WO2000067275A1

WO2000067275A1 - Circuit breaker for multipolar release

Info

Publication number: WO2000067275A1
Application number: PCT/DE2000/001197
Authority: WO
Inventors: Christoph Weber; Elmar Fischer
Original assignee: Siemens Aktiengesellschaft
Priority date: 1999-04-28
Filing date: 2000-04-17
Publication date: 2000-11-09
Also published as: DE19919416A1; AR023619A1

Abstract

The invention relates to a circuit breaker (1) that is designed for multipolar release, if attached to further circuit breakers, by a catch element (2). According to the invention, the catch element (2) is configured, in terms of its function, as a double eccentric. One (3) of said eccentrics is impinged upon by a latch (5) when said latch falls of a trip lever (6) due to an unlatching by a work stroke of the latch. The other eccentric (4) moves and unlatches the trip lever (6) due to its work stroke. The trip lever (6) is stationarily mounted (8) and the latch (5) is movably mounted by accommodating in its movable latch seat (9) a coupling rod (10) that is coupled to a manual command organ (11).

Description

description

Protective switching device for multi-pole tripping

The invention relates to a protective switching device, designed for multi-pole tripping, when a series of further protective switching devices are connected, by a driver.

Circuit breakers for multi-pole tripping are available in a wide variety of designs:

The switch locks usually work with a fixed latch, which becomes complex when they are to be used in conjunction with devices in series that automatically switch to a switched-off state, as is the case with residual current circuit breakers and undervoltage releases.

In the case of switch locks with portable, movable latching devices on the market, the multi-pole release is passed on via a wire pin, which is fixed in the release lever. Such a construction is to be matched to a switch type and is not readily suitable for attaching units for additional functions.

The invention is based on the object of developing a protective switching device for multi-pole tripping which can work with comparatively few parts, can be manufactured in a highly mechanized manner and satisfies high technical requirements during operation.

The described object is achieved by a protective switching device according to claim 1. The driver forms a double eccentric according to its function, one of which is acted upon by a pawl when it drops from a release lever as a result of a release by a working movement of the pawl. The other eccentric moves follow his working movement by releasing the release lever. The release lever is in this case mounted in a stationary manner and the pawl can be moved by storing a coupling rod to a manual control element in its portable pawl bearing. Such a structure is the basis for the corresponding direction of rotation of the components of the key switch. This direction of rotation can correspond to the opening direction of a movable contact, so that one can work in the kinematics without a converter. This enables a simple and clear structure. In particular, you do not need a link guide, thus reducing the friction and can achieve a compact and fast circuit breaker.

The pawl can advantageously be a movable one at a distance from the pawl bearing in another portable bearing

Store the contact arm for a pair of contacts. This promotes the simple construction of a key switch, with which re-ignition of the contacts can be avoided.

According to a further development, the movable contact arm is supported on the fixed bearing of the release lever in the open position of the manual control element, the latching point between the pawl and release lever forming a triangular arrangement with the fixed bearing of the release lever and the portable bearing for the contact arm. The pawl, driver and release lever have the same direction of rotation when unlatching. The bearing for the contact arm on the pawl is advantageously connected to the fixed bearing of the release lever by coupling means. This arrangement results in a simple and inexpensive switch lock for common direction of rotation without a converter. It is advantageous to provide the pawl bearing within the triangular arrangement.

According to a further development, the driver is arranged to form protective switching devices outside the geometrical locations of the coupling rod, pawl and release lever. This enables coupling to many types of protective circuit Devices with a different geometry for their kinematics, as is common with miniature circuit breakers. Protective switching devices of the so-called high-current series can also be connected. It is possible and advantageous to arrange the driver on a fixed bearing. In combination with the portable bearing of the release lever and the portable bearing of the pawl, this simplifies the construction of the overall arrangement.

A magnetic trigger works advantageously with its plunger

Release lever outside of the triangular arrangement in order to maintain the common sense of rotation, in other words to get by without a converter. Accordingly, a thermal release can act with its moving part on the release lever outside the triangular arrangement in the same direction of movement as a magnetic release to be provided. After a simple and practical design, the plunger of the magnetic release directly engages the release lever. The thermal release is advantageously allowed to engage the release lever with a pull handle.

The invention will now be explained in more detail with reference to exemplary embodiments schematically shown in the drawing:

1 shows a protective switching device in an indicated housing with a switch lock, a pair of contacts, a pivotable manual control element and a driver in the switched-on position.

In FIG. 2 the representation of FIG. 1 shows the transmission of the unlatching via the driver to protective circuit devices in a row.

FIG. 3 illustrates how, as a result of the unlatching of a neighboring protective switching device via the driver, the protective switching device is released. 4 shows essential components from the arrangements according to FIGS. 1 to 3 in the manner of an exploded view.

The protective switching device 1 according to FIG. 1 is designed for multi-pole tripping in the case of a series of further protective switching devices. The coupling is provided by a driver 2 with a fixed bearing 19. The driver forms a function according to a double eccentric: the one eccentric 3 is acted upon by a pawl 5 when it falls off by a release lever 6 when the release lever is released from the release lever. Another eccentric 4 of the driver 2 acts on the release lever 6 in a unlatching manner if the driver is moved counterclockwise as a result of the unlatching of a protective switching device. This counterclockwise rotation is common to all the essential components of the switch lock and a movable contact arm 7. The trigger lever 6 is mounted in a fixed bearing 8 and the pawl 5 is portable in a portable one

Pawl bearing 9. In the pawl bearing 9, a coupling rod 10 is mounted to a manual control element.

The pawl 5 supports the movable contact arm 7 at a distance from the pawl bearing 9 and the movable contact arm 7 in a further movable bearing 12.

The movable contact arm 7 is supported in the open position or in the switched-off position of the manual control element on the fixed bearing 8 of the release lever, the latching point between the pawl 5 and the release lever 6 forming a triangular arrangement with the fixed bearing of the release lever 8 and the portable bearing 12 for the contact arm 7. When unlatching, the pawl 5, driver 2 and release lever 6 have a common direction of rotation. The bearing 12 for the contact arm 7 is connected to the bearing 8 of the release lever 6 by a coupling element. tel 13 connected. The pawl bearing 5 is formed within the triangular arrangement.

The driver 2 to be arranged protective switching devices is advantageously arranged outside the geometric locations of coupling rod 10, pawl 5 and release lever 6. The driver 2 has a fixed bearing.

A key switch spring 14 is illustrated as a compression spring, which also causes the contact force of a pair of contacts 15. Other springs of a known type are omitted to promote clarity. The driver 2 can be held in its rest position by a spring.

A magnetic trigger is illustrated with its plunger 16, which can act on the trigger lever 6 outside the triangular arrangement. A thermal release 17 can act with its moving part on the release lever 7 outside the triangular arrangement in the same direction of movement as the magnetic release. For this purpose, the thermal release 17 engages with a pull bracket 18. The plunger 16 of the magnetic release acts directly on the release lever 6.

If the switch lock of the protective switching device 1 is released by the pawl 5 dropping off the release lever 6 according to FIG. 2, the pawl 5 rotates counterclockwise and acts on the eccentric 3 of the driver 2 by also turning it counterclockwise. As a result, the driver 2 can act on the protective circuit devices above or below the plane of the drawing to have them unlatched.

If a protective circuit device in turn triggers and its switching lock is released, the driver is rotated counterclockwise and acts with its other eccentric 4 on the release lever β, so that the protective circuit device shown in FIG. 3 is released. Shortly after the state shown in FIG 3, the switch lock collapses and pivots the contact arm 7 counterclockwise, whereby the contact pair 15 is opened.

A key switch according to FIGS. 1 to 3 is known in principle from DE-A-1 904 731, a driver not being provided and also not being able to be provided in the construction shown there. In contrast, synergies are used in the protective switching device according to the invention.

4 shows essential components from the arrangements according to FIGS. 1 to 3 for themselves. The reference numbers correspond. The thermal release 17 and the plunger 16 of a magnetic release are shown broken off. A fixed bearing 19 of the driver 2 is as illustrated in FIGS 2 and 3.

Claims

claims

1. Protective switching device (1), designed for multi-pole tripping, when adding further protective switching devices, by a driver (2), characterized in that the driver (2) functions according to a double eccentric, one of which is an eccentric (3) from a pawl (5) when it falls from a release lever (6) due to a release due to a working movement of the latch and its other eccentric (4) due to its working movement moves the release lever (6) to release, whereby the release lever (6) is mounted in a fixed position (8 ) and the pawl (5) is mounted so that it can be moved by mounting a coupling rod (10) to a manual control element (11) in its portable pawl bearing (9).

2. Protective switching device according to claim 1, so that the pawl (5) supports a movable contact arm (7) for a pair of contacts (15) in a further variable bearing (12) at a distance from the pawl bearing (9).

3. Protective switching device according to claim 2, characterized in that the movable contact arm (7) on the fixed bearing (8) of the release lever (6) can be supported in the open position with the manual control element (11), the latching point between the pawl (5) and release lever (6) with the fixed bearing (8) of the release lever (6) and the portable bearing (12) for the contact arm (7) a triangular arrangement with the same direction of rotation of the pawl (5), driver (2) and release lever (6) when unlatching form, the bearing (12) for the contact arm (7) being connected to the bearing (8) of the release lever (6) by a coupling means (13).

4. Protective switching device according to claim 3, that the pawl bearing (5) is formed within the triangular arrangement.

5. Protective switching device according to claim 1 or one of claims 2 to 4, d a d u r c h g e k e n z e i c h n e t that the driver (2) is arranged to connectable protective switching devices outside the geometric locations of coupling rod (10), pawl (5) and release lever (6).

6. Protective switching device according to claim 5, d a d u r c h g e k e n n e e c h n e t that the driver (2) has a fixed bearing (19).

7. Protection switching device according to claim 3, d a d u r c h g e k e n n e e c h n e t that a magnetic release with its plunger (16) on the release lever (6) can act outside the triangular arrangement.

8. Protective switching device according to claim 3, so that a thermal release (17) with its moving part on the release lever (6) can act outside the triangular arrangement in the same direction of movement as a magnetic release.

9. Protective switching device according to claim 7, that the plunger (16) of the magnetic release on the release lever (6) can directly attack.

10. Protective switching device according to claim 8, so that the thermal release (17) on the release lever (6) can engage with a pull bracket (18).