SU417745A1 - - Google Patents

Description

one

The invention relates to the field of electrical engineering, and specifically to tests for the electric strength of threaded bushings.

The known device for testing the electrical strength of products, in particular, threaded bushings, which contains a high voltage source, a drive shaft and a multi-position drum mounted on it with sockets for placing the bushings connected to the contacts of the said source, does not provide high performance and safety tests.

In order to eliminate these drawbacks, each of the sockets of the proposed device is kinematically connected with the shaft and made in the form of spring-loaded threaded semi-cylindrical elements, inside of which is located a rod fixed in a spring-loaded flange bushing. At the same time, the device is equipped with sliders and shaft-connected sliders, on which the specified semi-cylindrical elements and limiters which engage with the flange bushing are placed.

The drawing shows the kinematic scheme of the proposed device.

The device consists of a high-voltage source 1, a pulse shaping unit, a front-end input, it into the automation unit 2, a sorting mechanism, which includes a spring-loaded damper 3, an electromagnet 4, and a clamping and contact mechanism.

The clamping and contacting mechanism consists of a multi-position drum 5 that performs intermittent rotation with the help of an engine 6, a worm gear 7, a two-faced Maltese mechanism 8. Two fixed cams 9, 10, mounted coaxially with a multi-position drum, move the sliders 13, 12, 12 , 14, on which are placed drum-forming spring-loaded threaded semi-cylindrical elements 15, 16 and stoppers 17, 18 connected via stepped wings 19, 20 and spring-loaded flange bushing 21.

The rod 22 is located inside the specified semi-cylindrical elements and fixed in the sleeve 21.

A threaded bushing 23 is installed on the specified rod. The voltage applied to the inspected bushing is supplied from a universal installation and a forming unit

impulse with the help of contacts 24, closed by cam 25, spring-loaded brushes 26, 27, connected with co-tact plates 28, 29, threaded clips with contacts and spring-loaded sleeve with central

core.

The device works as follows.

The tested threaded sleeve 23 is mounted on the central rod 22 at the position 30 of the multi-awareness drum. When rotated 90 ° of the multi-position drum with the help of the engine 6, the worm gearbox 7, the two-stage Maltese mechanism 8, the two fixed cams 9, 10 are not displaced through the glands I, 12 the sliders 13, 14 with the elements 15, 16 fastened on them the sleeve 23 along the thread profile is made by the coincidence of the threads of the checked sleeve and the threaded elements.

If these thread inserts do not match, the bushing under pressure of the threaded clips-contacts does not move up or down the central rod until the thread approaches, but it also performs the clamping and contacting of the tested sleeve to the thread profile. The contacting at the bottom end of the tested sleeve is carried out with the help of a spring-loaded sleeve 21 with stepped wings 19, 20 connected to the limiters 17, 18 mounted on sliders 13, 14. When the tested sleeve is moving upwards while clamping it with non-threaded elements 15, The 16 staged wings 19, 20 are disengaged from the restraints 17, 18, the spring-loaded sleeve 21 moves upwards, and the contacting along the lower end of the checked sleeve is traversed. Moving the tested sleeve downward is carried out together with the spring-loaded sleeve, i.e. the contacting at the bottom end is not disturbed.

After rotation of the multi-position drum at position 31, a voltage pulse is supplied from the source 1 and the pulse shaping unit included in the automation unit 2 to the inspected sleeve by means of the contacts 24, which are closed by the cam 25, are spring-loaded

brushes 26, 27 connected to contact plates 28, 29 insulated from each other, threaded elements 15, 16, and spring-loaded sleeve 21 with a central rod 22. Then the drum is rotated another 90 °, thus opening the screw clamps, and check the sleeve 23 at position 32 under the action of its own weight according to the results of the control on

the previous position 30 falls into the receiver of suitable or defective parts, the entrances to which are blocked by a spring-loaded gate 3, turned by an electromagnet 4 connected to the automation unit 2. In this

At the same time, at position 30, the tested threaded bushing is installed, and at position 31, the other threaded bushing is checked for dielectric strength.

Subject invention

Claims (2)

1. A device for testing the threaded bushings for dielectric strength, comprising a high voltage source, a drive shaft and a multi-position drum stuck on it with sockets for receiving the bushings connected to the contacts of the said source, that, in order to increase productivity and safety, each of the sockets is kinematically connected with the shaft and made in the form of spring-loaded threaded semi-cylindrical elements, inside of which is located a rod fixed in a spring-loaded flange sleeve. 2. A device according to claim 1, characterized in that it is provided with limiters and shaft-connected sliders on which semi-cylindrical elements and limiters are included that engage with the flange sleeve.