DE1290229B - Electromagnetically controllable switch, in particular air protection - Google Patents

Description

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The invention relates to an electromagnetically lifted out. It is a relatively costly controllable one Switch, especially an air contactor, total deflection gear required. The contactor is in with a solenoid which, including its structure, is nowhere near as clear, not so Anchor in outline the shape of a flat right - small-scale and not so easy to dismantle to implement has, which correspond to one of its three-dimensional shape, 5 borrowed like the switch of the invention, correspondingly shaped housing interior fills and The switch according to the claims is in the following Contact bridge carrier actuated, its movements on the basis of the drawing showing a direction of execution represents parallel to an outer surface of the example, explained in more detail. It shows Solenoid is located. F i g. 1 shows a cross section through the

It is known to switch the contact bridge support parallel io derseite seen switch to a narrow side des.Schaltmagneten in the Rieh- Fig. 2 the view in the direction E of Fig. 1, tang to the magnet armature movement slidably to Fig. 3 the section A-B of Fig. 1, arrange. The well-known contactor falls quite narrowly F i g. 4 the section CD according to FIG. 1. off and gets a correspondingly small basic The switch housing 1 is at 2 by means of screws surface, its height and depth dimensions are 15 attached to a mounting level. However, it contains the very large. Although its structure is visible via the E-shaped switching magnet 3 with the E-shaped one, its outer shape is a hindrance in many armatures 4 and the magnet coil 5, and also in the cases of given installation conditions of the use of contact bridge carriers 6 with contact bridges 7. Added to this is in particular the and with the auxiliary contact bridges 9. The transmission disadvantage is that contact bruises are inevitable, so the magnet armature movement on the contact bridges because the magnet armature and the contact bridge carrier 6 is used by the angle lever 10, which moves in the same direction by means of the. The object of the invention is based on which bolt 11 is pivotable in the switch housing 1 and is connected to the contact bridge carrier 6 by means of a pin 12 for rotational movement of a switch of the type mentioned at the outset. The pin is used to connect the angle lever 10 to the Marecht ratio of width, height and gnetanker 4. 13. The bolt 11 and the depth can be obtained without the advantage of the known tenons 12 being obtained from the outside arrangement of the housing, which is used in the clear arrangement of circuit elements or circuit elements that completely fill the housing by means of easily removable safety housings . -rings held, which consists in the drawing magnet and contact drive, is lost, 30 tion in detail is not further apparent. Secondly, the path of the contact bridges in order to avoid pulling out the bolt 11 and the pin avoiding bouncing is not parallel to the path of the 12, the magnet system can easily run through the armature without touching the grain opening 14 from the housing 1 taken out pacts structure must be dispensed with, and thirdly. The opening 14, through which the magnet system provides favorable conditions for the 35 to be pushed into the housing, is open during operation, switching state for any type of installation so that the position of the magnet armature 4 can be checked mechanically and optically, the contact switching status of the device on the front of each bridge girder can be actuated from the outside, which is visible for a time. On the middle leg of the connecting lines for main and auxiliary contacts E-shaped magnets 3 pushed bobbin easily clear and without mutually 40 15 can be brought up to the switch as a support and guide body for the magnetic disturbance system. It is stored in the housing opening 14 and that, in spite of all of these being met, is also supported. The connection conditions that are not visible here, the ease of dismantling the switch, jamming of the magnet coil remains on the front. of the coil body 15 and are from the open side. The solution to the problem of being able to take account of all these conditions of the housing space accommodating the magnet system can be actuated according to the invention. On the magnet 3 a frame is achieved in that a switch of the type bracket 16 is attached, in which the magnet base type an anchor movement fixed to the housing on the contact bridge carrier 6 reversing lever engages in its profile the armature of the switch-transmitting angle lever 10 and which holds for magnets in an articulated manner and via a return spring which acts on the angle lever 10 in a form-fitting manner connected with it 50 and serves as a counter-support transversely to the broad side of the 17. The frame-like bracket 16 housing the pin which is actuated by it simultaneously, together with the return spring, is arranged on a broad side of the switching magnet 17, the magnet 3 positively in the predetermined contact bridge carrier in a direction of movement in the installation position.

there that are parallel to the housing wall, but about 55. The current paths of the individual phases with the perpendicular to the movement of the solenoid. associated fixed contact pieces 18, the contact thereby The switch can be bridged at any 7, the arc chambers 19 and the Conceivable use give properties, the extinguishing devices 20 are in the housing 1 against each other-assembly, Supervision and maintenance are sealed off and shared by one another make it easy and simple. 60 cover 21, which is fastened by means of four screws 22, In itself, it is covered with contactors in outline. The training is done so that the approximately rectangular switching magnet known, the electrically loaded conductors of the individual phases the Movement of the armature in a heat perpendicular to it, independently of one another freely directed upwards To be able to radiate movement of contact bridges. The ones lying one behind the other the contact pieces 18 located on the broad side of the magnet 65 are without additional parallel lines Level to fixed contact pieces fastening parts in their arc extinguishing chambers 19 place. The contact bridges are kept self-resilient. Dieder as extinguishing equipment mentioned level in a space-consuming manner nen extinguishing plate units 20, which together with the

fixed contact pieces 18 loosely inserted into the arc chambers 19 and through the cover 21 are held and covered. By also loosely inserted profiled intermediate plates 8, which are preferably consist of gas-emitting material, the extinguishing chamber space is covered.

The contact bridges 7 are inserted into recesses of the contact bridge carrier 6 and in these as a result interlocking profiling of the contact surfaces by means of resilient insulating pressure pieces 23 easily exchangeably attached. The insulating pressure pieces 23 also complete the foreclosure between the arc chambers 19.

In the cover 21 are auxiliary switches, consisting of the stationary auxiliary contact pieces 24 and the auxiliary contact bridges 9, arranged. The auxiliary contact bridges 9 are in the contact bridge carrier 6 in arranged in a plane which runs parallel to the plane of the contact bridges 7. They are as opener or Normally open contact can be implemented. The stationary auxiliary contact pieces 24 are from the outside of the housing cover 21 ago used and set self-resilient.

The housing 1 has guide grooves 25 for insertion a motor protection relay 26, which is provided with a corresponding groove having part is, so that such a relay is positively pushed either above or below the device can be. The front power connection angle 27 between contactor and relay is used at the same time for the positive connection of the relay with the air contactor.

The narrow contactor shown is easy to assemble in that the individual parts are largely can be put together by plugging together.

Patent protection is only sought for the entirety of the features of one every claim, including its back-reference.

Claims (12)

Claims: 40 1. Electromagnetically controllable switch, in particular air contactor, with a switching magnet, which, including its anchor, has the shape of a flat rectangular body in outline, which one of its three-dimensional shape correspondingly shaped housing interior fills and a contact bridge carrier actuated, the direction of movement of which is parallel to an outer surface of the switching magnet is, characterized in that a housing-fixed (11) mounted deflection lever (10) in its profile the armature (4) of the solenoid articulated and a form-fitting with him connected, transversely to the broad side of the housing (1) extending pin (12) that of actuated him, arranged on a broad side of the switching magnet contact bridge carrier (6) gives a direction of movement that is parallel to the housing wall, but approximately perpendicular to the movement of the armature (4) of the switching magnet. 2. Switch according to claim 1, characterized in that one for mounting the reversing lever (10) serving bolt (11) and the pin (12) insertable through recesses in the housing outer wall are. 3. Switch according to claim 1 or 2, characterized in that the housing opening (14), through which the magnet system can be pushed into the housing (1) is open. 4. Switch according to claim 1, 2 or 3, characterized in that the magnet (3) a frame-like bracket (16) is attached, in which the magnet armature movement on the contact bridge carrier (6) engages the transfer lever (10) and the one for the lever (10) acting return spring (17) serves as a counter-support, which the magnet system at the same time in the holds the predetermined installation position. 5. Switch according to one of claims 1 to 4, characterized in that the current paths with the associated arc chambers (19) and extinguishing devices (20) in the housing (1) sealed off from one another by a common cover (21) and covered from the outside are. 6. Switch according to one of claims 1 to 5, characterized in that fixed, with Contact pieces with terminal connections (18) loosely from the outside into the arc chambers (19) are used and held in a self-resilient manner. 7. Switch according to one of claims 1 to 6, characterized in that loosely in the arc chambers (19) inserted quenching plates are held by the cover (21). 8. Switch according to one of claims 1 to 7, characterized in that the contact bridges (7) inserted into recesses in the contact bridge carrier (6) and in these as a result of interlocking Profiling of the contact surfaces by means of resilient insulating pressure pieces (23), which are also used for Separation of the individual switching chambers (19) are used, are held. 9. Switch according to claim 1 to 8, characterized in that auxiliary switches, their auxiliary contact bridges (9) are arranged in the contact bridge carrier (6) in a plane which is parallel runs to the level of the contact bridges (7), in the cover (21) are arranged, which when in use the same fixed auxiliary contact pieces (24) and movable auxiliary contact bridges (9) are optionally designed as a normally closed or normally open switch. 10. Switch according to one of claims 1 to 9, characterized in that the fixed Auxiliary contact pieces (24) inserted into housing slots from the outside and held in a self-resilient manner are. 11. Switch according to one of claims 1 to 10, characterized in that the housing above and below guide grooves (25) for insertion a motor protection relay (26). 12. Switch according to one of claims 1 to 11, characterized in that at least one of the power connections between the contactor and Relay is designed as a bracket (27) for the attached relay (26). 1 sheet of drawings