RU2548164C1 - Method for manufacturing frame of high-voltage bushing - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: method for manufacturing frame of high-voltage bushing includes fixing of a frame in a winding mechanism turning the frame around its axis. Insulation of the frame is wound continuously by a tape made with double-sided adhesive layer and reinforced fibre. A sealing unit is mounted at one of the frame ends, and this unit is made so that it can be bent inwards and an edge of the last layer of wound tape is fixed thus forming a solid enclosure. By means of the sealing unit impregnation and polymerisation of the frame is carried out.

EFFECT: increasing rigidity of the frame enclosure, improving its plastic properties, quality of the frame impregnation and polymerisation, preventing loss of impregnating composition out of insulation of the high-voltage bushing frame.

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Description

The invention relates to the field of electrical engineering, in particular to the field of manufacturing multilayer insulation, and can be used in the manufacture of high-voltage bushings of transformers.

One of the main processes in the manufacture of the core of a high-voltage input is the impregnation of pre-wound paper insulation with a special epoxy compound. To implement this process, it is necessary to use a rigid casing impervious to the compound.

The prior art method for the manufacture of multilayer high-voltage insulation (see SU 677688, CL H01B 19/00, publ. 1979). The aforementioned method of manufacturing a multilayer high-voltage insulation contains alternately arranged layers of insulating tape, which consists in winding a continuous insulating tape onto a cylindrical frame.

In the known method, in addition to a continuous insulating tape on the frame wound galvanically unconnected pieces of metal tape. In addition, an equidistant transverse strip of reduced strength is formed on the metal tape, the metal tape is passed through the stopper and, periodically acting on the latter, it is torn apart in the place of reduced strength located along the metal tape behind the stopper.

This method of manufacturing insulation improves its quality by increasing the electric strength, however, it is technologically complex and as a result requires increased operating costs for its implementation.

The prior art method for the manufacture of a core of a high voltage input (see RU 2380776, CL H01B 7/26, publ. 01/27/2010). A known method of manufacturing a core of a high voltage input includes winding insulation layers alternating with conductive equalizing plates on a current-carrying pipe.

In the known method, the insulation is impregnated with an impregnating compound using a pipe connected to the insulation of the core, the outer surface, which is equipped with a bandage impermeable to the compound.

The skeletons made according to the aforementioned known technology have high electrical and mechanical characteristics, while the design of the installation used in this process is quite simple. However, the polymerization (curing) of the compound takes a long time, the whole process takes at least 4 days, so the process of manufacturing the skeleton, including the subsequent verification of its quality control, is significantly delayed, which in turn affects the increase in labor and energy costs.

The closest analogue of the invention is a method of manufacturing a core of a high voltage input of a transformer (RU 2316838, class H01B 19/00, publ. 02/10/2008).

The specified method of manufacturing the skeleton of the high-voltage input includes securing the skeleton to a winding mechanism, rotating it around a longitudinal axis with simultaneous movement of the skeleton along its axis.

In the known method, during the manufacture of the skeleton, the laying of a T-shaped rib on the skeleton is performed with a gap between the turns, and the mechanism rotating and moving the skeleton is set relative to the extruder at an angle equal to the angle of laying of the rib, and the rib is made with thickening. These methods used in the known invention are associated with certain difficulties associated with the specifics of setting up equipment for winding flax and movement of the core, which in turn increases the complexity of the manufacturing process of the core.

The objective of the invention is to provide a reliable method of manufacturing a skeleton of a high voltage input, the resulting products of which are of high quality workmanship and a long service life.

The technical result of the invention, which objectively manifests itself in the implementation of the proposed method for manufacturing a skeleton, is to increase the rigidity of the shell of the skeleton, improve its ductile properties, improve the quality of impregnation and polymerization of the skeleton, as well as prevent leakage of the impregnating composition from the insulation of the skeleton of the high-voltage input.

The specified task and the technical result are achieved by the fact that the method of manufacturing the core of the high voltage input, including fixing the core to the winding mechanism, rotating it around the longitudinal axis, while isolating the core continuously and simultaneously with the rotation of the core by moving rolls with tape along the core by shuttle method multilayer tape winding, made with a double-sided adhesive layer and reinforcing reinforcing fiber, upon completion of winding the tape on the core, at one end of the last set sealing green, made with the possibility of bending inward and fixing the edge of the last layer of wound tape extending beyond the dimensions of the said end of the insulating core, forming a shell with impenetrable properties for the impregnating composition, inside of which the core is impregnated and polymerized by the said sealing unit, and at the end of the operations the sealing unit is dismantled.

In the proposed method for manufacturing the core of the high voltage input, the method of sealing insulation and creating a rigid casing, consisting of multiple repeating layers of insulating adhesive tape with a double-sided adhesive layer reinforced with reinforcing fiber, is used. The tape is wound on the insulation of the core continuously due to the rotation of the core on the machine around its axis, as well as by moving rolls of tape along the core by shuttle. This principle makes it possible to obtain a rigid but plastic shell around the input core, which is able to withstand the pressure difference inside and outside the core during its impregnation and polymerization.

After the tape winding process is completed, a sealing unit is installed at one of the ends of the core. The sealing unit is made with the possibility of bending inward and fixing the edge of the last layer of the wound tape, which extends beyond the dimensions of the end of the insulating core to which the sealing unit is attached. Thus, a shell forms on top of the insulation of the core, which has impenetrable properties for the impregnating composition (compound). Inside the so-called shell of the core, with the help of the sealing unit, the core is impregnated and polymerized. At the end of all operations, the sealing unit is dismantled. In the proposed method for manufacturing the core, a kind of rigid casing is used, forming a reliable impermeable disposable shell, inside which high-quality impregnation and polymerization of the core of the high-voltage input is carried out, completely eliminating undesirable leakage of the impregnating composition.

Thus, the proposed method of manufacturing the core of the high voltage input prevents leakage of the impregnating composition from the insulating layer of the core of the high voltage input and provides the manufacture of an insulating core having increased shell rigidity, improved plastic properties, as well as improved quality of impregnation and polymerization, and therefore the reliability of the proposed method of manufacturing the core , and the products obtained during the implementation of the method have high quality workmanship and new life.

Figure 1 shows the option of mounting the sealing unit to the core of the high voltage input.

When implementing the invention, in particular, the following material objects and means are used (see Fig. 1):

1 - a layer of tape wound on the insulation of the core;

2 - ring, on the outer surface of which the edge of the wound tape is bent;

3 - ring, fixing the tape at the end of the frame by means of o-rings;

4 - a ring screwed onto a glass;

5 - bolts tightening the sealing unit;

6 - a glass;

7 - fitting for supplying a compound;

8 - a sealing ring;

9 - an additional sealing ring;

10 - isolation of the skeleton.

Implemented the proposed method of manufacturing a skeleton of a high voltage input as follows.

A method of manufacturing a skeleton of a high voltage input according to the invention includes fixing the skeleton to a winding mechanism (not shown in the drawing), which rotates the skeleton around a longitudinal axis.

Further, the insulation of the core by moving rolls of tape along the core by shuttle method carry out multi-layer winding of the tape. Moreover, the tape is wound on the insulation 10 continuously due to the rotation of the core on the rotating machine (winding mechanism).

Tape 1 is made with a double-sided adhesive layer and reinforced with reinforcing fiber. After completing the tape winding process, a sealing unit is installed at one end of the core in accordance with the figure. Close to the end surface of the core is installed ring 2, which covers the Central tube of the core. On the outer surface of the ring 2, the edge of the wound tape 1 is bent. Next, the sealing rings 8 and 9 are alternately installed, and the glass 6 is screwed onto the central tube of the core and the ring 3 is installed, which fixes the tape 1 on the end of the core by means of the sealing rings 8 and 9. On the glass 6 a ring 4 is screwed, the hole in which is aligned with the hole in the ring 2, on the outer surface of which the edge of the wound tape 1 is bent. A fitting 7 is screwed into the hole of the ring 4 for feeding the compound. Then, the entire sealing unit is pulled together by bolts 5. Thus, a certain sealed casing is created in which further impregnation and polymerization of the core of the high-voltage input is carried out. After polymerization is completed, all of the above details are removed, cleaned of the remnants of the compound and reused. The casing is cut from the skeleton using a hand tool and disposed of.

In this method of manufacturing a core of a high voltage input by sealing the insulation of the core and creating a rigid casing, consisting of repeatedly repeated layers of insulating adhesive tape 1 with a double-sided adhesive layer reinforced with reinforcing fiber, a rigid but plastic shell is created around the core of the input. The tape 1 according to the proposed method is wound on the insulation 10 of the core continuously due to the rotation of the core on the machine around its axis, as well as by moving rolls with tape 1 along the core by shuttle.

A certain hermetic casing obtained is able to withstand the pressure difference inside and outside the core during its impregnation and polymerization.

At the end of the process of winding the tape 1 at one end of the skeleton, a sealing unit is installed. The sealing unit is made with the possibility of bending inward and fixing the edge of the last layer of the wound tape 1, which extends beyond the dimensions of the end of the insulating core to which the sealing unit is attached. Thus, a shell forms on top of the insulation of the core, which has impenetrable properties for the impregnating composition (compound). Inside the so-called shell of the skeleton, with the help of the sealing unit, the skeleton is impregnated and polymerized. Thus, a reliable impermeable disposable shell is formed, inside of which high-quality impregnation and polymerization of the core of the high-voltage input is carried out, completely eliminating the unwanted leakage of the impregnating composition.

The invention will find wide application in industry, namely in the energy industry, and can be used for the manufacture of high-voltage bushings of transformers or similar products.

The invention provides the creation of a reliable method of manufacturing a core of a high voltage input, the resulting products of which are of high quality workmanship and a long service life.

Claims (1)

A method of manufacturing a core of a high-voltage input, including fixing the core to a winding mechanism, rotating it around a longitudinal axis, characterized in that the insulation of the core continuously and simultaneously with the rotation of the core around the axis, by moving the rolls of tape along the core along the core by shuttle, carry out multi-layer winding of the tape made with a double-sided adhesive layer and reinforced with reinforcing fiber, upon completion of winding the tape on the core, at one end of the latter, a sealing unit is installed, made with zhnosti bend inward and fixing the edge of the last layer of wound tape that goes beyond the dimensions of said end of the insulating core, forming having impermeable properties of the impregnating composition of the shell, inside which, by means of said sealing assembly produce impregnation and polymerization of the core, and upon termination of operation of said seal assembly is dismantled.