SU1683089A1 - Device for controlling solutions and electric device failures - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to low-voltage apparatus, and can be used in the manufacture and control of electrical devices, such as magnetic starters. The purpose of the invention is to simplify the design and increase the accuracy of control. The device has a contact stop sensor and a contact touch sensor, which are connected to the control unit, to which the test contact is also connected. This makes it possible to fix the final position of the traverse of the apparatus under test and determine its full stroke, i.e. solution and failure of the same contact. 1 h. l f-ly, 1 ill.

Description

The invention relates to electrical engineering, in particular, to low-voltage equipment, and can be used in mechanical engineering in the manufacture and control of electrical devices, such as magnetic starters.

The aim of the invention is to simplify the design and improve the accuracy of control.

The drawing shows the device and its electrical circuit.

The device contains a control unit 1 and an executive body consisting of a coding transducer of 2 angular displacements and a pusher made of parts 3 and 4 located coaxially with one another in sleeve 5, the opposite ends of parts 3 and 4 of the pusher form a non-contact contact touch sensor, upper part 3 of the pusher, for example, its protrusion 6 and the sleeve 5, for example the wall 7 of its hole 8,

they form an unbroken contact stop sensor, the lower part 4 of the pusher is pressed against the end of the sleeve 5 by the spring 9, and the upper part 3 of the pusher by the projection 7 is pressed against the edge of its opening 8 of the sleeve 5 by the working spring 10.

The sleeve 5 is installed in the housing 11 with the ability to interact with it via return springs 12 and with the cam 13, which is set into rotation through the gearbox 14. The outputs of the stop sensor and the touch sensor are connected to the outputs of the control unit 1, the outputs of which are connected to the polling unit 15 and the control input of the counter 16. The outputs of the counter 16 and the polling unit 15 are connected to the inputs of the code comparator 17, the output of which is connected to the alarm unit 18. The second input of the polling unit 16 is connected to the block 19 of boundary values.

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The device works as follows.

At the moment of supplying the start (not shown) of the voltage to the electric motor, the counter 16 is set to its initial state. The electric motor, by means of the gearbox 14, rotates the cam 13 and the transducer 2 of angular displacements. The cam 13 converts the rotational motion of the shaft into the translational motion of the sleeve 5 and the pusher (parts 3 and 4). At the moment of pushing the pusher (part 4) with the traverse of the test apparatus, part 4 of the pusher stops its movement, since the spring stiffness of its spring is much less than the rigidity the springs of the apparatus under test (not shown) and resumes its motion after the contact of the touch sensor is closed. From this moment on, the sleeve 5, the pusher (parts 3 and 4) and the traverse of the apparatus under test jointly move under the action of the rotating cam 13, and the contactless contact stop sensor remains in a closed state, since the rigidity of the operating spring 10, which ensures the closed state contacts of this sensor are many times greater than the spring stiffness of the apparatus under test. From the moment the touch sensor is closed, the control unit 1 grants permission to read the measured value,

At the moment of opening (closing) of the disconnecting contacts of the apparatus under test, control unit 1 generates a signal to the polling unit 15, through which data on the magnitude of the largest and smallest failures of the disconnecting (closing solutions) contacts, stored in the block 19 of boundary values, enter the comparator 17 codes where they are compared with the readings of counter 16, and the result of the comparison is received by the E-unit 18 of the alarm. The control unit 1 resets the counter 16, which from this moment until it stops, the traverse in its final position (in the On position) begins to measure the value of the solution of the opening (closing contact) contacts. At the moment the crosshead is stopped in the On position, the working spring 10 begins to compress, which causes the contact of the stop sensor to open. At the time of the break of this contact by a signal from the control unit 1 in the comparator

17 codes, data is compared from the counter 16 and the block of 19 boundary values with the output of the control result to the signaling block 19.

The proposed device, in connection with the introduction of a stop sensor and a touch sensor, improves the reliability of the device and the reliability of the control, thereby ensuring the industrial production of more quality and reliable electric appliances. In addition, the proposed device allows a quantitative assessment of the solution and a single contact, as well as the course of the traverse of the electric apparatus. The proposed device is planned for use in the automated assembly of PML-2000 actuators.

0 Formula a-invention

Claims (2)

1, An apparatus for monitoring solutions and contacts of an electrical apparatus, comprising a control unit and an actuator, including 5 coding transducer of angular displacements and a pusher mounted in a sleeve with the possibility of interaction with it by means of a working spring, characterized in that, in order to simplify 0 design and increase control accuracy, the plunger is made of two parts arranged coaxially with each other so that between the oppositely directed ends of these parts a contact is formed 5 touch sensor, and between the upper part of the pusher and the sleeve there is a contact sensor of the stop; the lower part of the pusher is pressed against the end of the sleeve by an additional spring, and part of the pusher 0 are located so that when the stop sensor is closed and when the lower part of the pusher is pressed against the end of the pusher, the touch sensor is open, the stops and touch sensor outputs are connected to the block inputs 5, and one of the inputs of the block is designed to connect the contact of the apparatus under test. 2. The device according to claim 1, characterized in that the upper part of the pusher is provided with a protrusion, and a hole is made in the side wall of the sleeve so that the contact stop sensor is formed by a protrusion formed on the top of the pusher and the wall of the side opening of the sleeve. L