RU94760U1 - SWITCH-DISCONNECTOR - Google Patents

Abstract

 A switch-disconnector comprising a multisectional insulating casing, fixing panels tightened with the indicated sections of the insulating casing by means of pins, fixed contacts installed in the sections of the insulating casing, arcing chambers, a fixing mechanism and a control shaft connected to the handle passing through the sections of the insulating casing, blocks of movable contacts are installed in the through holes of the control shaft, each of which is made of two parallel contacts, spring-loaded infused springs, characterized in that the movable contacts are assembled into the block by fixing cylindrical protrusions in concentric openings on the mating surfaces of the parallel contacts, a selection is made on the side surface of each parallel contact fixing the central position of the movable contacts on the tides in the through holes of the control shaft, each the leaf spring is made by a curved contour with a flat central section with the possibility of self-installation on the stops in through the holes of the control shaft, and the flat section of the leaf spring has a groove, and the emphasis is made with a protrusion matching the shape of the specified groove, in addition, the control shaft is equipped with two brackets that exclude the longitudinal movement of the control shaft in sections of the insulating casing.

Description

The utility model relates to electrical engineering, in particular, to low-voltage switch-disconnectors designed to turn on, pass and turn off AC and DC current in electric power distribution devices and turn off electric motors.

The closest analogue of the proposed switch-disconnector is a switch-disconnector (patent for utility model RU No. 52519 U1, CL. Н01Н 21/02, 2006.03.27) containing a multi-section insulating casing, mounting panels strapped with the indicated sections of the insulating casing by means of studs, and fixed contacts, interrupter chambers, a fixing mechanism and a control shaft connected to the handle and passing through sections of the insulating casing, also installed in through holes of the control shaft guide blocks mounted movable contacts, consisting of two parallel contacts, spring-loaded leaf springs. The device is turned on and off by a handle that is connected to the shaft.

The disadvantages of the known technical solutions include the following:

- the unreliability of fixing blocks of movable contacts in the through holes of the control shaft leads to a weakening of contact pressing during operation of the known device;

- the complexity of the design of the movable contacts leads to an increase in material consumption.

The task to which this technical solution is directed is the creation of a switch-disconnector used to turn on, pass and disconnect AC and DC current, ensuring stable operation and reliability, due to the hard fixation of moving contacts in the through holes of the control shaft, which has a simpler design, less material and labor-intensive manufacturing, due to a significant reduction in the number of parts of the movable contact.

The task is achieved by the fact that in the switch-disconnector containing a multi-sectional insulating casing, mounting panels strapped to the indicated sections of the insulating casing by means of studs, as well as fixed contacts installed in the sections of the insulating casing, the control shaft connected to the handle and passing through the sections insulating housing and the locking mechanism of the control shaft, while in the through holes of the control shaft installed blocks of movable contacts, consisting of and h two parallel contacts, spring-loaded leaf springs.

What is new is that the movable contacts are assembled into a block by fixing cylindrical protrusions in the holes concentrically located on the mating surfaces of the parallel contacts. A sample was made on the side surface of each parallel contact, fixing the central position of the movable contacts on the tides in the holes of the control shaft. The leaf springs are made by a curved contour with a flat section in the central part with the possibility of self-installation on the stops in the through holes of the control shaft, while the flat section of the leaf spring has a groove, and the emphasis is made with a protrusion matching in shape with the specified groove. In addition, the control shaft is equipped with two brackets, excluding its longitudinal movement in sections of the insulating casing.

A useful model, due to the fact that the movable contacts are assembled into the block by fixing cylindrical protrusions in the holes concentrically located on the mating surfaces of the parallel contacts, a selection is made on the side surface of each parallel contact that fixes the central position of the moving contacts on the tides in the holes of the control shaft, this leaf springs are made by a curved contour with a flat central section with the possibility of self-installation on the stops in the holes of the control shaft, while the flat section of the leaf spring has a groove, and the emphasis is made with a protrusion matching the shape of the specified groove, and also due to the fact that the control shaft is equipped with two brackets, eliminating its longitudinal movement in sections of the insulating housing increases reliability and stability operation of the switch-disconnector, the design is greatly simplified and material consumption is reduced in comparison with the closest analogue.

The essence of the claimed utility model is illustrated by drawings:

figure 1 shows a General view with a cross section of a switch-disconnector;

figure 2 shows the control shaft side view with a section aa and bb;

figure 3 presents the image of the movable contacts in a perspective view;

figure 4 shows a section aa of figure 2;

figure 5 shows a section bb In figure 2.

The housing of the switch-disconnector is made of multi-section, for example, of sections 1, 2, 3. In the grooves of the mating surfaces of the sections 1, 2, 3, fixed contacts 4 and arc chambers are fixed 5. A control shaft passes through all sections 1, 2, 3 of the insulating casing 6 with a handle 7. At the ends of the multi-sectional insulation casing of the switch-disconnector, mounting panels 8 are mounted, pulled together with sections 1, 2, 3 of the insulation casing by means of studs 9. In the through holes (not marked) of the control shaft 6 are installed blocks of movable contacts 10 (see figure 1).

The number of sections of the insulating casing corresponds to the number of poles of the switch-disconnector plus one section, for example 3 (see Fig. 1), in which the locking mechanism (not shown) of the switching positions of the control shaft 6 is located.

The block of movable contacts 10 consists of two parallel contacts 11, spring-loaded with leaf springs 12. The movable contacts 11 are assembled into a block by fixing cylindrical protrusions 13 in the holes 14 concentric with them, which are located on the mating surfaces A of each parallel contact 11 (see Fig. 2 , 3). Sample B on the side surface of each parallel contact 11 fixes the central position of these contacts on the tides (not indicated) in the through holes of the control shaft 6 (see figure 4). The leaf springs 12 have a curved contour with a flat section in the central part with a groove 15. In the through holes of the control shaft 6 there are stops 16 with protrusions (not indicated). Parallel contacts 11, spring-loaded with leaf springs 12, are fixed in the holes of the control shaft 6 by self-installing the leaf spring 12 with a flat section on the stop 16, while the protrusion of the stop 16 enters the groove 15 on the flat section of the leaf spring 12 (see Figs. 1, 2, 3).

To exclude the longitudinal movement of the control shaft 6 in sections 1, 2, 3 of the insulating casing, the control shaft 6 is equipped with two brackets 17 (see Fig. 2, 5).

The device operates as follows. The switch-disconnector is turned on and off by the handle 7. When the switch-disconnector is turned on by the handle 7, connected to the control shaft 6, the blocks of movable contacts 10 installed in the through holes of the shaft 6 are rotated around the axis of the control shaft 6 to the stop in the concentric groove stops made in the mounting panels 8 (on the handle side). The fixed contacts 4 enter between two parallel contacts 11. The complete connection of the contacts is fixed by the locking mechanism 17, which is accompanied by a characteristic click of the lock stopper. When the handle 7 is rotated in the opposite direction, the fixed contacts 4 exit the blocks of the movable contacts 10, and the electric circuit is disconnected. The off position is also fixed by the locking mechanism, which is accompanied by a characteristic click of the lock stopper.

Claims (1)

A switch-disconnector comprising a multisectional insulating casing, fixing panels tightened with the indicated sections of the insulating casing by means of pins, fixed contacts installed in the sections of the insulating casing, arcing chambers, a fixing mechanism and a control shaft connected to the handle passing through the sections of the insulating casing, blocks of movable contacts are installed in the through holes of the control shaft, each of which is made of two parallel contacts, spring-loaded infused springs, characterized in that the movable contacts are assembled into the block by fixing cylindrical protrusions in concentric openings on the mating surfaces of the parallel contacts, a selection is made on the side surface of each parallel contact fixing the central position of the movable contacts on the tides in the through holes of the control shaft, each the leaf spring is made by a curved contour with a flat central section with the possibility of self-installation on the stops in through the holes of the control shaft, and the flat section of the leaf spring has a groove, and the emphasis is made with a protrusion matching the shape of the specified groove, in addition, the control shaft is equipped with two brackets that exclude the longitudinal movement of the control shaft in sections of the insulating casing.