DE4232228C2 - relay - Google Patents

Description

The invention relates to a relay with a Magnetge stand with a core passing through a coil and one yoke extending along the outside of the coil, wherein the magnetic frame has a pole face with which a Anchor interacts with at least one coupling link acts a contact spring.

In known such relays, the armature on the yoke is gela gert and acts with the end face serving as a pole face of the core together.

However, there is the disadvantage that the pole face is limited by the clear cross section of the coil. For egg ne improvement in responsiveness would be nice it is worthwhile to be able to provide the largest possible pole area NEN, in order to achieve the end result with less flow to be able to.

A relay of the type mentioned is from DE 34 14 731 C2 known. The anchor is also in the relay described there stored on the yoke, and it forms the working air gap with the End face of the core, which corresponds to the inner diameter of the bobbin has a relatively small pole area. The At the relay there, yoke is below the coil, weh rend an actuating bridge as a coupling link along the upper egg te the coil is arranged. The anchor therefore extends from its storage at the free yoke end over the core pole surface away to the actuation bar at the top of the Magnet system.

From document AT 172 275 is a direct current re lais known, in which a one-piece, U-shaped core the actual excitation coil on his first leg and on an additional AC coil on its second leg contributes to a through the additional AC excitation  Course of the magnetization line of the relay core independently to get from excitation with strongly changing currents The anchor is there on the first leg of the core stores, and it forms the working air gap with the second Leg. Otherwise, the structure of the relay is only there matically shown, in particular are neither a contact system nor its operation shown.

Finally, a relay is known from EP 0 231 793 A1, in which the core carries the excitation winding, while around that Yoke a power supply element of the load circuit is to generate additional excitation. The anchor is too stored there on the yoke, and it forms the working air gap with one arranged at the free core end, in cross section enlarged pole plate. However, this requires one on more agile manufacture of the magnet system because of the connection between core and yoke only after application of the coil can follow.

The aim of the invention is to overcome the disadvantages of the known solution to avoid conditions and a relay of the type mentioned propose the size of the pole face in the work air gap can be selected according to the requirements can that the lowest possible excitation of the coil for the Addressing is required without the effort for the Her position is increased.

According to the invention this goal is achieved in that the Core and the yoke are integrally formed that the Pole area with the working air gap defined by it on the Yoke arranged and the anchor on the out of the coil Free end of the core is stored and that the An ker and the contact spring connecting coupling member along the Yokes is led.

In this way it is possible to change the pole area independently dimension the clear cross-section of the coil without  there is therefore a difficult assembly of the relay, like this with the arrangement of pole plates on the front side of the core would be the case, which only after putting on the Coil could be mounted.

According to a further feature of the invention can be provided be that the pole face at a in the free end region of the Jo ches arranged thickening is arranged.  

In this way it is very easy to enlarge the Achieve pole face in relation to the clear square cut of the coil chen.

In the case of a relay in which the armature is connected via a coupling element can act on at least one spring-loaded contact a further feature of the invention that the Thickening has a recess in which the coupling member is led.

In this way, the anchor is guided well, so that this is only placed on the end face of the core needs to be.

It can further be provided that the coupling element in engages a recess of the anchor, which is a very good anchorage results.

It can further be provided that the coupling element has a frame-like section into which a front jump of the yoke to achieve lateral guidance engages, the breakthrough of the frame-like Ab cut has a greater axial extent than that Projection of the yoke.

This results in very good and exact guidance of the anchor, so that it has not been shaken can slip. Slipping in a perpendicular The direction of the anchor can easily be changed into one Depression of the anchor engaging coupling link, the usual between the yoke and the magnet frame Coil surrounding housing is avoided.

According to a further feature, it can be provided that the Thickening of the yoke extends away from the core and opposite remaining yoke is widened, this widening a has the width corresponding to the diameter of the coil and the armature in its free end area is one of the pole faces of the Yoke has corresponding width and the pole face over covers, with the edges of the widening at that of the core upside and are used as a guide for the paddock serve link.  

In this way, one can cover practically the entire Length of the yoke extending guide of the coupling member chen.

The invention will now be explained in more detail with reference to the drawing. Show:

Fig. 1 shows a schematic view of a perpektivischer he invention according relay,

Figure 2 thereof. An alternative embodiment, wherein corresponding parts with same reference characters are provided,

Fig. 3, the magnetic frame of the relay according to Fig. 1 and Fig. 2,

Fig. 4, the magnet frame of FIG. 3 legtem with attached coupling member,

Fig. 5 link the magnetic frame with bobbin and coupling.

In the relay according to FIG. 1, a bobbin 2 is placed on a base plate I, the connecting pins 3 of the coil (not shown) passing through the base plate.

The magnet frame 4 consists of a core 17 penetrating the bobbin 2 and a one-piece yoke 26 which extends along the outside of the bobbin. Along the yoke 26 , a coupling member 5 is guided, which carries the movement of the armature 6 on a contact spring 7 . The contact spring 7 is connected to a terminal contact pin 32 .

This contact spring 7 has a meandering section 8 , which is angled around one of its long sides and merges into a bridge section 9 , in which the coupling member 5 engages with a slot 10 . At this Brückenab section 9 connects at right angles to a holding arm 11 , in or on which a contact 12 is held. The associated counter contact is 33, its connection pin with 34 designated net.

The contact spring 7 therefore has a substantially L-shaped layout. The meandering section 8 is formed laterally next to the contact 12 , the meandering section running parallel to the axis of the contact 12 in the example shown. However, this is not absolutely necessary. So it is also conceivable to arrange it inclined to the axis of the contact 12 . It is only essential that that in a base plate or a base body at 35 or 36 in a groove clamped portion of the contact spring 7 , which is formed in the illustrated case when playing through the meandering section 8 , side of the contact 12 of the contact spring 7th is running. However, the meandering design of this section 8 is by no means absolutely necessary; it could also be approximately rectangular. The meandering training but brings the advantage of a larger spring travel with it and thus a softer spring characteristic, or the spring characteristic can be varied at all by different design of the meander.

A further determining element for the spring characteristic are slots 28 and 37 arranged in section 8 , which run parallel to the axis of the contact 12 according to FIG. 1 and which are inclined according to FIG. 2 to the axis of the contact 12 and widen towards the slot end. As a result of the slitting, the section 8 is divided into a plurality of sections 27 and 38 , which are also determined by the spring characteristic by its respective shape and number.

This side of the contact 12 extending section 8 of the contact spring 7 is connected via a bend 29 to the bridge part 9 which extends in a plane substantially perpendicular to the axis of the contact 12 .

This bridge section 9 engages in a slot 10 of the Kop pelliedes 5 and is controlled by this.

The substantially perpendicular to the axis of the contact 12 ver running portion 30 of the contact spring 7 , which is formed by the bridge part 9 and the holding arm 11 , is U-shaped according to FIG. 1, the contact 12 in the region of the free end of one Leg 31 of this section 30 is arranged. The second leg of this U-shaped section 30 is formed by the bridge section 9 . Such training leads to a relatively soft spring. Ge according to Fig. 2, a stiffer contact spring can be created in that the section 30 is L-shaped by the holding arm 11 in the direct extension of the slot 10 perpendicular to the other half of the bridge section 9 he stretches, the contact 12 also at the free End of the leg 31 thus formed is arranged.

A housing cover, not shown, covers the relay and at the same time serves to guide the coupling member 5 , so that it is guided with a small air gap between the inside of the housing cover and the outside of the yoke 26 .

Furthermore, the coupling member 5 is still guided between the raised edges 13 and an elevation 14 of the yoke 26 , thereby ensuring an exact guidance of the coupling member 5 , which has a frame-like section 15 , in the recess 16 from which the elevation 14 of the yoke 26 engages .

As can be seen in particular from FIG. 3, the yoke 26 is integrally connected to the core 17 which passes through the spool body 2 . The yoke 26 has a widening 18 with a thickening 19 in the region of its free end, which extends away from the core 17 . This results in a very large pole face 20 , which forms the working air gap with the armature 6 by the armature 6 covering the pole face 20 with a head part 21 . At the end of the core 17 out of the coil body 2 , the armature 6 is supported at 39 .

As can be seen from FIG. 3, the coupling member 5 engages with an extension 22 in the slot 23 of the thickening 19 , which protrudes from the frame-like section 15 . In the Ausneh line 16 of the frame-like portion 15 engages the increase 14 of the yoke 26 , the axial extent of the recess 16 being greater than the axial extent of the increase 14 , so that an axial displacement of the coupling member 5 is possible.

Furthermore, from the frame-like section 15 of the coupling member 5 a further extension 24 in the axial direction, in which the slot 10 is arranged, in which the contact spring 7 engages.

As can be seen from FIG. 4, the armature 4 is supported abge with its one end face on a shoulder of the coil body 2 , or engages in a recess of the head part 25 of the coil body 2 and is guided or gela by this.

Claims (11)

1. Relay with a magnet frame ( 4 ) with a core ( 17 ) passing through a coil ( 2 ) and a yoke ( 26 ) extending along the outside of the coil, the magnet frame ( 4 ) having a pole face ( 2 ), with which an on ker (6) cooperates, which acts on least min via a coupling element (5) has a contact spring (7),
characterized in that the core ( 17 ) and the yoke ( 26 ) are formed in one piece,
that the pole face ( 20 ) with its limited working air gap is arranged on the yoke ( 26 ) and the armature ( 6 ) is mounted on the free end of the core ( 17 ) protruding from the coil ( 2 ) and
that the armature ( 6 ) and the contact spring ( 7 ) connecting coupling member ( 5 ) is guided along the yoke. 2. Relay according to claim 1, characterized in that the pole face ( 20 ) by a widening ( 18 ) and / or thickening ( 19 ) arranged in the free end region of the yoke ( 26 ) is enlarged in cross section and that the armature ( 6 ) with a corresponding head part ( 21 ) covers the pole face ( 20 ). 3. Relay according to claim 2, characterized in that the Ver thickening ( 19 ) has a recess ( 23 ) in which the Kop pellied ( 5 ) is guided. 4. Relay according to one of claims 1 to 3, characterized in that the coupling member ( 5 ) engages in a recess of the armature ( 6 ). 5. Relay according to one of claims 1 to 4, characterized in that the coupling member ( 5 ) has a frame-like section ( 15 ) into which an increase ( 14 ) of the yoke ( 26 ) engages to achieve lateral guidance, wherein the opening ( 16 ) of the frame-shaped portion ( 15 ) has a greater axial extension than the elevation ( 14 ) of the yoke ( 26 ). 6. Relay according to one of claims 1 to 5, characterized in that the thickening ( 19 ) of the yoke ( 26 ) extends away from the core ( 17 ) and is widened relative to the rest of the yoke ( 26 ), this widening ( 18th ) has a width corresponding to the diameter of the coil and the armature ( 6 ) in its free end region has a width corresponding to the pole face ( 20 ) of the yoke ( 26 ) and covers the pole face ( 20 ), the edges ( 13 ) of the Widening on the core from the core ( 17 ) are increased and serve as a guide for the coupling link ( 5 ). 7. Relay according to one of claims 1 to 6, in which the contact spring has an angle, characterized in that the contact spring ( 7 ) has a side of the contact ( 12 ) extending section ( 8 ) which via the angle ( 29 ) with a substantially perpendicular to the axis of the contact ( 12 ) extending from section ( 30 ) of the contact spring ( 7 ) is connected. 8. Contact spring according to claim 7, characterized in that the side of the contact ( 12 ) extending portion ( 8 ) runs substantially parallel to the axis of the contact ( 12 ) ver. 9. Contact spring according to claim 7 or 8, characterized in that the side of the contact ( 12 ) extending section ( 8 ) of the contact spring ( 7 ) is substantially meandering, the individual Teilab sections ( 27 ; 38 ) of meandering course of the section ( 8 ) extending since the contact ( 12 ) is separated from one another by slots ( 28 ; 37 ). 10. Contact spring according to one of claims 7, 8 or 9, characterized in that the contact ( 12 ) is arranged at the free end of a contact spring leg ( 31 ) which is coplanar with a substantially perpendicular to the contact axis contact spring bridge section ( 9 ) . 11. Relay with a contact spring according to one of claims 7 to 10, on which engages a coupling member controlled by an armature of the relay, characterized in that the coupling member ( 5 ) on the at the bend ( 29 ) to closing, substantially perpendicular to Axis of the contact ( 12 ) extending contact spring bridge section ( 9 ) attacks.