SU1709254A1 - Device for testing electrical strength of sprayed groove insulation of electrical machines - Google Patents

Abstract

This invention relates to an electrical technique — a visual engineering technique — and can be used to test slot insulation in an electrical machine manufacturing process. The purpose of the invention is to improve the performance and reliability of the test results due to the possibility of monitoring the entire sprayed surface of the groove of the package and automating the testing process. The goal is achieved by those. that the device containing the electrode 6, the source 14 of the test voltage and the indicator 16. entered the insulating test 1 with collar 2, the movable and stationary rings 4, 5, the program block 11, electric drives 12, 13, relay 15 maximum current Electrodes 6 by the number of slots 7 of the control object, each electrode 6 is made in the form of a rubber cover 9 with a metal braid 10, put on the rod 8. 1 ill. SEVIO3 N 3 >

Description

The invention relates to electrical measuring equipment and can be used to test the electrical strength of slot insulation during the production process of electric machines.

The aim of the invention is to improve the performance and reliability of the test results due to the ability to control the entire sprayed surface of the package groove at once and to automate the testing process.

The scheme of the device is shown in the drawing.

The device contains an insulating mandrel 1 with a flange 2, on which test bag 3 is put, movable and stationary rings 4, 5, a set of electrodes b according to the number of grooves 7 of the test bag 3 made of rod 8, rubber case 9 and metal braid 10 program block 11, the drives 12, 13 of the movable ring 4 and the insulating mandrel 1, respectively, the source 14 of the test voltage, the overcurrent relay 15 and the indicator 16, and the metal rods 8 mounted on the movable ring 4 are placed inside the rubber covers 9, which With metal braids 10 mounted on them, they are fixed on a fixed ring 5, the network terminals of the device are connected to the first and second inputs of the program unit 11. Four outputs of which are connected respectively to the inputs of the indicator 16, the drives 12 and 13, and the source 14 of the test voltage, the first and the second outputs of which are connected respectively with the outer surface of the test package 3 and metal braids 10, and its third output through the relay 15 maximum current - with the third input of the program block 11.

The device works as follows.

The test bag 3 is mounted on the insulating mandrel 1 so that the laser holes 7 of the bag 3 are oriented relative to the electrodes 6, and the case of the bag 3 is connected to the electrical circuit. The program block 11 is turned on, which is intended for sequential switching on, holding, turning off all the circuit elements and bringing the yoy back to its initial state. The signal from program block 11 includes a drive 12 of the movable ring 4, which at the same time approaches the fixed ring 5, the rods 8 stretch the rubber covers 9 and the metal braids 10, as a result of which the cross section of the electrodes 6 decreases. Drive 13 then turns on.

insulating mandrel 1, while insulating mandrel 1 with test bag 3 put on it moves towards set of electrodes 6. Due to reduced cross-section of electrodes 6, they freely fit into grooves 7 of test bag 3. Turns on drive 12 of moving ring 4 and movable the ring 4 moves away from the fixed ring 5, the rubber covers 9 and the metal braids 10 are reduced, as a result of which the cross-section of the electrodes 6 is increased. In this case, the electrodes b fit snugly to the sprayed surface of the grooves 7 of the test bag 3.

5 According to the program, the test voltage is supplied to the package 3 via the electrodes 6, maintained and removed. The actuator 12 of the movable ring 4 is turned on, while the movable ring 4 approaches

0 with a fixed ring 5, the rods 8 stretch the rubber covers 9 and the metal braids 10, as a result of which the cross-section of the electrodes b is reduced. Then, the drive 13 of the insulating mandrel 1 is turned on, and the insulating mandrel 1 with the test bag 3 is moved away from the fixed ring 5, while the electrodes b freely exit from the slots 7 of the bag 3.

The tests are completed, the bag 3 is removed from the insulating mandrel 1-. If during the tests a breakdown of the sprayed slot insulation occurred, the overcurrent relay 15 sends a signal to the indicator 16 through the program block 11, which

5, in this case, it disconnects the test voltage and returns the device to its initial state.

Thus, this device allows to increase the reliability of tests.

0 due to the simultaneous testing of all the grooves of the package, to carry out tests in accordance with the requirements of GOST, to increase productivity by automating the testing process and fixing the test results.

The device is suitable for integration into a production line of mass production of electric machines.

Formulas and 3 Acquisition

0 A device for checking the electrical strength of a sprayed-in slotted insulation of electrical machine packages, containing an electrode, a source of test voltage and an indicator, which is designed so that, in order to improve the performance and reliability of the test results, an insulating mandrel with a collar was inserted into it for placing an object of control on it, on-beam and fixed rings, located on the same axis with an insulating mandrel, additional electrodes, so that their total number is equal to the number of slots of the object of control , software unit, overcurrent relay, two electric drives, and each electrode is made of a rod and a rubber cover with a metal braid mounted on it, the movable ring and the insulating mandrel having a possibility to move along the first and second electric actuators, the rods are fixed on the movable ring and threaded through the holes of the fixed ring, rubber covers with metal optics mounted on them fixed to the fixed ring and encompass the rods, the arrangement of the electrodes co corresponds to the location of the grooves of the test object, the network terminals of the device are connected to the first and second inputs of the program block, four outputs of which are connected respectively to the inputs of the indicator, both electric drives and the source of test voltage, the first and second outputs of which are connected respectively to the object of control and metal braids of electrodes, and its third output through the overcurrent relay is connected to the third input of the program block.

Claims (1)

Claim 50 A device for checking the electric strength of the sprayed groove insulation of packages of electric machines, containing an electrode, a source of test voltage and an indicator, which are characterized in that, in order to increase the productivity and reliability of the test results, an insulating mandrel with a shoulder is inserted into it for placing an object of control on it, movable and fixed rings located on the same axis with an insulating mandrel, additional electrodes, so that their total number is equal to the number of grooves of the object of control Olia, program unit, overcurrent relay, two electric drives, and each electrode is made of a rod and a rubber cover with a metal braid on it, and the movable ring and the insulating mandrel can be moved along the central axis thanks to the first and second electric drives, the rods are fixed on the movable ring and threaded through the holes of the fixed ring, rubber covers with metal braids put on them are fixed on the fixed ring and cover the rods, the location of the electrodes corresponds to the location of the grooves of the test object, the network terminals of the device are connected to the first and second inputs of the program unit, the four outputs of which are connected respectively to the inputs of the indicator, both electric drives and the source of test voltage, the first and second outputs of which are connected respectively to the control object and metal braids of the electrodes, and its third output through the overcurrent relay is connected to the third input of the program unit.