CZ276196A3 - Control device for vacuum power switches, particularly for switch with three poles - Google Patents

Abstract

In a known drive arrangement in which the switching-off process is initiated after actuation, for example, of an electromagnet by a pin secured to an "off"-trigger shaft as a result of rotation of the latter, thereby enabling a roller of the switching lever to run past the "off"-trigger shaft, the switching-off process occurs when the switching lever has rotated back and the articulated lever systems have moved out of the extended position. However, as the switching lever moves past, it strikes the "off"-trigger shaft. In order to reduce the resultant wear of the "off"-trigger shaft (6) and to actuate the wiping contact (11') associated with the "off"-trigger shaft (6) only during the switching-off process, so as to attain an even greater number of switching cycles, the switching lever (1) has a circular segment (7) with the peripheral surface (9) of which the "off"-trigger shaft (6) is operationally connected in any position of the switching lever (1). Detachably mounted on the "off"-trigger shaft (6) is a trigger bar (11) for connecting and disconnecting a wiping contact (11'). The drive arrangement can also be used for small oil-volume power circuit breakers.

Description

(57)

In a known device in which the tripping process is triggered, for example, by an electromagnet and a pin connected to the tripping shaft (6), thereby allowing the pulley of the closing lever (1) to pass the tripping shaft (6), the tripping process is initiated by the closing lever (1) reverses and the toggle assembly (20) reverts back from the extended position. However, when the closing lever (1) passes the opening shaft (6), it always hits it. In order to reduce the high wear of the cut-off shaft (6) and to switch on the wiper (11) associated with the cut-off shaft (6) only during the cut-off process so as to increase the number of possible switching cycles an annular segment (7) with a peripheral surface (9), with which a trip shaft (6) is operatively connected in each position of the closing lever (1). A trigger yoke (11) is detachably connected to the cut-off shaft (6) for engaging and disengaging the wiper (11). The control device can also be used for low-power circuit breakers.

Control devices for vacuum power switches, in particular for a three-pole switch

Technical field

BACKGROUND OF THE INVENTION The invention relates to a control device for vacuum power switches, in particular to a three-pole switch, in which a cam disk is connected to the engagement shaft connected to a tension spring formed by a tension spring. is rotated about 180 ° and is operatively coupled to the guide lever of the engaging lever such that when the engaging lever is rotated about the center of rotation, the knee-lever assembly of the first switch pole is pushed into an upright position, the engaging lever being provided with a second guide roller mounted thereon; as a result of the spring force in the region of the half part of the cut-off shaft, which is subjected to a direct-action spring, it first passes without engagement outside the half part of the cut-off shaft and after reversing the closing lever parts of the release shaft.

BACKGROUND OF THE INVENTION

In the case of electrical switchgear, in particular high-voltage power switches, it is particularly important that the switchgear and the switchgear and switchgear operate unequivocally. The prerequisite for this is, among other things, that the control device ensures its perfect readiness when the electro2 magnet is switched on or when the corresponding button is pressed. Due to the design of this device, it is also important to allow a large number of switching cycles. A number of embodiments of control devices are known which meet these requirements. By way of example, the apparatus of EP 0 450 194 A1 and EP 0 521 585 A1 may be mentioned.

In another known three-pole power vacuum switch control device, which is partially published in the brochure Holec Vacuum Circuit Breakers 3994.047 / E 3.10.1-1-103-20-TP-GP, after switching on the electromagnet or pushbutton, this device is first rotated with a pin which is connected to the start shaft. In this case, the closing shaft is designed as a half-shaft in its central part and is here in connection with a latch pivotally mounted on the rear wall of the power vacuum switch. While the latch is released as a result of this functional connection, a second latch arranged on the actuating shaft is also released, the actuating spring acting as a tension spring acting on the actuating shaft. This means, however, that the closing shaft on which the eccentric is arranged starts to rotate. This also, however, also rotates by about 180 [deg.], Mounted on the actuating shaft, which in turn presses the actuating pulley of the actuating shaft, thereby rotating it around the center of rotation while pushing the knee-lever assembly of the first switching pole into an upright position. When the knee-lever assembly is pushed into the upright position, the second and third switching poles are also pushed into the upright position by two switching rods. In this way, conditions are created to ensure switching by means of an articulated part assigned to each switching pole and also by a switching cradle assigned to each pole of the switch. As soon as it is engaged, the closing lever is locked by the action of a guide pulley, also mounted on the switching lever, which passes around the region of the half part of the release shaft, which in this case rotates against the force of the directive spring. After passing the guide pulley, the switching lever is rotated and the guide pulley hits the half-section of the cut-off shaft, thereby blocking the switching process.

In this known device, the switching-off process is switched on again by means of an electromagnet or a button. By means of these, a pin mounted on the cut-off shaft rotates the shaft so that the guide pulley can pass the cut-off shaft. As a result, the switching lever can be turned back and the knee-type assemblies will return from the upright position. As a result, the switching cradles can rotate and are switched off as a result of the action of the release compression springs associated with the movable contact of each of the three switching poles which are tensioned during each switching process.

With this known control device for power vacuum switches, switching on and off is clearly provided and predetermined switching cycles are achieved.

However, the stop shaft is worn considerably when the switching lever is hit on the trip shaft.

The control of the wiper associated with the cut-off shaft, which is necessary for giving a signal during the switching operation, occurs both during the switch-on and the switch-off.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION It is an object of the present invention to provide a control device for power vacuum switches, in particular for a three-pole switch, in which a bending disk is operatively connected to the closing lever guide pulley. shaft. This modification of the cut-off shaft allows the cut-off lever to pass without hitting the cut-off shaft, which would increase its wear and, moreover, the wiper associated with the cut-off shaft should only be operated during the cut-off process. With this embodiment, a vacuum switch is provided, allowing even more switching cycles.

This is achieved by the solution according to the invention, in which the closing lever has an enlarged part formed as a circular segment above its pivot point, on the side facing the trip shaft, with the trip shaft in each position of the closing lever, even when it is locked In the condition, it is in functional connection with the circumferential surface of the circular segment, and on the trip shaft is a trigger yoke which is detachable from the trip shaft for engaging and disconnecting the wiper, to which a stop element is rotated. release of the closing lever.

Now that the cut-off shaft rests on the circumferential surface of the ring segment in any position it occupies, regardless of whether the cut-off lever is in the cut-in or cut-out position, the cut-off lever does not impact the cut-off shaft. the closing lever passage occurred. As a result, the cut-off shaft no longer constitutes a part subject to increased wear in the control device, thereby creating conditions at this point of the control device to increase the number of switching cycles up to 40,000. In this case, it is advantageous if the second guide pulley provided with the closing lever is arranged in the upper part of the circumferential surface of the ring segment, which contributes to the fact that only a slight frictional friction on the circumferential surface of the ring segment of the engaging lever resistance.

On the other hand, the wiper associated with the cut-off shaft is also less stressed, for example by means of a starter yoke mounted on the cut-off shaft and detachable from the cut-off shaft in order to switch the wiper contact on and off. with the shaft, it is achieved that the wiper is only actuated during the cut-off process. Thus, the wiper contact load for signal transmission is reduced by half, which has a fairly favorable effect on the high number of switching cycles and on the long service life of the vacuum switch with the control device according to the invention.

In a further embodiment of the invention, the releasably arranged trigger bracket is rotatably mounted on the shutter shaft on the shutter shaft, the shutter shaft being rotatably mounted both in the intermediate wall and in the front wall of the vacuum switch. In this case, the trigger yoke on its upper side facing the pivot point of the closing lever is provided with a recess in which an electromagnet or a button for actuating the trigger yoke engages, which provides a secure guide when the trigger yoke is pressed downwards. The lowering bracket is connected to the recess on the side opposite the recess, which is fixed below the lowering bracket, preferably on the intermediate wall of the power vacuum switch, ensuring that the lowering bracket is returned to its initial position by the tensioning spring when the electromagnet or the trigger caliper control button no longer fits into its recess.

Of course, any design element suitable for engaging the stop member that engages the region of the half portion of the cut-off shaft is suitable so that when the trigger yoke mounted on the cut-off shaft is rotated, to turn the cut-off shaft to perform the cut-off process. It has been shown that a pin in the radial direction connected to the cut-off shaft is advantageous for this purpose.

Finally, it is also suitable and also affects the reduced wear of the components of the actuating device when the bearing of the knee-lever assembly which is connected to the closing lever is a rolling bearing, the lower part of the knee-lever assembly being directly formed by the closing lever.

BRIEF DESCRIPTION OF THE DRAWINGS

An exemplary embodiment of the invention is shown in the drawings, wherein FIG. 1 is a side view of the actuator in the on-lever region that is in the on position; 3 is a top view of a trigger yoke arranged on the release shaft of the actuator.

DETAILED DESCRIPTION OF THE INVENTION

As can be seen from FIG. 1, the closing lever 1 is pivoted about its pivot point 2 with its central part and in its upper part there is a guide roller 2 which during engagement process engages with a cam disk 5 arranged on the closing shaft A On the side facing the cut-off shaft 6, the closing lever 2 has an enlarged portion formed by a circular segment 2.

As can also be seen from FIG. 2, the cut-off shaft 6, with its selected half portion 2, rests in each position of the cut-off lever 1 on the peripheral surface 3 of the ring segment 2 so that the cut-off lever 1 is disengaged from the cut-off shaft. In this case, the cut-off shaft 4 in the on position of the cut-off lever 1 rests on a second guide roller 10 arranged in the upper part of the peripheral surface 3 of the ring segment 2 so that the cut-off lever 1 is locked.

As can be seen from FIG. 3, a trip yoke 22 is mounted on the trip shaft 6, which is detachable from the trip shaft 6 to turn the wiper 11 'on and off. This disconnection is achieved so that the trigger yoke 11 is rotatably mounted on the shafts 12 of the cut-off shaft, the cut-off shaft 6 being rotatably mounted in the intermediate wall 13 as well as in the front wall 14 of the vacuum switch. A stop element 15 formed by a pin is connected to the cut-off shaft 6, which strikes the trigger yoke 11 in the event that the electromagnet 11 hits the recess 16 of the trigger yoke 11 in the cut-out process. In this way, the trigger yoke 11 on the release shaft 2 is rotated against the force of the tension spring 12 mounted on the intermediate wall 13. and, by means of the stop element 15, carries with it the release shaft 2, which is also rotated, thereby unlocking the release lever 2. unlocking, the released lever 1 swings around the pivot point 2 to the position shown in FIG. 2. The lower portion 12 of the lever 1, together with the second lever 19, forms a knee-type assembly 20 in which the second lever 19 is mounted at the pivot point 21 with which The guide lever 22 is engaged at a pivot point 23 and is connected via a rolling bearing 24 to a switching bar 25 of a toggle assembly 20 of an adjacent switch pole. This connection by means of the switching rod 22 is also made at the third pole of the switch. With this embodiment it is ensured that when the closing lever 1 is unlocked via the trip shaft 2, all three poles of the switch are switched off at virtually the same time.

After releasing the trigger yoke 11 by the solenoid 11, the trigger yoke 11 returns to the position shown in FIG. 2 by means of the tension spring 17. However, this means that in the following switching process, when the closing shaft 4 is rotated 2, to the position shown in FIG. 1, that is to say the switch-on position, and despite the rotation of the switch-off shaft 6, it is not actuated lowering yoke XX. This also ensures that the wiper function 11 'does not start when the switch is switched on.

Claims (7)

PATENT CLAIMS A control device for a power vacuum switch, in particular for a three-pole switch, in which a curve disc is connected to a start shaft connected to a start spring formed by a tension spring, the curve disc rotates upon start of the switching function about 180 ° and is operatively coupled to a guide lever guide pulley such that when the guide lever is rotated about the pivot center, the knee-lever assembly of the first switching pole is compressed into an upright position, the guide lever being provided with a second guide pulley mounted thereon. the spring force in the region of the half part of the cut-off shaft, which is subjected to the force of the direct spring, first passes without engagement outside the half part of the cut-off shaft and after reversing the closing lever characterized in that the closing lever (1) above its pivot point (2) on the side facing the tripping shaft (6) has an enlarged portion formed by a circular segment (7), wherein the tripping shaft (6) in each closing lever position (1), even in its locked state, is in operative connection with the peripheral surface (9) of the ring segment (7), and a release bracket (11) is mounted on the trip shaft (6) for engaging and disengaging the wiper ( ¹ ) detachable from the cut-off shaft (6) to which the stop element (15) is connected to rotate the cut-off shaft (6) by its half portion (8) to the position necessary to release the cut-off lever (1). Control device according to claim 1, characterized in that the trigger bracket (11) is rotatably supported on the pins (12) of the cut-off shaft (6), the cut-off shaft (6) being mounted so as to rotate as in the intermediate wall (13). as well as in the front wall (14) of the vacuum switch. Control device according to Claim 1 and 2, characterized in that on its upper side facing the pivot point (2) of the closing lever (1), the trigger bracket (11) is provided with a recess (16) into which the electromagnet (11) engages. or the trigger calliper control button (II). Control device according to one of Claims 1 to 3, characterized in that the lowering bracket (11) is connected on the side opposite to the recess (16) with a tension spring which is fixed below the lowering bracket (11), preferably on a partition wall (13). ) of the vacuum power switch. Control device according to Claims 1 to 4, characterized in that a stop element (15) connected to the cut-off shaft (15). 6) provided with a half portion (8) is a pin. The control device according to claim 1, characterized in that the second guide roller (10) provided with the closing lever (1) is arranged at the top of the peripheral surface (9) of the circular segment (7). Control device according to claim 1, characterized in that the bearing of the toggle assembly (20) which is connected to the closing lever (1) is a rolling bearing, the lower part (18) of the toggle assembly (20) being directly formed by the closing lever (1).