RU57210U1 - DISCONNECTOR - Google Patents

Abstract

The utility model relates to the field of electrical engineering and can be used, for example, in high voltage disconnectors. The essence of the utility model consists in the fact that in the known pantograph type disconnector containing a folding contact knife and a contact knife mechanism consisting of a drive mechanism, output shafts and a spring mechanism fixed to the output shafts using levers, said spring mechanism comprises a compression spring. To increase the force generated by the spring mechanism, another inner spring can be installed inside the outer compression spring. In addition, to increase the moments that rotate the output shafts of the contact knife mechanism, two spring mechanisms containing compression springs can be installed. The implementation of the pantograph disconnector in a similar way improves the reliability of this disconnector.

Description

The utility model relates to the field of electrical engineering and can be used, for example, in high voltage disconnectors.

Known pantograph type disconnector (ABB catalog "Single-Column Pantograph Disconnectors Type TFB 123-550 kV", 2002, p. 4), comprising a folding contact knife and a contact knife mechanism consisting of a drive mechanism, output shafts and a spring mechanism fixed to the output shafts using levers. The spring mechanism in this disconnector comprises a tension spring with hooks of the support turns.

Along with the known advantages, the specified disconnector has the following disadvantages: increased voltage of the support turns (torsion with bending) compared with the working turns (torsion) and, as a consequence, a decrease in the reliability of the disconnector.

The objective of this utility model is to create a pantograph disconnector, free of these shortcomings.

The solution to this problem is achieved by the fact that in the well-known pantograph type disconnector containing a folding contact knife and a contact knife mechanism consisting of a drive mechanism, output shafts and a spring mechanism fixed to the output shafts using levers, said spring mechanism comprises a compression spring. To increase the force generated by the spring mechanism, another inner spring may be installed inside the outer compression spring. In addition, to increase the moments rotating the output shafts of the contact knife mechanism, two spring mechanisms containing compression springs can be installed.

In Fig.1 shows a pantograph-type disconnector in the "on" position; figure 2 - the mechanism of the contact knife, the main view; figure 3 is the same as in figure 2, a top view, in section; figure 4 - spring mechanism in the position of the disconnector "on", figure 5 - the same as in figure 4, in the position of the disconnector "off", figure 6 - spring mechanism containing

compression spring outer and inner, located inside the outer; 7 is a contact knife mechanism containing two spring mechanisms.

The pantograph-type disconnector comprises a folding contact knife 1 and a contact knife mechanism 2, which consists of a driving mechanism 3, output shafts 4, 5 and a spring mechanism 6. The spring mechanism 6 is fixed to the output shafts 4 and 5 of the contact knife mechanism 2 using levers 7 and 8 and comprises a compression spring 9, a support disk 10 fixed to the casing 11, a rod 12 and a disk 13 fixed thereto. The spring 9 can be made of two parts connected in series through an intermediate disk 14. The spring mechanism is secured in is completed with the help of the rod 12 and the lever 7 to the output shaft 4, as well as the axles 15 of the casing 11 and the lever 8 to the output shaft 5. To increase the force generated by the spring mechanism 6, a spring 16 can be installed inside the spring 9. To increase the moments of rotation output shafts of the contact knife mechanism, two spring mechanisms 6 containing compression springs can be installed.

When operating with a disconnector, deformation of the springs 9 and 16 occurs, the working and supporting coils of which experience torsional stress, unlike analogues, where the working coils also experience torsional stress, and the supporting coils (hooks) of torsion and bending simultaneously. Reducing stresses in the support coils of the springs increases the reliability of these springs and, as a result, the entire disconnector as a whole.

The use in the pantograph type disconnectors of a spring mechanism fixed to the output shafts of a contact knife mechanism containing a compression spring increases the reliability of these disconnectors.

Currently, pantograph-type disconnectors have been developed in which the spring mechanisms are fixed with levers to the output shafts of the contact knife mechanism and contain compression springs: external, external and internal. These disconnectors were tested for rated voltages of 330 and 500 kV with one and two spring mechanisms. The tests performed showed high reliability in the operation of these disconnectors.

Claims (4)

1. A pantograph-type disconnector comprising a folding contact knife and a contact knife mechanism, consisting of a drive mechanism, output shafts and a spring mechanism fixed to the output shafts using levers, characterized in that said spring mechanism comprises a compression spring. 2. The disconnector according to claim 1, characterized in that the spring mechanism comprises two compression springs connected in series. 3. The disconnector according to claim 1, characterized in that the spring mechanism comprises external and internal springs located inside the external. 4. The disconnector according to claim 1, characterized in that the contact knife mechanism comprises more than one spring mechanism.