SU809004A1 - Device for measuring electric strength of electro-insulating materials in liquid - Google Patents

Description

(B4) DEVICE FOR MEASURING ELECTRIC

STRENGTH OF ELECTROINSULATING MATERIALS. TÜV IN LIQUID

Claims (2)

Insulation relates to electrical measuring equipment and can be used to determine the electrical strength and penetration of electrical insulating materials in a fluid, such as transformer oil. A device containing two electrodes connected to a voltage source and installed on samples at a certain distance relative to each other is known 1. The closest technical solution to the proposed is a device for measuring the electrical conductivity of electrical insulating materials in a liquid containing coaxially spring-loaded high-voltage and grounded electrodes and contacts 2. The disadvantage of these devices is low productivity, since they allow testing only one sample and require additional time for sample installation with its centering relative to the electrodes and sample removal. The purpose of the invention is increased productivity. The goal is achieved by introducing a second high-voltage electrode installed coaxially with the high-voltage and grounded electrodes and contacts into the known device, which is installed coaxially with the first on the other side of the grounded electrode, and the electrodes are placed in a swivel cassette with a handle, with grooves for samples on the side surface , an internal protrusion in which a grounded electrode is installed, and connected bars with a spring-loaded handle with a movable bottom, on which a second This is a high-voltage electrode, and the first high-voltage electrode is provided with a handle springed relative to the cassette handle, with atom contacts made in the form of a L-ring plate separately connected by contact conductors with each high-voltage electrode. FIG. 1 shows the structure of the proposed device, front view; in fig. 2 - the same, side view. The device contains high-voltage electrodes 1 and 2, a grounded electrode 3, a rotary cassette 4, equipped with a handle 5, slots for samples 6 and 7, BHi / three protrusion 8 and a movable bottom 9, bars 10 and 11., bath 12, springs 13, 14 , 15 and 16, the handle 17, the half-ring plate 18, the contact conductors 19 and 20 and the grooves of the cassette 21 and 22. The device works in the same way. The high voltage electrodes 1 and 2 are separated by pressing the knobs 5 and 17, and the springs 13 and 14 are compressed, and the connecting bottom 10 and 11 take the moving bottom 9 out of the slots of the cassette 21 and 22 with the high-voltage electrode 2 fixed on it, and springs 15 — high-voltage electrode 1 from grounded electrode 3 with the formation of free gaps between high-voltage electrodes 1 and 2 and grounded electrode 3, into which test samples 23 and 24 are placed through the groove, respectively, for samples b and 7. Contacting the inside with the side walls of the rotary cartridges 4, test subjects Samples 23 and 24 center themselves relative to high voltage electrodes 1 and 2 and ground electrode 3, the handles 5 and 17 released, the springs 13 and 14, the strut to, return the movable bottom 9 and the rods 10 and 11 to the initial position. Under the action of springs 9, 15 and 16, high-voltage electrodes 1 and 2 tightly press test samples 23 and 24 to a grounded electrode 3 fixed in the internal protrusion 8 of the rotary cassette 4, which with test samples 23 and 24 is lowered into a 12 with transformer oil, so that the contact conductors 19 and 20 touch the half-ring plate 18, high voltage through the semiring plate 18 and contact conductors 19 and 20 are given to the high voltage electrodes and the contact conductors 19 and 20 are gradually increased to a sample of one of the crystals “ x samples 23 and 24. If necessary, test from test samples 23 and 24 by rotating the rotary cassette 4 contact conductor 19 or 20 of the corresponding high-voltage electrode 1 or 2 located on the side of the punched sample from test samples 23 and 24, is removed from contact with the semiring plate 18. After the test, the swivel cassette 4 comes out of the bath 12, by pressing the knobs 5 and 17, the high-voltage electrodes 1 and 2 are pushed apart and the test specimens 23 and 24 are removed from the slots for samples b and 7. Use in the proposed arrangement stve second high voltage electrode at the opposite side of the ground electrode allows to test two samples simultaneously, which improves performance, in addition, the use of rotatable cassettes grooves accelerates the process of installation and removal of the test samples. Claims An apparatus for measuring the electrical strength of electrically insulating materials in a liquid, for example, transformer oil, contains installed coaxially spring-loaded high-voltage and ground electrodes and contacts, characterized in that, in order to improve performance, a second high-voltage electrode is inserted into it. an electrode mounted coaxially to the first on the other side of a grounded electrode, the electrodes being placed in a rotating cassette equipped with a handle, with sample slots on the side surface ti, with an internal protrusion in which a grounded electrode is installed, and connected with a spring-loaded handle with a movable bottom, on which a second high-voltage electrode is mounted, and the first high-voltage electrode is provided with a handle spring-loaded relative to the cassette handle, while the contacts are made in the form of a semiring plate, separately connected by contact conductors with each high-voltage electrode. Sources of information taken into account in the examination 1. US Patent No. 4010416, cl. 324-54, 1977. 2. USSR Author's Certificate No. 151420, cl. G 01 R 31/12, 1963 (prototype).