor 8 connected to a recording device 9, made

Claims (1)

The claims are pure friction, which leads to the release of 10 heat. Sensor 8 measures the amount of heat released per unit time, i.e. its readings are proportional to the relative velocity of the object 3 and part 10. The readings of the recording device 9, drunk 15 in the form of an integrator, will be proportional to the magnitude of the displacement. The amount of heat generated during friction depends on the friction force, which can be controlled by the force of the pressing element 4, which allows you to adjust the sensitivity of the device. The high sensitivity of thermoelectric heat flux sensors makes it possible already now to develop devices having a resolution of the order of 1 μm ₂ 5 with a measurement range of 40 mm, and at relative velocities of movement much lower than those that are practically limiting for induction converters. A device for measuring displacements, comprising a relatively movable body and rod, a speed transducer and a recording device made in the form of an integrator, characterized in that, in order to increase sensitivity, it is equipped with a spring-loaded element for pressing the rod to the body, and the displacement speed transducer is made as. thermoelectric heat flow sensor located between the body? catfish and stock, and fixed on the body or on the stock.