DE202004003394U1 - Contactor with at least two contacts - Google Patents

Abstract

Contactor with at least two contacts that are movable relative to each other and from a closed position be converted into an open position, while opening the contacts (1,2) an arc (8) is formed, and with a blowing magnet for blowing away the arc (8), wherein the arc (8) via a arc conducting (9) is derivable and associated with a contact (1) the Lichtbogenleitstück (9) is, characterized in that the the Lichtbogenleitstück (9) associated Contact (1) and the Lichtbogenleitstück (9) by a diode (11) with each other are connected.

Description

The The present invention relates to a contactor having at least two contacts. which are movable relative to each other and from a closed position be converted into an open position, while opening the Contacts an arc is created and with a blowing magnet to the Blowing away the arc, wherein the arc via a Lichtbogenleitstück derivable is and a contact associated with the Lichtbogenleitstück.

One such contactor is generally known in the art. When opening Contacts under load occur in the contact zones arcs. These have to fast in for it provided extinguishing devices be moved where the appropriate arc extinction can take place. The For this necessary force is done by magnetic fields, so-called blowing fields. It takes care of that a permanent magnet for a polarity-proof Blowout. about two associated Pole sheets is spanned a magnetic field that affects the entire arc Area recorded. Due to the special design of the contacts and of the arc guide The arc is passed into appropriate extinguishing chambers, where the Arc extinction takes place according to known principles. The quenching chamber consists e.g. out Splitter packages.

Of the When the contacts are disconnected, the arc must be as far as possible deleted quickly be because the arc releases a large amount of heat, the too a strong heating of the switching contacts and environment leads. By this strong heating can damage occur and also the life can be reduced.

The different supply networks, especially in railway technology require shooters, which both for DC as well as for AC applications can be used equally.

at the previous solutions were partly complicated structures with a complicated arc guide and with splitter packages used, which opposed a compact design of the contactor.

alternative Puff coils were also used, but due to the current flow strongly heated or have been selectively switched on at shutdown. Especially in devices With small switching power this is a considerable disadvantage of the big one Effort and the big one Space requirements. Another disadvantage of DC currents is that in such Coils at low currents not enough Field available stands, so the currents do not tear off.

at the previously known shooter are the possibilities an alternating current arc in a permanent magnetic field to delete due to the changing current directions and the thus changing blowing directions very limited.

The Object of the present invention is thus to provide a contactor of the above to improve the type mentioned and in particular to provide a contactor, that for both DC (DC) applications as well as for AC applications (AC applications) are used equally can and also the contactor can be made more compact. The contactor should have a high bidirectional DC switching capacity without critical current range and high AC switching capacity.

The The object is achieved by a contactor with at least two contacts of the type mentioned, in which the arc guide associated contact and the Lichtbogenleitstück by a diode with each other are connected.

These solution has the advantage that due to the special construction a high Arc extinguishing capacity in the AC range is achieved. Another advantage is that in such a Protect the Benefits of a permanent magnetic blowing can be used. These are high current independent Blasfeld as opposed to electromagnetic blowing, d. H., optimal conditions regarding "critical In addition, is with the contactor according to the invention a high bidirectional DC switching capacity without critical current range possible.

In a preferred embodiment can the the Lichtbogenleitstück assigned contact arranged on a housing-fixed main contact piece be, thereby opening and closing the contacts can be further simplified.

If not the arc conductor associated contact arranged on a movable contact piece is, can the contacts are even easier to open and closed.

Farther It may be advantageous if the movable contact piece a bridge is, since thereby the opening and closing the contacts can be further simplified.

From Advantage may be, if the diode with an end portion of the Main contactor is connected, since thereby the arc extinguishing power can be increased even further can.

In an advantageous development of Invention, the main contact piece and the Lichtbogenleitstück be separated by an insulator. In this way, a targeted skipping of the arc from the main contact on the Lichtbogenleitstück done.

Also It may be advantageous if the DC contactor and AC applications. Thus, an even more universal Use possible.

Also it may be advantageous if the main contact piece, the movable contact piece and the arc conductor are arranged substantially parallel to each other, as a result an even more compact design is possible.

Cheap can it may be when the movable contact piece an arc guide section having. With such a construction, the arc extinguishing ability still becomes further increased.

From It may also be advantageous if the arc guide section has a Has bend that points away from the main contact piece. This is one further increase the arc extinguishing capability possible.

In addition, can it cheap be when the arc guide piece has a bend that faces away from the main contact piece, because thereby the arc extinguishing ability still further increased can be.

Advantageous It may also be when the bend of the arc guide section and the bend of the arc guide substantially parallel to each other, as a more effective arc extinguishing is possible.

Cheap can it may be when the bend of the arc guide section in the longitudinal direction has a smaller extent than the bend of the Lichtbogenleitstücks. A allows such construction an even better arc quenching.

In an advantageous development of the invention, the blowing magnet be a permanent magnet. The advantages of a permanent magnetic Blowing, that is, it is a higher current independent blowing field unlike electromagnetic blowing possible.

The Invention will be described below with reference to an embodiment and a associated drawing explained in more detail.

In 1 is a partial view of a contactor shown.

The contactor has two contacts, each through contact pads 1 . 2 are formed, which are movable relative to each other and can be transferred from a closed position to an open position. This is a contact pad 1 an arc guide 9 assigned. This the arc guide 9 associated contact surface 1 is on a housing-fixed main contact piece 3 arranged. The housing is not shown.

The not the arc guide 9 associated contact surface 2 is on a movable contact piece 5 , which is usually designed as a bridge arranged.

The movable contact piece 5 has an arc guide section 6 on. As can be clearly seen from the figure, the arc guide section 6 a bend 7 on, that of the main contact piece 3 points away.

The arc conductor 9 that of the movable contact piece 5 spaced apart, also has a bend 10 on, that of the main contact piece 3 points away.

An arc 8th located between the movable contact piece 5 and the arc guide 9 ,

The arc conductor 9 is the main contact 3 built separately. The arc conductor 9 and main contact piece 3 are however with a diode 11 connected together, the diode 11 with an end portion 4 of the main contact piece 3 connected is. Thus, these are the arc guide 9 assigned main contact piece 3 and the arc guide 9 through the diode 11 connected with each other.

At the end section 4 of the main contact piece 3 is also an insulator 12 attached so that the main contact piece 3 and the arc guide 9 through this insulator 12 are separated from each other. In this way, a targeted skip the arc 8 from the main contact 3 on the arc guide piece 9 respectively.

The main contact piece 3 , the movable contact piece 5 and the arc guide 9 are arranged substantially parallel to each other. The bend continues to run 7 of the arc guide section 6 and the bend 10 of the arc guide 9 essentially parallel to each other. Furthermore, the bend has 7 of the arc guide section 6 in the longitudinal direction, a smaller extent than the bend 10 of the arc guide 9 , The bends 7 . 10 taper to that of the main contact piece 3 opposite ends. By such a construction are a more compact Design and high arc extinguishing capability possible.

Furthermore is shown in the drawing a permanent magnetic field B, that of a blowing magnet, not shown, which is a permanent magnet is, is generated.

The Shooter shown in the figure is for DC and for AC applications suitable.

in the Below is the operation and operation of the invention explained in more detail:

When transferring the contact pads 1 . 2 from a closed position, not shown, in the open position shown in the figure, the arc is formed 8th , Through this arc 8th will also after opening the contact pads 1 . 2 the current flow is maintained. Thus, on the one hand, the switching time is extended and on the other hand, a large amount of heat released, resulting in a strong heating of the contact pads 1 . 2 and the environment leads. By this heating, the contact pads 1 . 2 damaged who the and thus the number of switching cycles are reduced. Thus, it is necessary when opening the contact pads 1 . 2 resulting arc 8th delete as soon as possible.

When separating the two contact pads 1 . 2 the arc arises 8th between. The arc 8th migrates on the one hand over the arc guide section 6 and the bend 7 and on the other hand also via the main contact piece 3 , When the arc 8th on the main contact piece 3 has reached the section of the arc guide 9 opposite, the arc jumps 8th from the main contact piece 3 on the arc guide piece 9 above.

The arc 8th thus becomes over the arc guide section 6 and the arc guide 9 derived.

In the solution according to the invention are the Lichtbogenleitstück 9 and the main contact piece 3 built separately and so through the diode 11 connected, that these of a permanent magnetic field B driven arc half-waves of a certain polarity conductive to the Lichtbogenleitstück 9 transfers. Through the insulator 12 that is between the arc guide piece 9 and the main contact 3 can be arranged, a targeted skipping the arc 8th from the main contact piece 3 on the arc guide piece 9 respectively.

The current flow of the next half-wave of opposite polarity is through the diode 11 blocked. In this way, the required for AC arc extinction voltage resistance is achieved in the arc circuit and set the range of re-ignition high. In the case of a re-ignition (load-dependent), the process is repeated after passing through a period of new, but then because of the previous previous arc migration under even more favorable conditions.

By the contactor according to the invention is thus an AC arc shutdown by diode erasure in permanent magnetic Blowing field possible.

The diode must have sufficient voltage to extinguish the returning wave. In the solution according to the invention, therefore, the arc 8th deleted after the first half wave.

The solution according to the invention is also suitable for arc quenching in DC applications. So that the arc shutdown can be used by diode erasure in the permanent magnetic blowing field in DC applications, the diode 11 according to the contact pads 1 . 2 be applied to adjacent polarity.

at the usual Protect are the ways an alternating current arc in a permanent magnetic field to delete, because of the changing current directions and the thus changing blowing directions very limited. Due to the construction according to the invention, the Benefits of a permanent magnetic blowing can be used. there is a high current independent Blown field as opposed to electromagnetic blowing possible, i. optimal conditions regarding "critical Current range " it is possible by the inventive solution, a "universal device" with high bidirectional DC switching capacity without critical current range and with high AC switching capacity.

Farther is due to the inventive solution a more compact design possible, since e.g. the usual ones Arc splitter stacks no longer necessary are.

Also can avoiding the disadvantages of an electromagnetic blow coil, which consist in the fact that the blow coil due to the current flow strongly heated. In devices with small switching power is the solution of the invention Advantage, as reflected in such devices Blowing coils, in particular because of the enormous expenditure and space requirement, do not enforce.

From great The advantage is that the solution according to the invention is suitable both for direct current as well as for AC applications suitable is.

Claims (14)

Contactor with at least two contacts, which are movable relative to each other and can be transferred from a closed position into an open position, wherein when opening the contacts ( 1 . 2 ) an arc ( 8th ) and with a blowing magnet for blowing away the arc ( 8th ), whereby the arc ( 8th ) via an arc conductor ( 9 ) and a contact ( 1 ) the arc conductor ( 9 ), characterized in that the arc guide ( 9 ) associated contact ( 1 ) and the arc guide ( 9 ) through a diode ( 11 ) are interconnected. Contactor according to claim 1, characterized in that the arc guide ( 9 ) associated contact ( 1 ) on a housing-fixed main contact piece ( 3 ) is arranged. Contactor according to at least one of the preceding claims, characterized in that it is not the Lichtbogenleitstück ( 9 ) associated contact ( 2 ) on a movable contact piece ( 5 ) is arranged. Contactor according to at least one of the preceding claims, characterized in that the movable contact piece ( 5 ) is a bridge. Contactor according to at least one of the preceding claims, characterized in that the diode ( 11 ) with an end portion ( 4 ) of the main contact piece ( 3 ) connected is. Contactor according to at least one of the preceding claims, characterized in that the main contact piece ( 3 ) and the arc guide ( 9 ) by an isolator ( 12 ) are separated from each other. contactor according to at least one of the preceding claims, characterized that the contactor for DC and AC applications. Contactor according to at least one of the preceding claims, characterized in that the main contact piece ( 3 ), the movable contact piece ( 5 ) and the arc guide ( 9 ) are arranged substantially parallel to each other. Contactor according to at least one of the preceding claims, characterized in that the movable contact piece ( 5 ) an arc guide section ( 6 ) having. Contactor according to at least one of the preceding claims, characterized in that the arc guide section ( 6 ) a bend ( 7 ), which from the main contact piece ( 3 ) points away. Contactor according to at least one of the preceding claims, characterized in that the arc guide piece ( 9 ) a bend ( 10 ), which from the main contact piece ( 3 ) points away. Contactor according to at least one of the preceding claims, characterized in that the bend ( 7 ) of the arc guide section ( 6 ) and the bend ( 10 ) of the arc guide ( 9 ) are substantially parallel to each other. Contactor according to at least one of the preceding claims, characterized in that the bend ( 7 ) of the arc guide section ( 6 ) has a smaller extension in the longitudinal direction than the bend ( 10 ) of the arc guide ( 9 ). contactor according to at least one of the preceding claims, characterized that the blowing magnet is a permanent magnet.