SU1057903A1 - Device for instrument grinding checking - Google Patents

Abstract

A WIPER TESTING DEVICE, containing an input driver, connected to the terminals of the instrument to be tested, distinguishing, in order, to increase the sensitivity. and calibration performance, a filter connected in series, a square pulse shaper and a display unit are inserted into it, while the filter inputs are connected to the terminals of the instrument to be tested.

Description

SP

with

The invention relates to electrical measuring technology and can be used to calibrate analog electrical measuring instruments of a magnetoelectric system for mashing the movable part of the measuring mechanism in its working sector because of the presence of foreign objects (sand, pile, sawdust, etc.) or skews device calibration settings.

A device for checking devices for mashing is known, which contains a source of olor voltage connected to a voltage divider. For smooth current adjustment, the reference voltage divider contains a potentiometer. Rotation of the potentiometer produces a smooth increase in the current in the working sector, followed by its gradual decrease, while visually monitoring for the presence of mashing l.

The disadvantage of the device is low sensitivity due to the inertia of the visual control.

The closest in technical essence to the present invention is a device comprising an input driver connected to the terminals of the device under test, and a capacitive sensor. The input driver generates smoothly increasing and decreasing voltages arriving at the input of the device under test. When this occurs, the continuous movement of the movable part of the measuring mechanism. In the presence of a mash, a mechanism is braked, which is fixed visually 2.

The drawback of the device is visual control, which does not provide high quality control, inefficient and subjective.

The purpose of the invention is to increase the sensitivity and performance of the calibration of devices for mashing.

The goal is achieved by the fact that a filter connected to the terminals of the instrument to be scanned is connected in series to the device for mashing, which are connected to the terminals of the device to be tested, are connected in series, the square pulse former and the display unit, while the filter inputs are connected to the clamp of the Pn sandwire.

The drawing shows a block diagram of the device calibration instruments for mashing.

A device for checking for mashing includes a driver 1 for an input signal, a scanner device 2, a filter 3, a driver 4 for a rectangular pulse, and an indication unit 5.

The input signal shaper 1 is connected at the input with the START and STOP b bus, and at the output with clamps 7 and 8 of the device 2, to which filter 3 is also connected,

The rectangular pulse shaper 4 is connected at the input to the output 9 of the filter 3, and at the output 10 to the display unit 5.

The input signal shaper 1 is intended to generate a smoothly increasing and decreasing current, under the action of which the moving part of the measuring mechanism of the device is shifted to the right or left in the working sector,

Filter 3 is designed to feed low-frequency components of the signal with a clamp device and can be an owl RC filter.

Shaper 4 of a rectangular pulse is designed to generate a rectangular pulse, if there is a signal from the filter, it can be a Schmitt trigger.

The display unit is designed to signal the presence of mashing.

The operation of the device is as follows.

At the start signal. From the bus 6, the input signal conditioner 1 produces a smoothly varying current of an infra-low frequency with an amplitude that ensures the deviation of the movable part of the measuring mechanism in the entire working sector.

Upon receipt of a smoothly varying current on the terminals 7 and 8 of the device, the frame with an arrow moves in one direction, then in another, i.e. the frame makes an oscillatory motion. When the frame crosses the magnetic field lines of the magnetic system of the device, the emf is in the frame

AF

eW -, - f,

(one)

where f is the magnetic flux defined by the expression

, (g)

where B is magnetic induction in the gap;

o is the area described by the active sides of the motion framework;

area is determined by the expression;

 ,

(3)

Claims (1)

DEVICE TESTING DEVICE, comprising an input signal shaper connected to the terminals of the device under test, characterized in that, in order to increase the sensitivity and calibration performance, a series-connected filter, a rectangular pulse shaper and an indication unit are introduced into it, while the filter inputs are connected with clamps of the device being verified.