DE102018103103A1 - counter - Google Patents

Abstract

In a switch (1) having at least a first switching contact (2) and a second switching contact (3), wherein the first switching contact (2) in a housing (4) of the switch (1) is mounted, wherein the second switching contact (3) for opening and closing the switch (1) with a rotor (5) of an electric motor (6) of the switch (1) is connected, it is proposed that in a housing opening (7) of the housing (4) an internal thread (8) is arranged in that a predeterminable number of stator windings (9) of the electric motor (6) are arranged in the housing (4) around the internal thread (8), and in that an external thread (10) is arranged on the rotor (5) which projects into the internal thread (8) intervenes.

Description

The invention relates to a switch according to the preamble of claim 1.

Mechanical electric switches have long been known and in many variants. Electrical protective switching devices generally have at least one mechanical switch, at least for providing a galvanic isolation of a switching path. Switches in protective switching devices are exposed to considerably higher loads than switches for the operational switching of low currents. Overcurrents and especially short-circuit currents cause electromotive forces, which act on the switching contacts. Since purely mechanical circuit breakers usually have only one mechanical switch, which shuts off both the short circuit and the galvanic separation accomplished, these forces pose no problem, but can even be actively exploited to accelerate a contact when switching off.

In modern hybrid protection devices, such as a protective device according to the WO 2015/028634 A1 the applicant, however, takes place the actual switching off a short-circuit current by means of an ultra-fast bypass switch in conjunction with a, this bridging power semiconductor circuit. A further arranged in such a circuit breaker circuit breaker should only ensure the galvanic isolation after switching off a short-circuit current. The contacts of such a circuit breaker should not be opened by the short-circuit current, and should withstand the forces occurring, without causing bouncing or the like, as this would damage the contacts. The contact apparatus must therefore be designed to be resistant.

Known switches, which are able to withstand corresponding forces, but have a size and complexity, which prevents their integration into a compact circuit breaker.

The object of the invention is therefore to provide a switch of the type mentioned above, with which the mentioned disadvantages can be avoided, which has a compact structure and a high Kontaktanstand, and which has a high contact reliability at high currents, in particular short-circuit currents.

This is achieved by the features of claim 1 according to the invention.

Thereby, a switch can be provided, which has a compact structure and a high Kontaktanstand and a good electrical isolation. Furthermore, such a switch has a high contact reliability at high currents, in particular short-circuit currents, so that its switching contacts are not pressed by a short-circuit current. Such a switch does without a mechanical lock.

As a result, a thread with a large diameter can be used, which is able to transmit higher forces or torques. As a result, a very high contact pressure and a correspondingly low resistance can be achieved. This can ensure that the switch can withstand the high forces that occur in a short-circuit current, and which act in the direction of a contact separation on the switch contacts.

By the electric motor drive also control by a control unit of a hybrid protection device is possible. An objective switch is therefore ideal for use as a disconnector in a hybrid low-voltage circuit breaker.

The subclaims relate to further advantageous embodiments of the invention.

It is hereby expressly referred to the wording of the claims, whereby the claims at this point are incorporated by reference into the description and are considered to be reproduced verbatim.

• 1 eine erste Ausführungsform eines gegenständlichen Schalters in aufgebrochener schematischer axonometrischer Prinzipdarstellung;
• 2 eine aufgeschnittene Prinzipdarstellung des Schalters gemäß 1 im Aufriss;
• 3 eine zweite Ausführungsform eines gegenständlichen Schalters in aufgebrochener schematischer axonometrischer Prinzipdarstellung;
• 4 eine aufgeschnittene Prinzipdarstellung des Schalters gemäß 3 im Aufriss;
• 5 eine schematische Prinzipdarstellung eines hybriden Schutzschaltgeräts

The invention will be described in more detail with reference to the accompanying drawings, in which only preferred embodiments are shown by way of example. Showing:

• 1 a first embodiment of an objective switch in broken schematic axonometric schematic representation;
• 2 a cutaway schematic diagram of the switch according to 1 in the elevation;
• 3 a second embodiment of an objective switch in a broken schematic axonometric schematic representation;
• 4 a cutaway schematic diagram of the switch according to 3 in the elevation;
• 5 a schematic diagram of a hybrid protection device

The 1 to 4 each show a switch 1 with at least a first switching contact 2 and a second switching contact 3 , where the first switching contact 2 in a housing 4 of the switch 1 is mounted, wherein the second switching contact 3 for opening and closing the switch 1 with a rotor 5 an electric motor 6 of the switch 1 is connected, wherein in a housing opening 7 of the housing 4 an internal thread 8th is arranged, wherein in the housing 4 a predeterminable number of stator windings 9 of the electric motor 6 around the internal thread 8th are arranged around, and wherein on the rotor 5 an external thread 10 is arranged or the rotor 5 an external thread 10 has which external thread 10 in the internal thread 8th intervenes.

This can be a switch 1 be created, which has a compact structure and a high contact resistance and a good electrical isolation. Furthermore, such a switch has a high contact reliability at high currents, in particular short-circuit currents, so that its switching contacts 2 . 3 . 18 are not pressed by a short-circuit current. Such a switch 1 comes without a mechanical lock.

This can cause a thread 8th . 10 be used with large diameter, which is able to transmit higher forces or torques. As a result, a very high contact pressure and a correspondingly low resistance can be achieved. This can ensure that the switch 1 can withstand the high forces that occur at a short circuit current, and which in the direction of a contact separation on the switch contacts 2 . 3 . 18 act.

By the electric motor drive is also a control by a control unit of a hybrid protection device 22 possible. A representational switch 1 is therefore ideal for use as a circuit breaker 25 in a hybrid low-voltage circuit breaker 22 ,

The objective switch 1 is a low voltage switch.

The desk 1 has a housing 4 on, in which the first switching contact 2 is stored. According to the first preferred embodiment, which in the 1 and 2 is shown, may further a third switch contact 18 be provided, which also in the housing 4 is stored. The first switching contact 2 and / or the third switching contact 18 are preferably each by means of a spring 13 resilient in the housing 4 stored. The first and / or the third switching contact 2 . 18 can also be used as housing-fixed switch contacts 2 . 18 be designated. These are each preferred on or in an opening end face 11 the housing opening 7 arranged.

The desk 1 has an electric motor 6 on, which serves the switch 1 turn on or off. At the electric motor 6 it is an electric rotation machine, which has a stator ring with a predeterminable number of stator windings 9 and a rotor 5 , comprising a predeterminable number of magnets, which preferably as permanent magnets 27 are formed comprises. The stator ring is passed through the housing 4 of the switch 1 formed in which a predetermined number of stator windings 9 of the electric motor 6 are arranged. The rotor 5 itself is in a housing opening 7 of the housing 4 arranged.

The second switching contact 3 of the switch 1 is with the rotor 5 an electric motor 6 connected. To open and close the switch 1 becomes the second switching contact 3 with the electric motor 6 on the first switching contact 2 too moved. The second switching contact 3 is at least indirectly with a rotor end face 12 of the rotor 5 connected. On the training and arrangement of the switch contacts 2 . 3 . 18 will be discussed in detail to the individual figures.

It is envisaged that in the housing opening 7 or the inner wall of the housing opening 7 an internal thread 8th is arranged, and that on the rotor 5 an external thread 10 is arranged, which in the internal thread 8th intervenes. The rotor 5 itself therefore has an external thread 10 which is in the internal thread 8th of the housing 4 screwed in, so that the rotor 5 , with a corresponding control of the stator windings 9 , turns and simultaneously along the helices of the thread 8th . 10 emotional. This results in a movement of the second switching contact 3 on the at least one, frontally arranged first switching contact 2 to or from this way, causing the switch 1 either closed or turned on, or opened or turned off.

The 1 and 2 show a first embodiment of an objective switch 1 , This points next to the first switching contact 2 Furthermore, the third switching contact 18 on. The first switching contact 2 is with a first connection 19 of the switch 1 connected, and the third switching contact 18 is with a second connection 14 of the switch 1 connected. The first switching contact 2 and the third switching contact 18 are at different radial distance from a rotor axis of rotation 20 of the rotor 5 arranged. In this case, the, inside lying first switching contact 2 optionally be designed as a circular disk or as a circular ring.

The second switching contact 3 is as a contact bridge 21 formed which is wide enough to the first switch contact 2 with the third switching contact 18 conductively connect. The switching bridge or contact bridge 21 is directly on the rotor front side 12 of the rotor 5 arranged, and turns with this With. To close or turn on the switch 1 become the stator windings 9 subjected to a rotating electric field, and so the rotor 5 set in rotation, which the second switching contact 3 on the first and third switching contact 2 . 18 moved to, until, as a contact bridge 21 trained second switching contact 3 the first and the third switching contact 2 . 18 conductively connects with each other.

The first embodiment of the switch 1 has a particularly simple structure. Neither is a conductive contact of the rotor 5 nor any measures to ensure a specific position of the rotor 5 or the second switch contact 3 required. However, the contact distance in the first embodiment may be from a certain distance of the contact bridge 21 from the first and third switching contact 2 . 18 no longer be increased, since the distance of the first switch contact 2 to the third switching contact 18 is constant. This design is especially advantageous if - due to the environment of use - a large diameter of the switch 1 is possible, but only a small stroke of the rotor 5 ,

The 3 and 4 show a second embodiment of an objective switch 1 , This has only a single housing-fixed switching contact in the form of the first switching contact 2 on, which with a first connection 19 of the switch 1 connected is. The second connection 14 of the switch 1 is with the second switching contact 3 conductively connected. The second switching contact 3 is not directly or directly on the rotor 5 attached or arranged, but on a switch contact carrier 15 , The actual rotor 5 is rotatable in the switch contact carrier 15 stored. In the 3 and 4 are correspondingly stylized ball bearings 16 shown. To turn when the rotor 5 a longitudinal displacement of the second switching contact 3 to make sure is the switch contact carrier 15 longitudinally displaceable and twist-proof in the housing opening 7 guided. This is a linear guide 17 provided, which represent by a number of guide grooves in the housing 4 and is formed correspondingly in these engaging fins.

Although the second embodiment has a more elaborate rotor compared to the first embodiment 5 or mobile apparatus, however, has the advantage of a larger possible contact distance. This design is especially advantageous if - due to the environment of use - a large stroke of the rotor 5 is possible, but only a small diameter of the switch 1 is possible.

Preferred main use environment of a subject switch 1 are hybrid low-voltage circuit breakers 22 , 5 shows a simplified schematic diagram. Regarding the operation of such a hybrid low-voltage circuit breaker 22 will be on the WO 2015/028634 A1 referred to the applicant. In the at least one switching path 23 are a bypass switch 24 and a circuit breaker 25 serially arranged to each other.

Parallel to the bypass switch 24 and at the same time serial to the disconnector 25 is a power semiconductor circuit 26 arranged. The circuit breaker 25 is there as an objective switch 1 educated. As when operating the disconnector 25 the current flow over the switching path 23 has already ended, are neither a particularly rapid opening of the switch contacts 2 . 3 . 18 still means for extinguishing an arc required.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2015/028634 A1 [0003, 0027]

Claims (5)

Switch (1) having at least a first switching contact (2) and a second switching contact (3), wherein the first switching contact (2) in a housing (4) of the switch (1) is mounted, wherein the second switching contact (3) for opening and closing the switch (1) with a rotor (5) of an electric motor (6) of the switch (1) is connected, characterized in that in a housing opening (7) of the housing (4) an internal thread (8) is arranged in the housing (4) a predeterminable number of stator windings (9) of the electric motor (6) are arranged around the internal thread (8), and that an external thread (10) is arranged on the rotor (5), which is inserted into the internal thread (8 ) intervenes. Switch (1) to Claim 1 , characterized in that the first switching contact (2) on an opening end face (11) of the housing opening (7) is arranged, and that the second switching contact (3) with a rotor end face (12) of the rotor (5) is connected. Switch (1) to Claim 1 or 2 characterized in that the second switching contact (3) is connected to a second terminal (14) of the switch (1) and fixed to a switching contact carrier (15) such that the rotor (5) is rotatably mounted in the switching contact carrier (15), and that the switch contact carrier (15) is longitudinally displaceable and guided against rotation in the housing opening (7). Switch (1) to Claim 1 or 2 , characterized in that the switch (1) further comprises a third switching contact (18), that the first switching contact (2) with a first terminal (19) of the switch (1) and the third switching contact (18) with a second terminal (18). 14) of the switch (1), that the first switching contact (2) and the third switching contact (18) are arranged at different radial distance from a rotor axis of rotation (20), and that the second switching contact (3) as a contact bridge (21) for connecting the first switching contact (2) with the third switching contact (18) is formed. Low-voltage circuit breaker (22) having at least one switching path (23), wherein in the switching path (23) a bypass switch (24) and a circuit breaker (25) are arranged, wherein parallel to the bypass switch (24) and seriell to the circuit breaker (25) a Power semiconductor circuit (26) is arranged, characterized in that the circuit breaker as a switch (1) according to one of Claims 1 to 4 is trained.

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