CS254957B2 - Vacuum switch - Google Patents

Abstract

1. Vacuum switch with two contacts (2, 3) projecting into a release chamber (1), which are connected via flexible leads (6, 16) to electrical terminals outside the release chamber, of which one contact (3) is fixed relative to the release chamber (1) and the other contact (2) is displaceable relative to the release chamber (1) between an open position and a closed position of the contacts (2, 3) and is pivotable relative to the contact (3) which is fixed relative to the release chamber by means of an actuating mechanism (8) coupled to a switching device, characterised in that the displacable contact (2) is fastened to a portion of the actuating mechanism (8) by a first pulling means (4) and a tensioning member (7) and in that the contact (3) that is fixed relative to the release chamber is connected to a part (14) which is fixed relative to the switch by means of a second pulling means (12) and a tensioning means (13).

Description

(54) Vacuum switch

The object of the invention is a vacuum switch with electromagnetic drive and at least one vacuum arc quenching chamber with a contact system and two contact bars that protrude therefrom and are connected by flexible connections to connection terminals, one stationary and the other movable. The movable contact bar is connected to the movable part of the switch by a first rod which is connected to the movable part of the switch by a first tensioning member. The stationary contact bar is connected by the second rod and the second tensioning member to the stationary part of the vacuum switch. The advantages are high mechanical resistance, operational reliability, simple construction and low production costs.

2S4957

The invention relates to vacuum switches, in particular to the suspension of the vacuum arc quenching chamber used therein.

Suspension of the vacuum arc quench chamber in the vacuum switch, particularly in the case of vacuum contactors, is intended to ensure their axial adjustment in the wearer of the force resultant opening or closing contacts to prevent marginal contact of the contact sheets and seizure of the movable contact in the guides.

In one of the known solutions described in the Catalog of the EMA Elester Electrical Appliances for SV5 and SV7 contactors, the external guides of the movable and fixed contacts formed in the form of pins are connected to the movable and fixed part of the vacuum switch by means of a ball joint. universal joint supporting the tilting structure.

In addition, flexible and flexible connections are fastened to the contact pins, or the flexible connections are combined with a fixed guide which ensures the connection of the contact unit to the external terminals of the vacuum switch.

The biggest disadvantage of the known vacuum switch quenching chambers of the vacuum switch is that in the operation of the vacuum switch, play occurs as a result of the friction between the individual hinge parts causing changes in parameters such as opening width and simultaneous contact closure. the switch is unable to perform its proper function.

A further disadvantage of the known solutions is their complicated design and manufacture, so that the vacuum arc quenching chamber has to be assembled from a plurality of difficult to manufacture and thus costly parts.

The above-mentioned drawbacks are eliminated by a vacuum switch comprising an electromagnetic actuator and at least one vacuum arc quenching chamber with a contact system and two contact rods that protrude out of the chamber and are connected by flexible connections to switch connection terminals, one stationary and the other movable, movable contact the rod is connected to the movable part of the switch by a first rod, according to the invention, characterized in that the first rod is connected by the first tension member to the movable part of the switch and the stationary contact rod is connected by the second rod and second tension member to the stationary part of the vacuum switch .

According to the invention, it is advantageous if both the first tensioning member and the second tensioning member are formed by threaded bushings. The rods may then preferably be formed by strands.

The advantage of suspending the quench chamber of the vacuum switch according to the invention lies in its greater mechanical resistance, which ensures that constant values of parameters such as the opening width or the simultaneous opening of the contacts are maintained and thus also the high operational reliability of the vacuum switches.

A further advantage of the solution according to the invention lies in the simple construction of the suspension, which is composed of a small number of technologically simple and thus also inexpensive elements.

The suspension of the arc switch chamber of the vacuum switch according to the invention is explained in more detail by means of one example of a particular embodiment, which is shown in longitudinal section along the longitudinal axis of the switch arc vacuum chamber, the chamber being partially shown in side view.

The vacuum interrupter chamber 1 of the vacuum switch is inter alia provided with a movable contact bar 2 and a stationary contact bar 3, the free ends of which are led to the outside of the vacuum interrupter chamber 1. The free end 4 of the movable contact bar 2 is fastened to the free end. the same screw 5 serves at the same time to screw the first flexible connection 6 to the free end of the movable contact rod 2. The second end of the first rod 4 is received in a first tensioning member 7, for example a threaded sleeve and is connected via the first nut 9 to the movable part 8 of the vacuum switch.

A hollow cylinder-shaped insert 10 is fastened to the free end of the stationary contact bar 3. On one end of the second rod 12, which may also be a cable, is mounted a support roller 11, which is supported against the inner surface of the bottom of the intermediate member 10, the second rod 12 extending through a through hole in the bottom of the intermediate member 10. it is also retained in the second tensioning member 13, which is formed, for example, by a threaded sleeve and adapted to be fixed to the stationary parts 14 of the vacuum switch by means of two second nuts 15.

The two tie rods 4, 12 are fixed in the axis of the vacuum arc quench chamber 1. A second flexible connection 16, which abuts the insert 10, is fastened to the vacuum arc quench chamber 1 by a stationary contact bar 3 and is pressed against the conductive element 17 by means of a special nut 18. which is an external conductive element.

The function of suspending the vacuum quench chamber of the vacuum switch according to the invention is as follows. In operation of the vacuum switch, due to the pulse effect, the moving part 8 of the vacuum switch is moved. This movement results in the displacement of the connection point of the first tensioning member 7 to the threaded hole of the movable part 8 in the vertical direction, corresponding to the closing and opening movements of the vacuum switch contacts, and also in the horizontal direction, which is reflected in the angular rotation of the vacuum quenching chamber 1. made possible by using, for example, cables such as 254957

6, 4, 12. By allowing both rods 4, 12 to allow a- and opening of the contacts, they ensure the correct funxial adjustment of the vacuum arc quench chamber 1 to the contact unit.

into the resultant of switching forces

Claims (2)

SUBJECT A vacuum switch comprising an electromagnetic actuator and at least one v-acuated arc quenching chamber with a contact system and two contact rods extending out of the chamber and connected by flexible connections to switch connection terminals, one of which is stationary and the other movable, movable contact the rod is connected to the movable part of the switch by the first rod, OF THE INVENTION characterized in that the first rod (4) is connected by the first tension member (7) to the movable part (8) of the switch -and the stationary contact bar (3) is connected by the second rod (12) and the second tension member (13) to the stationary the vacuum switch parts (14). Vacuum switch according to claim 1, characterized in that the first and second tensioning members (7, 13) are each formed by threaded bushings.