EP2463881A1 - Electric switch - Google Patents

Abstract

The device i.e. power switch (10), has a rocker arm (16) and a latch moved translatory between two end positions and arranged at a control side (11) of the device. A rotary drive (30) has an axis (32) arranged vertically to the control side of the device and a fork (35), a lever and a pin for the rocker arm and the latch effectively connected with the axis. A retainer is provided for the rotary drive such that the rotary drive is integrated into the device. The fork, the lever and the pin of the rotary drive is pivotably mounted at the axis of the rotary drive.

Description

The invention relates to an electrical, in particular electromechanical switching device with rotary drive.

Electromechanical switching devices, e.g. Circuit breakers or circuit breakers often have a rocker arm connected to a shift gate that moves between an ON and an OFF position. The rocker arm is connected via the switching gate of the switching mechanism with the movable switching contacts of the circuit breaker by a spring-loaded toggle lever assembly which opens the contacts and brings the rocker arm depending on certain trigger conditions in an overcurrent in a TRIPLE position. The switching on and off is done in these switching devices by a movement of the rocker arm about a switching axis of the switching device, the radius of this movement is so large and the angle between the two maximum positions OFF and ON is so small that the movement to be executed for switching between them Positions is substantially translational. Such switches are known in the art and are available in a variety of ways on the market.

Market requirements relate to switching devices described above, but which should be switched on or off with a rotational movement. Even such devices are widely available in the market from many manufacturers.

In order to limit the variety of variants, it is advantageous from the manufacturer's point of view if both operating forms can be implemented with one and the same basic device. From the customer's point of view, a subsequent, cost-effective conversion of an existing switching device from the essentially translational to the rotational movement is desirable. The required installation space should not be increased.

From the DE 43 22 215 A1 a circuit breaker is known, which allows as a basic unit actuation via a rocker arm with a substantially translational movement as described above. On the device, a rotary drive can be placed, which has a rotary handle and a housing. In this case, the housing of the rotary drive is cuboidal and has a form-fitting on the switch housing on the rocker housing bottom, of the two bearing cheeks with coaxially oriented bearing elements are angled parallel to each other and are pivotally mounted on correspondingly formed rotary bearings on the switch housing. The rotary drive is expensive to manufacture and a correspondingly upgraded switching device requires a larger installation space than the essentially translationally to be switched basic unit.

The DE 10 2006 001 404 B3 also discloses a rotary actuator for a toggle lever electric switch. A rotatably mounted, formed as a frame or bracket operative connection actuates the rocker arm. About a driver assembly between a guided in a mounting plate shaft and the operative connection of the rocker arm and thus the lock of the switching device in the positions ON and OFF can be actuated. Also, this rotary drive is expensive to manufacture. The required installation space of a retrofitted with this system switching device also requires a larger installation space than the essentially translational to be switched basic unit.

It is an object of the invention to provide a retrofittable with a rotary drive, to be switched substantially translationally switching electrical switching device, which is inexpensive to produce and does not require compared to the substantially translationally actuated basic unit enlarged installation space.

According to the invention, this object is achieved by a device having the features of independent claim 1. Advantageous embodiments of the device will become apparent from the dependent claims 2 to 7.

The invention proposes an electrical switching device which can be operated with a control element that is movable in a substantially translatory manner between two end positions and an operating element arranged on a front side of the switching device, wherein the electrical switching device with a rotary drive from the substantially translational operating movement to a rotary operating movement can be converted, and wherein the rotary drive has a first axis which is arranged substantially perpendicular to the operating side of the switching device, and a drive member operatively connected to the first axis for the operating element with a To provide a receptacle for the rotary drive, so that the rotary drive can be integrated into the switching device. As a result, the required installation space of the device remains the same regardless of whether it can be switched translational or rotary. A rotary drive as a corresponding, installable in the recording of the switching device module is inexpensive to produce from a few parts.

In a preferred embodiment, the rotary drive on a driver member for the operating element, which is pivotally mounted about the first axis of the rotary drive. The rotary drive can be built very compact. It can be installed in the basic unit from the operating side if the basic unit has an installation space next to the rocker arm. As a control element, a rocker arm is conceivable, which is arranged itself pivotable about a switching axis of the switching device. But it is also conceivable to provide as a control element a flat bolt, which is purely translatory between the ON and the OFF position displaced. In the case of a rocker arm as an operating element, the driver element is conceivable, for example, as a fork, which comprises the rocker arm. If the control element consists of a flat bolt, a shift gate can be provided on this operating element, in which a Verbindungslement such as a pin which is arranged on a lever as a driving member, engages.

In a particularly advantageous embodiment, the rotary drive additionally has a lateral interface with a second axis, which is arranged in a substantially vertical direction to the first axis. As a result, in a switching device according to the invention, the rotational switching movement can be initiated both from the front of the switch, ie the operating side, which has the rocker arm, and from a side which is substantially perpendicular to the operating side. This advantage is mainly in a mounting situation of the switching device in a cabinet to bear, in which the switching device is mounted on the usual provided on the rear wall of the cabinet shots, but should be operated from the cabinet side.

There is a mounting situation where the switching device is remotely, e.g. from an outside of a cabinet in which the switching device is installed, to be operated. Is this cabinet outside, from which the switching device is to be operated, a switchboard side, which is substantially parallel to the front, i. to the operating side, the switch, the axis of rotation of the rotary drive can e.g. be extended with a clip-on rod. Usually, in this installation situation, a door is provided on this control cabinet front, with which the control cabinet can be opened. It is advantageous to dimension the extension of the rotary drive shaft so that it projects beyond the door front as far as possible when a door is closed by a corresponding hole in the door, that a rotary handle can be placed. It is advantageous if the axis of the rotary drive, as well as the extension axis, at least in the region on which a handle can be placed, has a non-circular profile. It can be a triangular, square or multi-tooth profile. This allows a positive connection between the axis and the attachable handle or the attachable extension rod can be achieved.

In a further advantageous embodiment, the electrical switching device on the wall on which the handle can be plugged for the operation of the rotary drive, a holder for a remote control of the rotary drive. By way of example, a cable can be attached to this holder, which can be connected to a handle, e.g. on an outer wall of the cabinet leads, so that the switching device is operated remotely from there.

Further advantages, features and expedient developments of the invention will become apparent from the dependent claims and the following description of preferred embodiments with reference to the drawings.

Fig. 1

Ein elektromechanisches Schaltgerät mit Aufnahme für einen Drehantrieb

Fig. 2

Drehantrieb

Fig. 3

Prinzipskizze Drehantrieb mit Eingriff in eine Schaltkulisse

Fig. 4

elektromechanisches Schaltgerät mit Drehantrieb

Fig. 5

elektromechanisches Schaltgerät mit Drehantrieb und Griff bedienseitig

Fig. 6

elektromechanisches Schaltgerät mit Drehantrieb und seitlichem Griff

Fig. 7

elektromechanisches Schaltgerät mit Drehantrieb und Halterung für Fernantrieb

Fig. 8

Prinzipskizze elektromechanisches Schaltgerät mit Fernantrieb

From the pictures shows:

Fig. 1

An electromechanical switching device with a receptacle for a rotary drive

Fig. 2

rotary drive

Fig. 3

Schematic diagram of rotary drive with engagement in a shift gate

Fig. 4

Electromechanical switching device with rotary drive

Fig. 5

Electromechanical switching device with rotary drive and handle operator side

Fig. 6

Electromechanical switching device with rotary drive and side handle

Fig. 7

Electromechanical switching device with rotary drive and holder for remote drive

Fig. 8

Schematic diagram of electromechanical switching device with remote drive

In Fig. 1 a circuit breaker 10 is shown as an example of an electromechanical switching device. On the front or operating side 11, a rocker arm 16 is arranged, with which the switch is switched on or off with a substantially translational movement. Furthermore, a first side 12 can be seen, as well as a receptacle 20, which is open to the front side 11 and is located next to the rocker arm 16 to the first side 12 out.

Fig. 2 shows a rotary drive (30) for installation in the receptacle 20. The rotary drive has a housing 31, a first axis 32 and a second axis 33. Furthermore, a fork 35 can be seen, which may include the rocker arm 16. In addition, a bevel gear 34 can be seen, which establishes the operative connection of the second axis 32 with the first axis 31. Both axes 31, 32 have at their outer ends a square profile.

Fig. 3 is a schematic diagram of a rotary drive, which is in engagement with a shift gate. In the upper part of the figure, the situation is shown in a plan view of the operating side 11 of the switch, in the lower part from the view AA. The two axes 32 and 33 of the rotary drive 30 are connected via bevel gears 34. A lever 36 is rotationally connected to the first axis 34. The lever 36 carries at the opposite end of the first axis 34 of the rotary drive a pin 37 which engages in a shift gate 18 which is located on a latch 17 as an operating element of the switching device. Thereby moves the latch 17 in the positive or negative x-direction, depending on the rotational movement of the first axis 32 of the rotary drive. In the upper part of the Fig. 3 is pulled out the lower position of the shift gate 18 shown, which corresponds for example to the OFF position of the switching device. By rotation of the first axis 32 of the rotary drive, the pin 37 on the lever 36 describes a circular arc, as indicated by the arrow, until it reaches the upper position shown in dashed lines. Thereby, in this example, the switching device is brought from the OFF position to the ON position. In this case, the drive of the rotary drive, for example, via a handle which is mounted rotationally fixed on the first axis 32, or by, for example, a similar handle which is mounted rotationally fixed on the second axis 33. In the latter case, the driving force, which is applied by the handle on the second axis 33, transmitted via the bevel gears 34 on the first axis 32.

Fig. 4 turns off the power switch 10 Fig. 1 with inserted rotary drive 30. The first side 12 of the circuit breaker has a recess in the housing wall, through which the second axis 33 of the rotary drive 30 leads out of the circuit breaker 10. The circuit breaker 10 has a front flap 13, which covers the operating side 11 of the circuit breaker in the closed state. The front door 13 has openings for the rocker arm 16 and the first axis 32 of the rotary drive. The fork 35 of the rotary drive 30 engages around the rocker arm 16. By rotating an axle 32, 33 of the rotary drive 30, the fork 16 is set in a rotational movement about the first axis 32. By the fork 16 while the rocker arm 16 is moved from the OFF to the ON position and vice versa.

Fig. 5 shows the circuit breaker 10 off Fig. 4 with closed front flap 13. A handle 38 is mounted on the first axis 32 of the rotary drive 30. The handle has a plurality of through-holes 39 through which stirrups of U-locks can be inserted when the rocker arm is in the OFF position. This makes it possible to secure the switching device in a safe position against unauthorized switching.

Fig. 6 shows the same circuit breaker 10 Fig. 5 with a handle 38 which is mounted on the second axis 33 instead of on the first axis 32. In addition, this circuit breaker with a holder 14 for receiving a transmission element 40th a remote control provided. This receptacle 14 is mounted on the first side 12 of the circuit breaker. It serves, for example, as an abutment of a cable as a transmission element 40, which can engage the second axis 33. This allows the circuit breaker to be switched on or off remotely, eg from outside a cabinet where the circuit breaker is installed.

In Fig. 7 is the circuit breaker 10 off Fig. 6 shown without mounted handle 38 and with the front flap 13 removed. It is again the holder 14 can be seen, which is rotationally fixed to the first side 12 of the housing of the circuit breaker 10. Further, a suspension device 15 can be seen, which is rotationally mounted on the second axis 33. For example, if a cable as a transfer element 40 in the suspension device 15 and the bracket 14 mounted as an abutment, the second axis 33 can be operated from a distance.

Fig. 8 is the schematic diagram of a circuit breaker 10, which can be operated remotely via a cable pull as a transmission element 40, which acts on a holder 14 and a suspension device 15 on the second axis 33 of the rotary drive 30. In addition to cables all other suitable Übertragungslemente 40, such as linkage, are conceivable.

LIST OF REFERENCE NUMBERS

10

breakers

11

operating side

12

first page

13

front flap

14

bracket

15

Suspension unit

16

rocker arm

17

bars

18

shift gate

20

admission

30

rotary drive

31

casing

32

first axis

33

second armpit

34

bevel gear

35

fork

36

lever

37

pen

38

Handle

39

Through Hole

40

transmission element

Claims (13)

Electrical switching device (10) which can be operated with a control element (16, 17) which is movable substantially translationally between two end positions and is arranged on the operating side (11) of the switching device, wherein the electrical switching device (10) is actuated by a rotary drive (30) in which the rotary drive (30) has a first axis (32), which is arranged substantially perpendicular to the operating side (11) of the switching device (10), and one with the first axis (32 ) operatively connected entrainment member (35, 36, 37) for the operating element (16, 17),
characterized,
in that the switching device (10) has a receptacle (20) for the rotary drive (30), so that the rotary drive (30) can be integrated into the switching device (10). Electrical switching device (10) according to claim 1,
characterized,
that the operating element is a rocker arm (16). Electrical switching device (10) according to claim 1,
characterized,
that the operating element is a bolt (17). Electrical switching device (10) according to one of claims 1 to 3,
characterized,
in that the driver element (16, 17) of the rotary drive (30) is mounted pivotably about the first axis (32) of the rotary drive (30). Electrical switching device (10) according to one of the preceding claims,
characterized,
in that the rotary drive (30) additionally has a lateral interface with a second axis (33) arranged in a direction substantially perpendicular to the first axis (32). Electrical switching device (10) according to claim 5,
characterized,
in that the second axis (33) of the rotary drive (30) is operatively connected to the first axis (32) of the rotary drive (30). Electrical switching device (10) according to claim 6,
characterized,
in that the second axis (33) of the rotary drive (30) is operatively connected to the first axis (32) of the rotary drive (30) via bevel wheels (34). Electrical switching device (10) according to one of the preceding claims,
characterized,
in that at least one axis (32 33) of the rotary drive (30) has a non-round cross section, at least in an outer area. Electrical switching device (10) according to claim 8
characterized,
that the non-round cross-section is formed by a square profile. Electrical switching device (10) according to one of claims 7 to 9,
characterized,
in that a holder (14) for remote control of the rotary drive (30) on the first side (12) of the switching device on which the lateral interface is located and a suspension device (15) on the second axis (33) of the rotary drive (30) is provided, so that the rotary drive (30) can be operated remotely. Electrical switching device (10) according to one of claims 7 to 9,
characterized,
in that a holder (14) for remote control of the rotary drive (30) on the operating side (11) of the switching device on which the operator interface is located and a suspension device (15) on the first axis (32) of the rotary drive (30) are provided is, so that the rotary actuator (30) can be operated remotely. Electrical switching device (10) according to claim 10 or 11,
characterized,
in that the holder (14) on the side (11, 12) of the switching device (10) and the suspension device (15) on the axis (32, 33) of the rotary drive (30) are suitable for suspending a cable pull. Electrical switching device (10) according to one of claims 3 to 11,
characterized,
that the bolt (17) has a shift gate (18).

Images