DE823618C - Electrical isolating contact with a resilient and a rigid contact part, especially for electrical installation switchgear - Google Patents

Description

Electrical isolating contact with a resilient and a rigid contact part, especially for electrical installation switchgear For all electrical switchgear is to ensure a good, permanent contact with always low contact resistance of paramount importance. With 'small switching devices, for example the so-called Installation equipment such as rotary, toggle, push-button, lever switches, circuit breakers, Installation self-switches, etc., are compounded by the fact that the contacts themselves can only be kept small, so have a low heat capacity and also have to be accommodated in a small space. Lever switches are known whose rigid contact blade is a resilient contact in the form of a U-shaped bracket is assigned, but it causes difficulties between the contact knife and U-Biigel really to achieve a surface contact, usually only a linear one or even only point-like contact, which leads to high contact heating and therefore premature destruction of the contacts leads. It is known, for example, for flat contact plug devices to train the resilient (stationary) contact in such a way that several of their length after slotted tubes (sockets) are provided concentrically one inside the other, the rigid mating contact with the end faces created by the longitudinal slots grasp like pliers. If the contact sockets are also perpendicular to the direction of movement the rigid mating contact is provided with incisions, numerous arise independently mutually effective resilient flaps that have a particularly elastic, on the other hand but result in a high contact pressure. Such designs have turned out to be the best proven, but these known contacts point at the transition point to the terminal lug too small a cross-section, the with high current load, z. B. in a circuit breaker for lighting circuits, so-called small circuit breakers, leads to excessive contact heating and premature contact destruction.

The invention relates to an electrical isolating contact with a resilient one and a rigid contact part, especially for electrical installation switching devices, whose resilient contact part consists of one or more symmetrically nested There is a U-shaped bracket, the freely resilient ends of which with their end faces serve as contact-making surfaces. The invention achieves a significant increase in performance the switching devices mentioned in that the contact-making end faces of each the existing contact clip in a common, adapted to the shape of the mating contact Be arranged level. The spring contacts thus include the mating contact in contrast to the known designs not like pliers, but the contact bracket or that Contact bracket package lies with those formed by the free front ends of the U-legs Areas if it is z. B. to the switch knife of a lever switch 'is on one and the same side of this knife on this one. That doesn't rule out that in such an exemplary embodiment, one on both sides of the contact blade or several contact clips with contact-making end faces are arranged, it this will even be the rule. The contact bracket, regardless of whether one or both sides of the mating contact arranged, are expedient insofar as they are on the same side of the mating contact are arranged, approximately in the middle of their transverse legs electrically and mechanically interconnected, e.g. B. welded together. here we can the contact clip combined to form a terminal lug or connected to one will. This terminal lug can have any sufficient cross-section, so that even very high current loads can be absorbed. The invention offers but still other possibilities. You can z. B. achieve special circuits, by isolating the rigid mating contact with at least two electrically from each other Contact bridges are provided: The spring contacts can be made from stamped sheet metal, the resilient tab formed by slots, the free ends of which independently effective 'form contact-making end faces. That makes it easier and cheaper to manufacture.

The drawing shows exemplary embodiments.

Figs. I to 4 illustrate an embodiment of a flat contact socket or z. B. the stationary contact of a lever switch, Fig. I is a section according to line C-D of Fig. 3; Fig. 2 shows a section along line L-F of A bb. 3, Fig.3 is a top view, partially in section, showing ciline protective cap, while Figure 4 illustrates a section on line A-B of Figure 3; Fig. 5 leaves a Recognize the possibility of modification, especially in terms of circuitry, while Fig.6 shows an embodiment in which only on one side, for example one Contact blade, bracket contacts are provided; Fig. 7 shows again purely schematically modified circuitry; Fig. 8 shows the development of the spring contacts according to the orders of All>. i 1> is 4 and 6, 7, Fig. 9 the development of the Spring contacts according to Fig. 5.

In all the exemplary embodiments, eiii is the mobile contact rigid, flat knife 2 provided, the z. B. as a flat pin of a plug (Light plug-in device) or as insertable and disengageable by means of a gearbox Switching piece of a lever switch is formed. In the execution according to Fig. I to .4 it is in particular a Flac'hstiftsteckvorrichtung whose stationary Contact parts (spring clips) in a base naturally made of insulating material 3 are stored and provided with any cover, not shown. Of the Fixed resilient contact is provided by U-shaped brackets 4, 5, 6 or 7, 8, 9 formed, the free end faces io for contact with the movable contact 2 arrive. Due to the peculiar design of this punched from sheet metal and then Curved spring contacts (see Fig. 8 and 9) are created in particular by the slots i r numerous, independently effective contact tongues 12, their free end faces io serve as contact-making surfaces. 1> aThis guarantees that it really is there is extensive contact, i.e. the contact heating is greatly reduced, the service life of the contacts is significantly increased. The contact clips that belong together 4, 5, 6 or 7, - 8, 9, the number of which is of course reduced or depending on the requirements can be enlarged, are somehow in the middle of the transverse U-leg summarized, e.g. B. clamped in the base 3 or they can here with each other be welded, soldered, screwed and the like, - as in Figs. 3 and 5 is indicated by a radio 2o. From here the contact clips go into a terminal lug 13 and 14 over, which have grown a large, 'strong, high current load Has cross section and a connecting screw 15 carries. When running after 2Ub. i to 4 the current runs in the direction of the arrows illustrated in Fig. 3, it enters at the terminal trap 13 and leaves the switching device at the terminal lug 14. It is therefore with respect to the contact bracket 4, 5, 6 on the one hand, the bracket 7, 8, 9 on the other hand, series connection, the circuit is established by inserting or Remove the pin 2 closed or open. With the arrangement according to Figure 5, which in the rest does not differ from that according to Fig. i to 4, is the Circuit carried out so that the spring clips 4, 5, 6 on the one hand, 7, 8, 9 on the other hand parallel to each other lie: The current occurs at the connection lug 13 and leaves the switching device, for. B. a lever switch, via (read cutting knife 2.

While in the designs according to Fig. I to 5 each rigid contact 2 "on both sides are assigned spring clips 4, 5, 6 or 7, 8, 9, the switching device, z. B. also plug-in device, according to Fig. 6 only on one side of the rigid contact 2 spring clips 4, 5, 6, also here in the proposed according to the invention Way with their free end faces io form the contact-making surfaces.

In the embodiment according to Fig.7, the also resilient contact clip 4, 5, 6 and 7, B. 9 as can be seen in the examples according to Fig. I to 5, is the rigid contact part, e.g. B. the cutting knife of a lever switch, not as in the embodiments according to Fig. i to 5 made of T-Ietall, but it consists made of insulating material 16 and carries contact pads 17, 18 on both sides State, the current runs in the direction of the arrows drawn via a current consumer i9. This embodiment in conjunction with those according to Fig. I to 6 shows that the Invention the adaptation of the switching device to a wide variety of requirements (Interconnection, parallel connection, branch connection, etc.) permitted.

Figs. 8 and 9 illustrate the developments of particularly advantageous 'manufacturable spring contacts according to the invention and show that the production by cutting or punching and bending is very simple. Each spring contact 4, 5, 6 or 7, 8, 9 is in one piece, thus ensuring the lowest possible voltage drop, nevertheless, each spring contact has a multiplicity of slots as a result of the slots i 1 contact-making surfaces on the front edges io, so that the contact also itself if a single contact lug 12 or several of them fail, the lowest contact load, therefore brought life to the separating contact according to the invention guaranteed. the Manufacture of the U-shaped spring contacts is simple, causes little waste and results in excellent surface contacts.

Claims (6)

PATENT CLAIMS: i. Electrical isolating contact with a resilient and a rigid contact part, in particular for electrical installation switching devices, the resilient contact part of which consists of one or more symmetrically nested U-shaped brackets, the freely resilient ends of which serve as contact-making surfaces, characterized in that the 'contact-making end faces (io) of the contact bracket or brackets (4, 5, 6 or 4, 5, 6 and 7, 8, 9), namely each individual bracket arranged in a common plane adapted to the shape of the rigid mating contact (2) are. 2. Electrical isolating contact according to claim i, characterized in that that the rigid contact part (2) in more than one! B. one or more U-shaped contact clips on both sides of a contact blade (2) (4, 5, 6; 7, 8, 9) are assigned with contact-making end faces (io). 3. Electric Isolating contact according to claim i or i and 2, characterized in that in the case of several symmetrically nested U-brackets (4, 5, 6; 4, 5, 6, 7, 8, 9) this approximately in the middle (20) of its transverse leg electrically or mechanically or electrically and mechanically interconnected, e.g. B. are welded. 4. Electrical isolating contact according to claim i, i and 2 or i to 3, characterized in that the or the U-brackets (4, 5; 6; 4, 5, 6, 7, 8, 9) arranged symmetrically one inside the other in their middle crosspiece to form a connecting lug (13,14) or combined with one such are connected. 5. Electrical Tremiikontakt according to claim i, i and 2, i to 3 or i to 4, characterized in that the rigid mating contact (2) at least two mutually insulated contact bridges (17,18), each with one or several U-shaped spring clips (4, 5, 6, 7, 8, 9) on their end faces (io) in making contact. 6. Electrical isolating contact according to claim i, i and 2, i to 3, i to 4 or i to 5, characterized in that each spring contact (4, 5, 6, 7, 8, 9) consists of a stamped sheet metal (Fig. 8, 9); that by bending is brought into the required shape and formed by slots (i i) Has resilient tabs (12), the free ends of which act independently of one another 'Form contact-making end faces (io).