RU2177185C1 - Oil-immersed transformer - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: transformer has primary and secondary windings placed in hermetically sealed oil-filled tank. Double-conductor cables covered with silicone rubber insulation are brought in through tank lid. Primary winding is connected to two phases of power transmission line and secondary winding, to load by means of cables brought into tank through stuffed holes provided in tank lid inside fixed bushings, hold-down washers and movable bushings. EFFECT: facilitated manufacture, enhanced service life. 2 dwg

Description

 The invention relates to the field of electrical engineering and can be used in the manufacture of oil transformers without the use of bushings installed on the transformer body, from solid insulating materials such as porcelain, ceramics, etc. This design differs from the known ones in that the leads from the transformer windings are made of high-voltage two-wire cables with flexible leads resistant to various climatic conditions with silicone rubber insulation. The terminals of the primary winding of the transformer are connected to two phases of the power line, the terminals of the secondary winding of the transformer are connected to the inputs of the load, which can be signaling and self-locking equipment, or other consumers of electricity.

 Known oil voltage transformer, measuring type NTMI-10. (Petrov VN Use of voltage transformers for connecting dispatch control equipment to rural distribution networks. - Diss ... Cand. Tech. Sciences. M., 1972, - p. 39-50).

The disadvantages of the known transformer are:
1. Low line voltage in the secondary winding of the transformer connected by a star, which is 100 V, which does not allow it to be used as a power transformer.

 2. Installation of bushing porcelain bushings on the transformer case, which reduces its reliability. Also known is an oil transformer from a.s. USSR N 1707634, H 01 F 27/04, 1992, which is adopted as a prototype.

The disadvantages of the known transformer are:
1. Installation on the transformer case of bushings made of porcelain, which reduces its reliability.

 2. The transformer is often damaged during a short circuit due to the surge of high voltage on the exposed parts of the insulators.

The claimed transformer eliminates the listed disadvantages existing in known transformers, while new technical properties are obtained which include:
1. Increase the manufacturability of the transformer during its manufacture and installation by reducing the number of purchased products.

 2. They clean the surface of the transformer case from dirt without removing the high voltage of 10 kV.

 3. Reduce the overall dimensions and weight of the transformer by eliminating ceramic insulators.

 4. Increase the service life of the transformer due to the use of two-core, flexible cables with silicone rubber insulation in it.

This insulation is oil and petrol and frost resistant (- 50; + 80 ^o C). It does not collapse and retains insulating properties for 30 years when the transformer is operated in the open air.

 Transformer 1 single-phase, oil 10 / 0.23 kV, containing primary and secondary windings, which are placed in a sealed tank filled with oil 9, tank cover 2 with the first 5 and second 6 tight holes, the first 3 and second 4 two-wire cables are introduced into it with silicone rubber insulation (first and second cables), first 10 and second 10 'fixed bushings with internal thread (first and second fixed bushings), first 12 and second 12' clamping washers, first 11 and second 11 'movable bushings with external threaded (first and second movable bushings), moreover, the connection of the primary winding of the transformer 1 to the two phases of the 10 kV power line is made through the first sealed hole 5, in the lid of the tank 2, inside the first stationary sleeve 10, inside the first clamping washer 12, inside the first movable sleeve 11, using the first cable 3, connection the secondary winding of the transformer 1 to a load of 0.23 kV is produced through a second sealed hole 6 in the lid of the tank 2, inside the second fixed sleeve 10 ', inside the second clamping washer 12', inside the second movable sleeve 11 ', using the second cable 4 A, the first 3 and second 4 planted on cables sealant to cover the tub 2, a first 10 and second 10 'fixed hub mounted on the lid of the tank 2 in vertical welding and coaxially relative to the first 5 and second 6 of sealed holes. For positions 10 ′, 11 ′, 12 ′ and the second cable 4, the section in FIG. 1 is not shown due to their symmetry with respect to positions 10, 11, 12 and the first cable 3.

In FIG. 1 shows a sketch (not to scale) of the claimed transformer 1, where:
1. The transformer.

 2. Tank cap.

 3. The first cable.

 4. The second cable.

 5. The first sealed hole in the tank cap.

 6. The second tight hole in the tank cap.

 7. The first core of the first cable.

 8. The second core of the first cable.

 9. A sealed tank filled with oil.

 10. The first fixed sleeve with internal thread.

 11. The first movable sleeve with external thread.

 12. The first clamping washer.

 The following assumptions are made in the description of the application: the line 10 kV, load 0.38 kV, primary and secondary windings of transformer 1, oil drain plug, oil level meter, bracket for mounting the transformer on a support, breakdown fuse are not shown in Fig. 1. The installation of these elements is shown in the technical specifications for transformer 1 and does not affect the essence of the claimed invention.

 The first 3 and second 4 cables are put on the sealant, followed by screwing the movable sleeves 11 and 11 'into the fixed sleeves 10 and 10', creating a compressive force on the first and second clamping washers 12 and 12 ', which transmit this clamping force on the first 3 and second 4 cables, pressing them to the tank cap 2.

 Table 1 shows the installation dimensions (mm) of the stationary bushings 10 and 10 ', the movable bushings 11 and 11' and the pressure washers 12 and 12 'in the prototype of the transformer 1.

 In FIG. 2 shows a sketch of the first 3 and second 4 cables that are used in the prototype of transformer 1.

 The dimensions (mm) of the first 3 and second 4 cables are shown in tables 2 and 3, respectively.

 The dimensions shown in tables 1 to 3 can be changed during the manufacture of the experimental series.

Conclusions:
1. Testing the prototype of the transformer in real conditions confirmed its operability.

 2. Recommendations are given for the release of an experimental series of transformers.

Claims (1)

An oil transformer containing primary and secondary windings that are placed in a sealed tank filled with oil, a tank cap with first and second sealed openings, first and second clamping washers, characterized in that two-core high-voltage cables with silicone rubber insulation are inserted into it, the first and the second fixed bushings with internal thread, the first and second movable bushings with external thread, while connecting the primary winding of the transformer to the power line through the first a special hole in the tank cover using the first two-core high-voltage cable with silicone rubber insulation inside the first fixed sleeve with internal thread mounted vertically and coaxially with the first tight hole on the tank cover, inside the first clamping washer and the first movable sleeve with external thread, the first two-core high-voltage cable with silicone rubber insulation is sealed on the tank cap, the first movable sleeve is screwed into the first fixed sleeve, with giving compressive force to the first clamping washer, pressing the first two-core high-voltage cable with silicone rubber insulation to the tank cap, the secondary winding of the transformer is connected to the load through the second sealed hole in the tank cover using the second two-core high-voltage cable with silicone rubber insulation inside the second fixed bushings with a female thread mounted on the tank cap by welding vertically and coaxially with the second sealed hole,
inside the second clamping washer and the second movable sleeve with internal thread, while the second two-core high-voltage cable with silicone rubber insulation is sealed on the sealant on the tank cap, the second movable sleeve is screwed into the second fixed sleeve, creating a compressive force on the second clamping washer pressing the second two-core high-voltage cable with silicone rubber insulation to the tank cap.

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