PL10568B1 - KL 21 c i3. Insulator for high voltage electrical cables. - Google Patents

Description

The invention relates to an insulator for high voltage electric cables which, due to its nature, can be combined with insulators of the same type to form so-called chain insulators. Insulating chains are long and must have sufficient tensile strength. A good connection in a chain of individual insulators, the mechanical and electrical resistance to breakdown of which correspond to the theoretically calculated resistance, is of great importance for the safety and operational reliability of high voltage cables. This aim is achieved by the use of the insulators of the present invention. The drawing shows a few examples of the invention. 1 shows an axial longitudinal section of the first version of the new insulator, Fig. 2, the second version of the insulator, partly in section and partly in a side view, Fig. 3 - the third version of the base of Fig. 1, with lower ends Here, the insulator casing parts, Figs. 4 and 5, show two other variants of the base of Fig. 2, with the right half of the insulator exiting, Figs. 6-8 - the insulator components in a perspective view. known in the art, heads a and covers 6, made of porcelain or barrels of another material not being an electric conductor. To attach the insulator from the top, a metal cap c is used, which is by means of a thin layer 3 of cement or similar material, placed on the head a. To attach the insulator from the bottom, a block or pin is used, which, according to the invention, consists of the upper The parts 4 and the lower 5, connected to each other by a screw 6. To transmit the tensile forces of the block, which are then applied to the chain of insulators, a force-transfer tube or a tube 7 made of porcelain or similar material, which the main property is that it fills the cavity 8 of the head and the insulator, a thin layer 9 of cement or other material for bonding is provided between the wall of this cavity and the wall of this pipe. The surface 10 of the pipe 7 has a cylindrical shape. A small space 11 is provided between the shank of the shoe 4 and the tube 7 so that when the shank is pulled out, no force can be transferred to the tube. By arranging this tube in recess 8, the tensile forces generated therein are transferred to the thin intermediate layer 9 as inherent uniformly distributed shear stresses and to the insulator heads. The radial forces and the forces which would cause bending cannot arise here in any way. Due to the ring-shaped cross-section of the block part 5, the latter has a high mechanical strength, which is sufficient even when, due to an electric current breakdown, this part would be damaged (burned out), i.e. even with such a defect the conductor it could not fall down. In the second embodiment, the block 12 is uniform and the pipe 13 is divided. The head a of the insulator and the pipe 13 are provided in a known manner with grooves 14 or 15 to the putty. The contact points 16 are either straight (Fig. 6) or wavy (Fig. 7), or the contact line has the shape of a line. 8). In the third embodiment, the pipe ii has a cone-shaped mantle with the mantle of the inclination of the mantle. As a result of this tensile force, which arises in the solid block 13, is transferred to the intermediate layer 9 and to the heads of the insulator not only as shear stresses, but also as compressive forces, while the radial forces also arising are insignificant. When assembling the insulator, the two halves of the pipe 13 are first pressed tightly against the block 12, so that the pipe 13, despite its conical shape, can be inserted into the cavity 8. Only after the insertion of the pipe is the bonding material inserted, which forms the layers 9 and 18, as well as the adhesive for the remainder of the recess 8. In the embodiment shown in FIG. 5 the base 20 is spherical in shape The particular advantage of the new insulator is that the block can be connected to the pipe carrying the force to the outside of the insulator and then these parts can be inserted together into the cavity of the insulator head without the use of significant forces, which is necessary In the case of other known construction of insulators, as a result of which, in the existing insulators, stresses arise in its porcelain part, the size of which cannot be calculated or predicted. PL

Claims (4)

Patent claims. 1. An insulator for high voltage electrical conductors, which, together with a number of the same insulators, may be joined to form a chain of insulators, characterized by a force-carrying tube made of a non-conductive material (porcelain or other). material) that fills the - 2 - expression of the insulator head, contacting the thin layer of bonding material and supports the block. 2. Insulator according to claim 1, characterized by the fact that the tube carrying the force is uniform and the block consists of two parts, bolted together, or the tube consists of several parts, and the blocks are uniform. 3. Variant of the insulator according to claim The material of claims 1 and 2, characterized in that the surface of the mantle of the force transmitting tube is cylindrical or conical in shape. 4. Variant of the insulator according to claim 1 to 3, characterized in that a space is provided between the force transmitting pipe and the block for the placement of the bonding material. Brown, Boveri & Cie Aktiengesellschaft. Deputy: Inz. Th. Raczynski, patent attorney. To the patent description No. 10568. & Z & S 'W ^^ ff3 O £ 7 pavement by L. Boguslawski, Warsaw. PL