DE1590984C - Electrical switchgear - Google Patents

Description

the comb cuts would be in the spring preload. Also for the starting position of the contact springs is the dimensional accuracy of a plurality of offset surfaces and Edges of the switching device decisive, so that here, too, a cumbersome individual adjustment in the Practice is inevitable.

The same applies to a switching device known from German patent specification 972 072, in which a plurality of contact springs are each in contact with a special contact edge. The dimensional and positional tolerances of these different contact edges against each other also make here an individual adjustment of the contact springs with regard to their preload is required.

The result is finally the same for one known from French patent specification 1,088,599 Determine switching device. Here, too, there are insulating combs with the corresponding contact springs Determining incisions are provided, their dimensional tolerances in turn an individual adjustment of the

t make contact springs necessary.

ί The object of the invention is to create a wire spring contact arrangement, in which a matching bias of several Wire spring switch contacts guaranteed structurally and thus an individual adjustment of these switch contacts can be made dispensable. The inventive solution to this problem is characterized by a switching device of the type mentioned in that the wire spring switch contacts between the clamping surfaces of the two holding members are clamped and in the rest state of the Holding members extend starting in a first common plane and that for a set of wire spring switch contacts a single, common and fixedly arranged deflecting member is provided, which in the area of the linear expansion of the wire spring switch contacts on this and the free Ends of the wire spring switch contacts uniformly with substantially matching forces from the first common level against a second common level and attack on the corresponding

Fixed contacts bends.

In this way, essentially matching prestressing forces can be applied to the individual Achieve springs without individual adjustment and deformation of the wire spring would be required because the deflector with a straight line and for everyone that can be easily produced with high dimensional accuracy Wire springs common contact edge can be provided. Also the alignment of such common, straight contact edge with respect to the common starting plane of the wire springs in practice no difficulties, so that the matching spring preload from the start can be realized.

The arrangement according to the invention can advantageously also be used for several sets of wire spring switch contacts be applied. Here, for example, it can be assumed that in which a first holding member located on the outside within a support body on one side inside the support body on the inside second holding member and one inside the support body the other side external third holding member is provided, the latter also having a clamping surface which is assigned to an additional clamping surface of the second holding member. Here is then, according to an advantageous embodiment of the invention, a second set of wire spring switch contacts between the additional clamping surface of the inner second holding member and the clamping surface of the external third holding member in a first common for this contact spring set Clamped level, while also for the second set of wire spring switch contacts a single, common one and a fixed deflecting member is provided, which is in the region of the longitudinal expansion the wire spring switch contacts engages this and the free ends of the wire spring switch contacts uniform with substantially matching forces from their first common Level against a second common level and to attack at the corresponding fesi contacts.

Furthermore, the switching device according to the invention can advantageously be designed so that in the outer holding member and in the inner holding member in the area of their neighboring Clamping surfaces aligned recesses are provided with the corresponding wire spring switch contacts Record connected support elements. In this way, a set of wire springs can be provided with a common support element connect and so as a structural unit in a single operation between the associated holding members insert, the clamping surfaces and contact edge then in the manner mentioned for the desired ensure uniform pretensioning.

The invention is further illustrated by an exemplary embodiment with reference to the drawings explained. Herein shows

F i g. 1 is a side view of a relay with an arrangement according to the invention from FIG. Wire spring switch contacts,

F i g. 2 is a partial cross section of a relay according to Figure ^1.:

.Fig. 3 shows a longitudinal section of the contact arrangement of the relay according to FIG. 1 in a switching state that is opposite to this representation,

F i g. 4 is a perspective view of a set of wire spring switch contacts connected by a support element;

Fig. 5 shows a partial cross-section of the relay accordingly the line denoted by the line 5-5 in Fig. 1 and

F i g. 6 shows a diagram of the frequency distribution of the contact force for a larger number of contact arrangements designed according to the invention.

The relay shown comprises according to FIG. 1 a contact arrangement designated as a whole by 20 and a switching drive 60. The contact arrangement comprises an inner holding member 22 and two outer holding members 23 and 24. These retaining members are made of insulating material. The holding members 23 and 24 are identical formed and each assigned to a set of wire spring switch contacts.

Like F i g. 3 shows, the holding member 23 is elongate and includes a deflecting member 25 as well a projection 26, which extends on the same longitudinal side, but at opposite ends of the holding member 23 are located. The holding member 25 runs out into an edge 27, while the projection 26 is a corresponding oriented clamping surface 29 with a

has pocket-shaped recess 28. The edge 27 is designed such that it is transverse to the holding member 23 engages inward to a greater extent than the clamping surface 29. The holding member 22 comprises two Recesses 31 and 32 in opposite clamping surfaces 33 and 35 of this holding member. In the Holding member 22 is shown in FIG. 3 a set of fixed contact springs 37 molded into it. Appropriately they protrude Fixed contact springs 37 on both sides beyond the holding member 22. The fixed contact springs 37 can z. B. consist of a copper-nickel alloy. One end of each fixed contact spring has a A pair of opposing fixed contacts 38 and 39 are provided which, for. B. consist of a noble metal be able.

According to FIG. 3, each fixed contact spring 37 is assigned a pair of wire spring switch contacts 40 and 41. As Fig. 1 shows, a set of wire spring switch contacts 40 is embedded in a support element 42, creating a comb-like arrangement. Corresponding is a set of wire spring switch contacts 41 embedded in a support element 43.

The wire spring switch contacts 40 and 41 are between the inner holding member 22 and one each the outer holding members 23, 24 clamped. According to FIG. 3, the support element 42 is in a recess 31 of the holding member 22 and centered in a recess 28 of the holding member 23 aligned therewith. the Recesses 28 and 31 together thus form a receptacle 44 for the support element that arrests on all sides 42. The same applies to the other side of the holding member 22 with the recess 32 with respect to the support element 43 with the wire spring switch contacts 41. In this way, all wire spring switch contacts and the fixed contacts are set in a defined position. Furthermore, all deviations from the Wire springs of a set from a common plane, e.g. B. 45, by the restraint between the Holding members 22 and 23 excluded.

According to FIG. 3, the plane 45 is arranged parallel to a further plane 46 in which the longitudinal axis the fixed contact springs 37 lie. There is another level 47 between levels 45 and 46 indicated, which the edge 27 of the deflector 25 touches.

According to FIG. 3 is a free end 48 of each wire spring switch contact 40 from the common Plane 45 is bent and runs over the edge 27 to a rest position on the associated fixed contact 38. The bending line of the wire springs corresponds to that of one clamped or clamped at both ends. supported and in between by transverse load stressed beam. When the free end 48 of Fixed contact 38 is unaffected, this end takes a position under the influence of the deflection corresponding to line 49 in FIG. 3 a. Furthermore, if the free ends of the rest embedded in the support element 42 Wire springs are without support, then these are removed from the edge 27 in a corresponding manner turned. Since the clamping surfaces 29 and 33 hold all wire springs in the common plane 45, so the deflection caused by the edge 27 in the wire springs is essentially for all in a support body 42 embedded wire springs the same. As a result, all wire springs inevitably lie in a common plane corresponding to line 49 in FIG. 3, when the free ends of the Springs are without support. The starting point of the curvature is therefore in all mating contact springs in a common plane when in contact with an associated fixed contact spring and then Bend at the edge 27 occurs. As a result, each wire spring contains in its of the line 49 under the influence of the associated fixed contact spring deviating bending position the same stored, elastic deformation energy. The occurring deviations of the contact force from an average value

ίο the contact force or pretension therefore remain ■ within small limits.

Tests with the switching device described have shown that the contact force can easily be kept within 8 to 12 grams. F i g. 6 shows in diagram form the frequency distributions of the contact springs of a number of switching devices according to the invention over the contact force P. The specified range χ of 8 to 12 grams is clearly not exceeded.

All wire spring switch contacts are in operative connection with the switching drive 60, namely by means of a control disk 50, the two stop edges 51 and 52 for the wire spring switch contacts. In the switch position according to FIG. 2 stands the Stop edge 51 in contact with the wire spring switch contacts 41 of the support element 42, while the stop edge 52 is assigned to the wire spring switch contacts 40 of the support element 52, but without Contact with this is. In the switching position according to FIG. 1, on the other hand, the control disk 50 is due to the corresponding Movement of the switching indicator in contact with the wire spring switching contacts 40.

The switching drive 21 according to FIG. 1 comprises a magnet with armature 61 and excitation winding 62. The The core of the magnet comprises two legs 63 and 64 which terminate in wedge-shaped pointed end sections. The latter lie in a common plane 65 according to FIG. 1.

The armature 61 is L-shaped and comprises a longer leg 66 and a shorter leg 67. The excitation winding 62 with bobbin 68 sits on the leg 64 of the magnet core. The legs 66 and 67 of the armature are also wedge-shaped and lie in a common plane 69 according to FIG. 1. The armature 61 is connected to the magnet core by a hinge spring 70, one end of which is connected to the shorter leg 63 of the magnet core and the other end is connected to the longer leg 66 of the armature 61. When the relay is in the energized state, all of the wedge surfaces of the armature and magnetic core lie in the common plane 65. Both parts form a closed magnetic flux path through the excitation winding 62.

A bracket 71 is attached to the longer leg 66 of the armature 61, which according to FIG. 2 has two lateral hook sections 72 and 73 for engaging the control disk 50. A return spring 74 acts on the opposite end of the control disk 50, which is the upper end in the representations shown, and acts in the opposite direction to the tightening movement of the armature 61 and is fastened to the outer holding member 23.
By energizing the switching drive 60, the control disk 50 is pulled downwards by means of the bracket 71, whereby according to FIG. 3 bent over the stop edge 51 protruding wire spring switching contacts 41 and removed from the fixed contacts 39

be separated. On the other hand, the wire spring switch contacts 40 now grip the stop edge without touching 52 and come into connection with the respectively associated fixed contacts 38.

As a result, the circuits via the Wire spring switch contacts 40 and the fixed contact springs 37 closed.

After de-energizing the switching drive 21, the return spring 74 pulls the control disk 50 upwards, with the bracket 71 pivots the armature 61 on the hinge spring 70 upwards. The stop edge lifts here 52 the wire spring switch contacts 40 of the

Spring contacts 38 from, while the stop edge 51 is now the contact between the wire spring switch contacts 41 and the fixed contacts 39 releases (Fig. 1).

The circuits via the fixed contact springs 37 and the wire spring switch contacts are now reversed 40 interrupted, the circuits via the wire spring switch contacts 41 and the fixed contact springs 37 closed on the other hand. The relay

ίο thus forms a changeover switch with a contact-making one Rest position. The device shown represents an advantageous embodiment of a small relay with low Deviations in contact force.

1 sheet of drawings

109 582/239

Claims (3)

1 2 are seen with the corresponding wire palent claims: spring switch contacts (40 'or 41) connected Take up support elements (42 or 43).
1. Electrical switching device with a A plurality of mutually parallel in a 5 fixed contacts arranged on a common level, an equal number of also to each other The invention relates to an electrical parallel switching! and in a common plane arrangement with a plurality of parallel and corresponding Fesikontakten arranged in a common plane Festkonfluchtend assigned wire spring sound contact clocks, an equal number of also clocks to each other and with an actuator for the parallel and in a common Level arranged-sound movement of the wire spring Sclialtkontakte in th and corresponding Festkoniakten in alignment with the fixed contact, with a first assigned wire spring Sclialtkontakteh and with a holding member with a clamping surface and a two- one actuator for the switching movement of the les holding member, which latter one is provided 15 wire spring switch contacts with respect to the Festkonan of the clamping surface of the first holding member an- takt, wherein a first holding member with a clamp-arranged clamping surface and wherein the surface and a second holding member is provided, fixed contacts from the second Hal teglied from which the latter is arranged standing on the clamping surface of the first, characterized by holding members arranged clamping surface and characterized in that the wire spring switch contacts 20 with the fixed contacts of the second holding member (40) between the clamping surfaces of the two are arranged above are.
Holding members are clamped and in the idle electrical switching devices with wire spring state from the holding members starting in a sound contact, which extend in a common plane parersten common plane (45) and are allel side by side and with zudaß for a set of wire spring sound contact 25 associated , also arranged in parallel in a plane, a single, common and permanently arranged fixed contacts can come into operative connection, deflection member (25) is provided. B. from the German patent range of the linear expansion of the wire spring 1 015 537 known. As is generally the case with electromecha switching contacts and the free niche switching devices, here too the ends of the wire spring switching contacts must be uniformly compressive between the contacts in contact with one another with substantially matching forces, ie. the Konlaklkraft, within ten from the first common level (45) against given limits are echoed. For this purpose, as a second common level (49) and also for the maintenance of a matching handle on the corresponding Fesikontakten (38, switching time point if there are several within a 39) bends out. 35 switching device is parallel actuated contacts 2. Switching device according to claim 1, in which a conlact springs acted upon within correspondingly narrow limits within a support body on the one matching bias of the first holding member, an inner actuating member, which is parallel by the loading rope, in its second rest position, which is within the support body. In order to maintain such a pre-tensioning hall element and an opening within the support body with a plurality of contact springs, an adjustment of the individual elements is generally provided up to the other side, the third holder, the latter also having contact springs through corresponding deformation with a clamping surface that are associated with an additional subsequent measurement and control of the preload clamping surface of the second holding member or contact force. As a result, a net is characterized in that a two-part 45 requires additional manufacturing costs. Problema set of wire spring switch contacts (41) between the adjustment is designed especially when the additional clamping surface (35) of the equally hard, ie short or thick Konlaklinnenlicgend second Hall link (22) and the springs, which are already minor dimensional lole clamping surface of the external third retaining ranks and deformation deviations in a star member (24) in a first level common to this contact spring set 50 kcn change in preload or contact force is clamped and made noticeable. that also for the second salt of wire spring- A switching device with in a common Schallkontaklcn (41) a single, common level superposed fixed contacts and and a fixed deflector is provided, Schaltkonlaklen is also from the German which is known in the area of linear expansion of 55 patent specification 676 355, but for Drahlfeder-Schaltkonlaktc attacks on these and each Schallkoniakt a special contact edge the free find the Drahlfcder sound contacts or the like on a tendon is required. the uniform with essentially across-the-board inevitably comparatively large dimensional tolerances doing forces from their first joint such more or less complicated trained Level against a second common level and 60 and offset from one another Attack on the corresponding face makes here also an individual adjustment of the accounts (37, 38) bends. Lactic feathers with the help of adjusting screws for the 3. Switching device according to claim 1 cider 2, zclncn springs required. characterized in that in the external further is from the German patent specification 956 605 gendcn holding member (23 or 24) and in which 65 a switching device with an insulating comb inner holding member (22) in the area of their knows, which has a plurality of incisions for each neighboring Kleniiiifflächen milciander curse one of the contact springs arranged one above the other lcndc has recesses (28 and 31 or 32). With this type of training, the