DE1133447B - Cast resin insulated individual components that can be joined together to form units - Google Patents

Description

Cast resin-insulated individual components that can be combined to form units The invention relates to cast resin-insulated individual components, which by means of in axial direction of the electrical conductor strained, but releasable connections can be joined together to form units, especially for joinable cast resin insulated ones High voltage systems.

It is known that individual components embedded in cast resin can be converted into electrical components Merge distribution and switchgear, with between the individual components Butt joints are left to increase the dielectric strength with pressure oil fill out. These butt joints are generally from the outer circumference of the cast resin insulation designed with a decreasing cross-section towards the conductor and an approximately hyperbolic course, such that they end approximately tangentially on the conductor surface. The production Such butt joints are difficult and the use of pressurized oil to fill the Joints associated with great structural effort.

To avoid the aforementioned disadvantages, it has been proposed to design cast-resin-insulated individual components in such a way that prefabricated insulating material bodies are inserted into the cast-resin insulation of the components at the joints between the components and have pressing surfaces formed from elastic or plastically deformable insulating materials at the joints. The proposed components are equipped with a conductor reaching approximately into the area of the joint, into which intermediate pieces bridging the joint are inserted, d. H. be inserted into the hollow ends of the conductors, for example in the form of double-sided sleeves, which ensure the electrical connection between the conductor ends at the butt joint. The prefabricated insulating bodies are designed in such a way that they touch the cast resin insulation on a conical part that tapers towards the conductor. The detachable connection between the components is achieved by bracing in the axial direction.

The known embodiments have the disadvantage that the individual components which are arranged between other components of the system can only be removed, for example exchanged, if all other components lying on one side of the part to be removed are axially, i. H. be shifted in the direction of the electrical conductor until the interlocking or overlapping parts of the components to be removed and the immediately adjacent components lying in the area of the releasable connection are so far removed from each other that they no longer hinder lateral removal of the component to be replaced. In the case of the known arrangements, the insulating material parts enclosing a butt joint between them must be very far removed from one another until the part to be replaced can be removed transversely to the longitudinal direction of the conductor. In the proposed embodiments with prefabricated insulating bodies, at least one more axial displacement of the parts by the length of the conductor piece bridging the joint is required. The axial displacement of the individual components is associated with a considerable amount of time, especially in the case of large systems, during which the entire system must be put out of operation. In addition, the axial displacement requires additional space and generally requires the removal of one of the components located at the end of the system.

It is the object of the invention to provide cast resin-insulated individual components for to train assemblable units so that they are adjacent without axial displacement Components can be removed and installed in the direction transverse to the longitudinal direction of the conductor.

To solve this problem, the initially mentioned cast resin-insulated individual components are characterized in that they have an insulating body extending over part of their length at the connection points, which is expandable and compressible in the axial direction by elastic deformation and which is expandable in the axial direction. and. is equipped with compressible electrical conductor. The novel design of the individual components ensures that the dimensions of the components can be changed in their length by applying tensile or compressive forces. It is thus possible to insert the components in the compressed state between adjacent components and, after relieving the pressure through mutual tension, to press their end faces against the adjacent components in such a way that both the electrical conductors of the two parts and the insulating surfaces on the front face with increasing Touch the contact pressure on larger areas.

For this purpose it is provided that the expandable and compressible in the axial direction Insulating material body at the joints, preferably spherical pressing surfaces for contact to the adjacent individual components, while the ends of the compressive and flexible electrical conductors with contact-enhancing materials, for example silver, are provided.

It is useful if the stretchable and compressible in the axial direction Insulating body firmly connected to the cast resin insulation, preferably to the Cast resin insulation is vulcanized, as this gives a particularly high Dielectric strength of the joint between the cast resin insulation and the elastic deformable insulating body achieved.

If the one used for the expandable and compressible insulating body The material cannot be firmly connected to the cast resin insulation and there is a tensile load To switch off the aforementioned butt joint, it can be advantageous if the elastic deformable insulating body braced with the cast resin insulation in the axial direction is.

The contact area between the stretchable and compressible insulating body and the cast resin insulation is preferably a conical surface in the axial direction as a conical surface or as a surface with an approximately hyperbolic course in the longitudinal section formed so that the joint enclosing insulating body on as possible long surface.

According to a particularly advantageous embodiment of the invention the stretchable and compressible insulating body made of silicone rubber. Experimental results have shown that the butt joints between Sflikon rubber and casting resin as well as between adjacent rubber parts, such as they occur at the detachable connection point, a particularly high dielectric strength exhibit.

It is also provided that the located in the insulating body Expandable and compressible electrical conductor with the one embedded in the cast resin Head firmly connected, for example welded to him or soldered to him is. The expandability and compressibility of the electrical conductor is expedient achieved in that the conductor is designed as a corrugated tube, or that it has the shape a single or multi-thread spiral. Finally there is also the possibility train it as a stranded wire, the individual wires of which are arranged in a spiral.

To carry out the installation and removal of the individual components in a simple manner to be able to is to transfer and fix the expandable and compressible insulating body and the conductor in the compressed state on both sides of the joint between Cast resin insulation and the attached insulating body a clamping device, for example Clamping rings or clamping flanges to be connected by clamping screws are provided. One the clamping flanges can also be used as clamping elements for bracing the side by side to be arranged units are used in the axial direction.

To in the area of the joint between the elastically deformable insulating bodies To obtain a high dielectric strength, it is provided that the expandable and compressible Insulating body with devices for potential control, preferably with elastic ones conductive layers or with thin-walled, coaxial metallic tubes of different Length are equipped.

Further details of the invention emerge from the in the drawing illustrated embodiment, in which a longitudinal section through an inventive formed connection between cast resin-insulated components is shown.

In the figure, 1 and 2 denote the cast resin insulation, in which conductors 3 and 4 designed as tubes are embedded. The two cast resin insulations have frustoconical end faces 5 and 6, onto which insulating bodies 7 and 8 made of silicone rubber are vulcanized. The insulating bodies 7 and 8 take on expandable and compressible electrical conductors 9 and 10 , which are connected to tubular conductors 3 and 4 located in the cast resin insulation by soldering or welding. The expandability and compressibility of the conductors is achieved in that they are designed as WeH pipes, the free ends 11, 12 of the conductors 9 and 10 are provided with a material that promotes contact, so that reliable contact is ensured when the conductor ends are pressed against each other .

The insulating bodies 7 and 8 have a butt joint between them enclosing spherical pressing surfaces 13 and 14, which are designed so that when the assemblable components are pressed together, an enlargement of the contact surface between the pressing surfaces 13 and 14 occurs, which occurs from the conductor to the outside, without air inclusions occurring. The insulating bodies 7 and 8 are pressed together by means of clamping screws 15 and 16 and clamping flanges 17, 18, which are made in one piece with clamping rings 19, 20. Springs 23, 24 are provided between the clamping nuts 21, 22 and clamping screws 15, 16. As shown in dash-dotted lines in the figure, further clamping flanges 25, 26 can be provided, which are located on the cast resin insulation 1, 2 and their clamping rings 27, 28 are embedded in the insulation. The clamping flanges 25, 26 have bores for receiving clamping screws which are arranged radially offset from the bores for the clamping screws 15, 16 , so that further clamping screws can be arranged between the flanges 17, 25 and between the flanges 18, 26 which make it possible when removing the clamping screws 15,16 to vorzuspanneu the insulating body 7 and 8 with the compressible conductors 9 and 10 located therein against the adjacent Gießbarzisolierung so far that the individual components can be inserted between existing adjacent components. After insertion, the tensioning screws provided for pre-tensioning can be removed and the tensioning screws 15, 16 shown in the drawing can be attached and with them a contact pressure corresponding to the respective conditions can be generated. If the insulating bodies 7 and 8 are to be pressed firmly against the cast resin insulation 1 and 2 even when the components are installed, it is advisable to arrange additional clamping flanges with corresponding rings on the insulating bodies 7 and 8 in the area of the conical butt joint and to attach them to the To connect clamping flanges 25, 26 . The clamping rings are expediently made narrower than provided in the figure, or it is necessary to make the insulating bodies 7 and 8 longer so that sufficient compressibility and extensibility are maintained despite the last-mentioned tension.

Claims (2)

PATENT CLAIMS: 1. Cast resin-insulated individual components which can be joined together to form structural units by means of connections that are braced in the axial direction of the electrical conductor, but are detachable, in particular for cast resin-insulated high-voltage systems that can be joined together, characterized in that the individual components at the connection points have an insulating body extending over part of their length ( 7; 8) , which is expandable and compressible in the axial direction by elastic deformation and is equipped with an electrical conductor (9; 10) that is expandable and compressible in the axial direction. 2. Individual component according to claim 1, characterized in that the expandable and compressible insulating body (7; 8) at the joints preferably has spherical pressing surfaces (13; 14) for contact with the adjacent individual component and that the ends of the compressible and expandable electrical Conductors are provided with materials that improve contact, for example silver. 3. Individual component according to claim 1 and 2, characterized in that the axially expandable and compressible insulating body (7; 8) with the cast resin insulation (1; 2) is firmly connected, preferably vulcanized to the cast resin insulation. 4. Individual component according to one or more of the preceding claims, characterized in that the expandable and compressible insulating body (7; 8) with the cast resin insulation (1; 2) is braced in the axial direction. 5. Individual component according to one or more of the preceding claims, characterized in that the expandable and compressible insulating body (7; 8) and the cast resin insulation (1; 2) are located on conical surfaces (5; 6), preferably conical surfaces or approximately hyperbolic in longitudinal section running surfaces. 6. Individual component according to one or more of the preceding claims, characterized in that the expandable and compressible insulating body (7; 8) consists of silicone rubber. 7. Individual component according to one or more of the preceding claims, characterized in that the expandable and compressible electrical conductor (9; 10 ) is firmly connected to the conductor (3; 4) embedded in the cast resin, for example welded to it or soldered to it . 8. Individual component according to one or more of the preceding claims, characterized in that the expandable and compressible electrical conductor (9; 10) is designed as a corrugated tube. 9. Individual component according to one or more of claims 1 to 7, characterized in that the expandable and compressible conductor (9; 10) is designed as a single or multiple spiral. 10. Individual component according to one or more of claims 1 to 7, characterized in that the expandable and compressible electrical conductor (9; 10) is designed as a stranded wire. 11. Individual component according to one or more of the preceding claims, characterized by means (25; 26; 17; 18) for transferring and fixing the expandable and compressible insulating body and the conductor in a compressed state. 12. Individual component according to claim 11, characterized in that both the expandable and compressible insulating body (7; 8) and the cast resin insulation (1; 2) in the area of the joint with a clamping device, for example with by clamping screws (15; 16) connecting clamping rings (19; 20) or clamping flanges (17; 18) is equipped. 13. Individual component according to one or more of the preceding claims, characterized in that the expandable and compressible insulating body (7; 8) is equipped with devices for potential controls, preferably with elastic conductive layers or with thin-walled, coaxial metallic tubes of different lengths.