DE10145059C1 - Multi-pole switching device provided with interchangable undervoltage release with integrated auxiliary switch operated in released position - Google Patents

Abstract

The switching device has a housing (2) containing a multi-pole contact system and a switch closure (7), having a pivoted drive lever (9) coupled to the operating lever (8) of the switching device and acting on the contact system via a knee-lever system (10). The housing has a chamber for reception of an interchangable undervoltage release acting on the switch closure, with an integrated auxiliary switch operated by the drive lever upon reaching the released position between the on position and the off position using the spring force of the closure spring (14).

Description

The invention relates to a switching device with a housing, which has a multi-pole con clock system and a switch lock, the switch lock one with a Actuating lever connected drive lever, which has a toggle lever system the contact system acts in such a way that the drive lever for closing the contact system in an "on position" and to open the contact system in an "off position" an axis of rotation is arranged pivotably and one between the "on position" and the "off position" located "triggered position", in which he by a ent Talking trigger mechanism of the key switch in the event of a malfunction the electrical system to which the switching device is connected to open the Contact system is pressed, the toggle system at least two over one Includes toggle lever axis articulated toggle lever and a lock spring, which acts between the toggle axis and the drive lever.

Such a switching device is known for example from DE 33 36 207 C3.

DE 25 18 093 B1 is a switching device with an undervoltage release known that is powered by an auxiliary switch. The auxiliary switch is not in the triggered position, but only in the exhibition actuated the drive lever of the key switch.

Furthermore, a switching device is known from EP 0 350 441 A1, which in its Ge housing a chamber for receiving one acting on a key switch interchangeable undervoltage release with integrated and by one actuation lever of the key switch has actuable auxiliary switch.

From DE 198 53 901 C1 there is also a switching device with an undervoltage release known that the in the event of voltage interruption or falling below a target voltage  Trigger mechanism of the key switch actuated so that the drive lever in its "off released position "jumps.

Finally, from EP 0 656 641 A2 a switching device with undervoltage release is known, which includes a leading auxiliary switch (VHI) (in EP 0 656 641 A2 this auxiliary switch is referred to as button 10 ). Such auxiliary switches are used for command or signal delivery of operations that are initiated before the closing or opening of the main switching elements of the switching device and also allow a switching position indicator. This publication does not contain any further information on the use of this auxiliary switch.

In switchgear, the drive lever in the presence of malfunctions in a zwi between the "off position" and the "on position", the "released position" depending on the arrangement of the toggle lever systems with respect to the axis of rotation of the drive lever, in the "triggered position" often no precisely defined location. Rather, the positions of the drive lever of Switching process to switching process and from switching device copy to switching device copy deviate from each other by a few degrees. Therefore, if the drive lever is reached when Tripped position an auxiliary switch in a precisely defined position by means of a Actuate the cam mechanically, so the problem can arise with such switching devices state that the auxiliary switch does not switch despite the tripped position being reached nale generated because the drive lever does not reach the correspondingly defined position, at which the auxiliary switch can be actuated. Even if the drive lever is not at Existing auxiliary switch in the same de when reaching the tripped position If the position is pressed, the problem can arise when using an auxiliary switch occur that the force with which the drive lever pivots into the defined position is not sufficient to mechanically operate the auxiliary switch.

The same problem occurs when the undervoltage release is at different Sizes of switchgear should be used.

The invention has for its object to a switching device of the type mentioned admit which a replaceable undervoltage release with integrated auxiliary includes switch, the auxiliary switch safely in a predetermined position of the on drive lever is actuated within the "triggered position".

This object is achieved by the features of claims 1 or 2. The subordinate discloses further, particularly advantageous refinements of the invention entitlement.

The invention is essentially based on the idea in the tripped position to allow the drive lever to act with a sufficiently large force that it is securely in pivoted its predetermined position to operate the auxiliary switch. This can z. B. done in that the axis of rotation of the drive lever and the toggle axis of are arranged that when reaching the tripped position taking into account the Spring force of the lock spring results in a torque acting on the drive lever, which is sufficient to the drive lever against the pressure of the actuator of Push auxiliary switch into its defined position.

However, such an embodiment of the invention has the disadvantage that the Switchgear and the associated undervoltage release each by constructive Measures must be adapted to each other, so that taking into account all further interface parameters a correspondingly large torque from the drive lever can be applied. Therefore, one changes the size of such a switch device (of the same switchgear series), the dimensions usually also change of the associated voltage release.

In a further embodiment of the invention it is provided that the pivoting of the drive lever by at least one additional elastic element, which the drive lever against the pressure of the mechanical actuator of the auxiliary  pushes or pulls the switch into the defined position.

This solution has the advantage that the same undervoltage release for under different sized switchgear of the same series can be used. Because by the corresponding Choosing choice of the elastic element and regardless of the relative distance between between the rotary and toggle levers can always be reached, the drive lever against the pressure of the actuating element of the auxiliary switch in its defined position to press.

Tension, compression or torsion springs can be used as elastic elements become.

Of course, with a switchgear series with switchgear different Size can also be provided that a first switching device is designed so that the Swiveling movement of the drive lever due to the different position of the toggle levers axis and the axis of rotation of the drive lever is generated and that the other larger and / or smaller switching devices are equipped with an additional spring to the An to pivot the drive lever into its defined position.

Further details and advantages of the invention will become apparent from the following exemplary embodiments explained by figures. Show it:

Fig. 1 shows the schematic longitudinal section through a first embodiment of a switching device according to the invention with the drive lever in its tripped position, the axis of rotation and the toggle lever axis being arranged in such a way that there is a torque which is sufficient to press the drive lever into its defined position ;

. Fig. 2 is a Figure 1 corresponding schematic longitudinal section through a second embodiment of a switching device according to the invention, wherein an auxiliary spring for locating the drive lever in the Tripped position is used;

Fig. 3 is a perspective view of an encapsulated undervoltage release with leading auxiliary switch (VHI) and

Fig. 4, the upper part of a switching device according to the invention with built-in undervoltage release, as shown in Fig. 3.

In Figs. 1 and 2 is designated with a housing 2, 1 indicates a switching device, in which a non-illustrated, with bus bars 4, 5 connected multipole contact system and in its upper housing section 6, a switching mechanism 7 with a not shown in a lower housing part 3 ( located in front of the image plane) undervoltage release.

The switch 7 has a drive lever 9 connected to an actuating lever 8 , which acts via a toggle lever system 10 on the contact system, such that the drive lever 9 to close the contact system in a designated I "on position" and to open the contact system is arranged to be pivotable about an axis of rotation 11 in an “off position” labeled “0”. In Figs. 1 and 2, the An is operating lever 9 and hence also the operating lever 8 in a between the "on" position and the "off position" located "Tripped" position, in which it in the presence of a malfunction of the Electrical system, to which the switching device 1 is connected, is pressed by a trigger mechanism (activated by the undervoltage release or by other triggering means), not shown, of the switch lock 7 to open the contact system.

The toggle lever system 10 has two toggle levers articulated to one another via a toggle lever axis 12 , of which only the lower toggle lever 13 acting on the contact system is shown for reasons of clarity. In addition, the Kniehe lever system 10 includes a lock spring 14 which engages between the toggle lever axis 12 and the drive lever 9 . Since the Kippunkte of lock spring 14 to be at different positions of the pivot path during switching on and off of the switching device 1, also changed the toggle lever axis 12 in the corresponding switching processes changed its, viewed in the pivoting direction, position.

The drive lever 9 is bent (rearward) in a U-shape and has on its side facing the voltage release a plurality of switching cams 15-17 for controlling it. The switching cams designated 15 and 16 serve to actuate a control lever 18 and a trigger lever 19 (cf. FIG. 3 and the aforementioned DE 198 53 901 C1). The switching cam designated 17, on the other hand, causes the pushbutton 20 of the auxiliary switch 21 , which is designed as a pressure switch, to be actuated as soon as the drive lever 9 is in its “tripped position”.

In order to ensure that the drive lever 9 actually presses down after reaching the "triggered position" shown in FIG. 1 against the pressure of the push button 20 , the axis of rotation 11 of the drive lever 9 and the toggle lever axis 12 of the toggle lever system 10 are arranged such that taking into account the spring force of the lock spring 14, a sufficiently large moment M = aK acting on the drive lever 9 results, where K is the spring force and a the distance between the spring axis designated 22 and the axis parallel to the spring axis 22 perpendicular to the axis of rotation 11 run the axis 23 mean. By this moment M, the drive lever 9 is pivoted in the direction of arrow 100 until the predetermined position is reached.

As can be seen from FIG. 2, in this embodiment of the invention, the distance a ≅ 0 in the triggered position, so that the drive lever 9 does not automatically assume a defined position in the triggered position, but rather a little to the right or left in this position is pivotable without a restoring force acting on the drive lever 9 .

In order to ensure in this case also that the drive lever 9 reaches the defined position for actuating the auxiliary switch 21 when the extended position is reached, an auxiliary spring 24 (a tension spring in the exemplary embodiment shown) is provided, which is located on the one hand on the drive lever 9 and on the other hand, on a part fixed to the housing (e.g. the frame, within which the drive lever can be pivoted).

In Fig. 3 the embodiment of an undervoltage release 26 arranged in a housing 25 is shown, as is essentially disclosed in DE 198 53 901 C1. 18 the control lever, 19 the release lever and 27 a release slide are designated, the release slide 27 acting in a manner known per se on the release mechanism, not shown, of the key switch 7 when the drive lever 9 is in the "on position" and there is a malfunction.

In addition to the undervoltage release disclosed in DE 198 53 901 C1, a leading auxiliary switch 21 provided with a push button 20 is provided. B. with a first pair of contacts switches an electromagnet of the undervoltage release and causes a switching position indicator with a second pair of contacts.

This undervoltage release 26 should preferably be used for devices of different sizes 1 without having to change the size of who must.

A corresponding switching device 1 (without a lower housing part) is shown in FIG. 4. The same parts as they were used in the game Ausführungsbei shown in Figs. 1-3 are provided with the same reference numerals.

As can be seen from FIG. 4, the housing 2 of the switching device 1 has in particular a chamber 28 for the undervoltage release 26 acting on the switching lock 7 .

The invention is of course not limited to the illustrated embodiments be. For example, in the case of the auxiliary spring 24 used in FIG. 2, a correspondingly arranged compression spring, a pivot spring or another suitable elastic element can be used instead of a tension spring.

LIST OF REFERENCE NUMBERS

1

switchgear

2

casing

3

lower housing part

4

.

5

busbars

6

upper housing part

7

switch lock

8th

actuating lever

9

drive lever

10

Toggle system

11

axis of rotation

12

Toggle axis

13

(lower) toggle

14

lock spring

15-17

switching cams

18

control lever

19

sear

20

Push button, actuator

21

(leading) auxiliary switch (VHI)

22

spring axis

23

axis

24

Auxiliary spring, elastic element

25

casing

26

Undervoltage release

27

trip slider

28

chamber

100

arrow

Claims (3)

1. Switching device with a housing ( 2 ) which comprises a multi-pole contact system and a switch lock ( 7 ), the switch lock ( 7 ) having a drive lever ( 9 ) connected to an actuating lever ( 8 ), which has a toggle lever system ( 10 ) acts on the contact system in such a way that the drive lever ( 9 ) for closing the contact system in an "on position" and for opening the contact system in an "off position" is pivotably arranged about an axis of rotation ( 11 ) and a between Has the "on position" and the "off position""trippedposition", in which it is activated by a corresponding trigger mechanism of the switch lock ( 7 ) when there is a malfunction of the electrical system to which the switching device ( 1 ) is connected, is pressed to open the contact system, the toggle lever system ( 10 ) having at least two toggle levers ( 13 ) articulatedly connected to one another via a toggle lever axis ( 12 ) and a lock spring it comprises ( 14 ), which acts between the toggle lever axis ( 12 ) and the drive lever ( 9 ), with the features:

• a) the housing ( 2 ) of the switching device ( 1 ) has a chamber ( 28 ) for receiving an interchangeable undervoltage release ( 26 ) acting on the switch lock ( 7 ) with integrated and through the drive lever ( 9 ) of the switch lock ( 7 ) in a defined position within the "triggered position" actuatable auxiliary switch ( 21 ),
• b) the axis of rotation ( 11 ) of the drive lever ( 9 ) and the toggle lever axis ( 12 ) are arranged in relation to one another in such a way that when the tripped position is reached, the spring force of the lock spring ( 14 ) is taken into account, a lever ( 9 ) acting torque results, which is sufficient to press the drive lever ( 9 ) against the pressure of an actuating element ( 20 ) of the auxiliary switch ( 21 ) in its defined position.

2. Switchgear with a housing ( 2 ) which comprises a multi-pole contact system and a switch lock ( 7 ), the switch lock ( 7 ) having a drive lever ( 9 ) connected to an actuating lever ( 8 ) which has a toggle lever system ( 10 ) acts on the contact system in such a way that the drive lever ( 9 ) for closing the contact system in an "on position" and for opening the contact system in an "off position" is pivotably arranged about an axis of rotation ( 11 ) and a between Has the "on position" and the "off position""trippedposition", in which it is activated by a corresponding trigger mechanism of the switch lock ( 7 ) when there is a malfunction of the electrical system to which the switching device ( 1 ) is connected, is pressed to open the contact system, the toggle lever system ( 10 ) having at least two toggle levers ( 13 ) articulatedly connected to one another via a toggle lever axis ( 12 ) and a lock spring it ( 14 ), which acts between the toggle lever axis ( 12 ) and the drive lever ( 9 ), with the features:

• a) the housing ( 2 ) of the switching device ( 1 ) has a chamber ( 28 ) for receiving an interchangeable undervoltage release ( 26 ) acting on the switch lock ( 7 ) with integrated and through the drive lever ( 9 ) of the switch lock ( 7 ) in a defined position within the "triggered position" operated auxiliary switch ( 21 ),
• b) in the switching lock ( 7 ) at least one on the drive lever ( 9 ) engaging elastic element ( 24 ) is provided, which pivots the drive lever ( 9 ) in the "released position" into the defined position.

3. Switching device according to claim 2, characterized in that it is in the elastic rule's ( 24 ) is a tension, compression or torsion spring, the first end of the drive lever ( 9 ) and the second end of the fixed part of the Switch lock ( 7 ) is arranged.