DE4305746A1 - Switching arrangement for receiving and switching load switches - Google Patents

Abstract

The invention is based on a switching arrangement having a housing (1, 2) for accommodating and for switching load interrupter switches, and having connecting block operation. The invention has the object of structurally and functionally improving such an arrangement. In particular, it is intended to be capable of being used for accommodating and switching load interrupter switches of different construction, and of reducing storage. To this end, it is initially provided according to the invention that two connecting blocks (3) are arranged side by side and parallel to one another in a common housing (1, 2) and that both connecting blocks can be operated, that is to say can be displaced. <IMAGE>

Description

The invention relates to a switching arrangement with a housing Recording and for switching load switches, as well as with a Safety edge actuation. The load switches can from ver be of different types, e.g. B. as a load break switch or Diverter switch. These load switches can be provided with fuses. Here are different Executions known. From the operators of such switches will be as versatile as possible and further requires a large number of installation advantages. So far the known switch at all these requirements ge can be right, there is the disadvantage of a large one Number of device versions for the different Applications. This, in turn, requires a considerable majority effort in production and especially in the warehouse attitude. Another major disadvantage of the prior Ten load switch is that it is only one Schaltlei have ste and hereby have only two switching contacts. As a result, one is in the size of the currents to be switched limits, because otherwise an impermissibly large arc  would occur.

The object of the invention is first of all a Arrangement according to the preamble of claim 1 to train them to record and switch Load switches of different designs can serve and the considerable additional effort and the large inventory of the above-described prior art.

The solution to this problem is based on the generic term of claim 1, first seen in that a correspond Appropriately dimensioned housing and two safety edges are arranged side by side and parallel to each other, and that both safety edges to operate, d. H. to postpone are. The arrangement of two safety edges enables different load switches in one and the same previously usual housings to accommodate larger housings and to be switched by the two safety edges. Hereby the manufacturing effort is significantly reduced. It ent is a modular system in which the user always Has housing of the same dimensions, so that it in his appendix conditions for the inclusion of the switches always with the same Project dimensions. One can, for example Switch disconnectors with fuses (so-called fuse load switch) and diverter switch in one and the same housing accommodate and actuate with the safety edges mentioned gen. Thus, with the same switching capacity, the arrangement from the housing and two switching strips according to the invention we be built considerably more compact than the housing known switch with only one safety edge. Possibly there are still some parts to be replaced and switch con clock to position.

Another object of the invention is to provide a Load switches of approximately the same dimensions as in the past knew the switches with only one isolating bar To be able to double the strength of the current to be switched.  

The features of claim 2 serve for this purpose two switch contacts one has four switch contacts, whereby by the synchronous actuation of the two safety edges for one Simultaneity of power interruptions is ensured. In this way, compared to correspondingly large, previously known Switches with only two switch contacts and in compliance the same size of arcing currents with about double strength can be switched. Preferably recommended a synchronous and opposite movement of the two safety edges according to claim 3.

The features of claim 5 not only allow easy te interchangeability in the case of repairs, but also the possibility to take out a safety edge and, if necessary, only with a safety edge to be able to work.

If, for any reason, independence in the Actuation of the two safety edges should be desired this is possible with the features of claim 6.

Other advantages and features of the invention are the wide ren subclaims and the following description and the associated drawings of Ausfüh invention options. In the drawing shows

Fig. 1 is a plan view of the lower housing part with the two switching strips, switching contacts and parts of the switching mechanism in the switching "off" position,

Fig. 2 shows a section according to line II-II in Fig. 1, but in switch position "A",

Fig. 3 is a side view of an embodiment analogous to FIG. 1, 2 with side drive,

Fig. 4 is a variant of such a side view, with a central drive,

Fig. 5 is a plan view of another embodiment of the invention,

Fig. 6 shows a section according to line VI-VI in Fig. 5 (compound phase L1),

Fig. 7 shows a section according to line VII-VII in Fig. 5 (compound phase L2),

Fig. 8 is a section along the line VIII-VIII in Fig. 5 (connection phase L3) and

Fig. 9 to 9d basic representations, such as a housing and that beel, which is provided with two switching strips, can accommodate and switch different forms of circuit breakers.

The housing, which is frame-like in plan view (see FIG. 1), consists of the lower housing part 1 and an upper housing part 2 . In the lower housing part 1 two switching strips 3 are mounted in their longitudinal directions 3'-3 'longitudinally displaceable. This shift takes place synchronously and in opposite directions by means of a spring switching mechanism 4 common here, the structure and function of which will be explained in more detail below. In the lower housing part 1 there are the connecting contacts 5 . In the upper housing part 2 , the mating contacts 6 are mounted, which lead for example to the network or to consumers. Depending on their sliding position, the switching strips 3 connect with their switching contacts 7, the contact 5 contacts with the mating contacts 6 or they separate such a connection. This is known from the prior art when using only one safety edge and is therefore not explained in detail here and shown in the drawing. Compared to the aforementioned prior art, however, there is the already mentioned difference that here switching strips with two switching contacts 7 per phase are seen before, so that a total of four switching contacts are obtained. The switching contacts 7 are pressed against the connection contacts 5 , 6 by means of a pressure spring 8 . According to FIG. 1, the mating contacts 6 lead to a fuse 9 , ie in this exemplary embodiment the circuit of a fuse switch is involved. Are the switching contacts 7 of both switching strips 3 shown in FIG. 1 in the disconnected position in which they do not contact the contact points 5 'of the circuit contacts 5 and also have no contact to the corresponding contact points of the mating contacts 6 , then the fuse 9 can the mating contacts 6 are removed without the risk of voltage contact and / or the occurrence of a correspondingly high arc which injures the person. Above FIG. 2, a variant of such a fuse is shown according to number 9 '.

The safety edge 3 consists of an insulating material, the carrier 10 of the switch contacts 7, however, from a direct the material, for. B. a metal such as copper.

As can be seen in more detail 9-9d from the schematic illustrations of FIGS., May be the same housing 1, 2 are different for receiving load switch. Thus, its width b and its length l can be a standard measure for the planning of electrical systems in which such switches are to be used. In the transverse direction, ie viewed in the direction of the width b, the two switching strips 3 have a distance from one another which enables the detection of the circuit contacts 5 , 6 by means of the switching contacts 7 .

The spring switching mechanism 4 already mentioned above has two switching arms 11 on a drive disk 14 , which end in driver pins 12 which are approximately circular in cross section.

These move in recesses 13 of the ends of the switching strips 3 located at the bottom in FIG. 1. In this position of the safety edges 3 , the right safety edge is shifted upwards and the left safety edge is shifted downwards ("off" position of the contacts). If the selector shaft 14 of the rear derailleur 4 is rotated clockwise, after driving through a certain angle of rotation (calculated freewheel) the driver pins 12 come to rest against the surfaces 13 'of the recesses 13 , whereby the springs of the switch mechanism have already been partially tensioned. After going through another small swivel angle of z. B. 10 ° triggers the spring switching mechanism and suddenly moves the two switching strips 3 in the arrow directions 14 , 15 against upwards or downwards in the switching position "on", in which the switching contacts 7 of the switching strips make contact (see Fig . 2). Then a current can flow from the left terminal contact 5 via the contact Gegenkon 6 and the fuse 9 to the right in Fig. 2 shown th terminal contact 5 . During the aforementioned swiveling movement by a small angle of 10 °, the switching strips are forcibly moved somewhat in the direction of the arrows 14 , 15 in order to forcibly separate contacts welded to one another. Due to the synchronism of this opposing movement of the safety edges, disconnection and contacting on both safety edges are at the same time, ie a common fourfold interruption or fourfold connection with the above-mentioned effect of reducing the arc or increasing the current to be switched. At a low leading separation of the switching contacts 7 from the counter contacts 6 the arcing is reduced even further.

For manufacturing reasons, it is advisable to design the switching strips 3 which are dark in their end edges in FIG. 1 for the sake of clarity, so that one and the same switching strip can be used for the left and for the right switching strip.

The side view of FIG. 1 is shown in FIG. 3, the numbering from FIG. 1, 2 being adopted and the cutting line being guided through the longitudinal central axis according to the dash-dotted line III-III in FIG. 1. The switching strip 3 according to Fig. 3 corresponding to Fig. 1 right half in the position in which the contacts 6, 5 and 5 'do not connect to each other, ie switch position "Off". A shift of this switching strip shown in FIG. 3 by means of the switching mechanism 4 to the right (this would correspond to the shifting of the switching strip shown on the right in FIG. 1 downward) then brings its two switching contacts 7 into contact with the connecting contacts 5 , 5 'and 6 .

The fuses 9 are inserted or pulled out from above into a fork-like plug holder 15 of the mating contacts 6 .

Fig. 4 shows the side view of Fig. 3, but with the modification that Fig. 4 shows the variant of the invention to provide the spring mechanism 4 in the middle. The respective square selector shaft 14 is rotatably supported at one end in the lower housing part 1 and at the other end in the upper housing part 2 .

Clearances 16 , 17 can be provided in the lower housing part, which can also be configured in a different configuration than shown in the drawings. So you can lead 16 switch contacts directly down to current rails via the free space (see the exemplary embodiment explained below of FIGS. 5-8). Magnets can also be accommodated in the free space. In the open spaces 17 one can have space for the collection and later discharge of ionized gases and the like and more.

The embodiment of FIGS. 5-8 shows how a load switch according to the invention is placed directly on busbars L1, L2 and L3 and can thus be connected mechanically and electrically. Each of these three busbars is an adaptation in the form of a claw-like screw fastening 16 for the rail L1, 17 for the busbar L2 and 18 for the busbar L3 and associated contacts 16 ', 17 ' and 18 'with the respective switching strip 3 (there are two safety edges are also provided here) electrically connected. Four-contact circuits also take place here, with counter-terminal contacts 6 likewise being led upward out of the switch in accordance with the previous exemplary embodiment. Instead of the described fastening by means of screwing to the busbars, contacting with the busbars L1, L2 and L3 could also be provided by means of conventional, separate adapter plates.

The clamping claws 16-18 are positioned with their contact fastening screws 19 so that they are accessible overall from outside the switchgear, as indicated by the arrows 20 . From Figs. 6-8 will be further appreciated that the terminals and adapter 16 are located on the bottom surface 1 'of the lower housing part 1.

The top view of FIG. 5 shows that the rails L1, L2 and L3 form the current leads, while the current leads are formed by connection contacts 5, which are shown in FIG. 5 below. The neutral conductor, on the other hand, has a connection contact 5 (N) for the input as well as for the output.

9-9d illustrate schematically the Fig., As the invention having one and the same housing and optionally replacement of individual parts, such as terminal contacts and removal can provide a switching strip, various switching device versions available to the user. This is the formation of different, but each provided with a housing and two switching strips switch, the Schaltlei most with the different connection and Gegenanschlußkon contacts 5 , 6 cooperate. These contacts can be exchanged and exchanged for other contacts, which is easily possible after loosening and lifting the upper housing part 2 from the lower housing part 1 . As a rule, the switching strips 3 can remain in the lower housing part.

So Fig. 9 shows a four-contact version with Kontaktkon contacts 5 , 6 and the two switching strips 3 , each switching strip being represented by two parallel lines. This corresponds to the version according to FIGS. 1-4, ie a switch disconnector with fuse.

Fig. 9a shows a switch disconnector, which corresponds essentially to the embodiment of FIG. 9, only that the fuse 9 is missing here and instead a contact bridge 21 is provided between the two mating contacts 6 , z. B. with on-off switches.

Another embodiment is shown in FIG. 9b in which the connecting contacts 5 leading to the consumer (only one of which is shown) can be connected via the switching strips 3 either to a network 22 or to an emergency power supply 23 , e.g. B. with switches. While in the execution examples of FIG. 9 and 9a, the switching bars 3 simultaneously and are counter-actuated one another (see the discussion of FIGS. 1-4), the timing of the movement of the switching strip is in the embodiment of Fig. 9b different . Assuming that there is a failure of the mains supply, first the switching strip 3 on the right in FIG. 9b is moved from the "on" position to the "off" position, and only then is the left switching strip 3 , which switches the emergency power generator, out of the position "Off" switched to the "On" position. So this is not synchronized with the shift of the right-hand safety edge, but after that.

Fig. 9c shows a on-off switch, which is provided with only one switch bar which by the arrows, is moved up and down according to and. This embodiment serves to demonstrate that a housing designed according to the invention for receiving two switching strips can also be used in this way, which increases the universality of the application.

Finally, FIG. 9d shows the switching principle of the embodiment of FIGS. 5-8, the numbering of FIGS. 5-8 in FIG. 9d being adopted for better understanding.

All the features explained and shown, as well as their Combinations with each other are essential to the invention.

Claims (18)

1. Switching arrangement with housing for receiving and for switching th switches, and with a Schaltleistebe actuation, characterized in that a correspondingly dimensioned housing ( 1 , 2 ) is provided and therein two switching strips ( 3 ) are arranged side by side and parallel to each other, and that to operate both safety edges, ie to move them. 2. Switching arrangement according to claim 1, characterized in that four connection contacts ( 5 , 5 ', 6 ) are provided on the load switch, that each switching strip has switching contacts or switching contact pairs ( 7 ) with which they have two of the aforementioned connection contacts ( 5 , 5 ', 6 ) switches and that a common switching actuation ( 4 ) is provided, which shifts both switching strips. 3. Switching arrangement according to claim 2, characterized in that the displacement of the switching strips ( 3 ) by means of the switching actuation ( 4 ) takes place synchronously and in opposite directions. 4. Switching arrangement according to one of claims 1 to 3, characterized in that the distances between the areas to be in contact areas of the connecting contacts ( 5 , 5 ', 6 ) of the switch are equal to the distances between the switching contacts ( 7 ) of the two switching strips , The longitudinal direction of a possible fuse ( 9 , 9 ') extends transversely to the longitudinal direction of the switching strips. 5. Switching arrangement according to one of claims 1 to 4, characterized in that the switching strips ( 3 ) detachably housed in the housing ( 1 , 2 ) and which are removable from the housing independently of one another. 6. Switching arrangement according to one of claims 1, 4, 5, characterized in that a separate switching operation is provided for each switching strip ( 3 ). 7. Switching arrangement according to one of claims 1 to 6, characterized by a switching actuation in the form of a spring switching mechanism ( 4 ) with two switching arms ( 11 ) which end in driver pins ( 12 ) which in recesses ( 13 ) of the respective switching strip ( 3 ) intervention. 8. Switching arrangement according to one of claims 1 to 7, there characterized in that the switching actuation one in its function the spring circuit becomes effective overriding the time, the safety edges forcibly a relatively short distance shifting shift points. 9. Switching arrangement according to one of claims 1, 2, 4 to 8, characterized by a switching actuation ( 4 ) and associated arrangement of switching strips ( 3 ) such that first one of the switching strips in the required position and only after the end of this shift the other of two safety edges is moved to their new switching position. 10. Switching arrangement according to one of claims 1 to 9, characterized in that the two switching strips ( 3 ) are congruent, but lie side by side within the switching arrangement. 11. Switching arrangement according to one of claims 1 to 10, characterized in that the housing in an upper housing part ( 2 ) and a lower housing part ( 1 ) is separated, the switching strips ( 3 ) and associated connecting contacts ( 5 , 5 ') themselves in the lower part of the housing ( 1 ) and the counter-contacts ( 6 ) and possibly fuses in the upper part of the housing ( 2 ). 12. Switching arrangement according to claim 11, characterized in that the connecting contacts ( 5 ) at the joint between the upper housing part ( 2 ) and lower housing part ( 1 ) are led out laterally from the housing and held between the two housing parts. 13. Switching arrangement according to claim 11 or 12, characterized in that the counter-terminal contacts ( 6 ) are led out of the upper housing part. 14. Switching arrangement according to one of claims 11 to 13, characterized in that the connecting contacts ( 5 , 5 ', 6 ) releasably and removably seteilen in or between the housings ( 1 , 2 ) are arranged. 15. Switching arrangement according to one of claims 1 to 10, characterized in that the housing ( 1 , 2 ) with downwardly leading connection contacts ( 16 ', 17 ', 18 ') and these mechanically with current supply rails (L1, L2, L3) as well as electrically connected. 16. Switching arrangement according to claim 15, characterized in that the connection between the connecting contacts ( 16 ', 17 ', 18 ') and the power supply rails (L1, L2, L3) by adapter claws ( 16 , 17 , 18 ). 17. Switching arrangement according to claim 16 or 17, characterized in that contact fastening screws of the power supply rails (L1, L2, L3) on the contacts ( 16 ', 17 ', 18 ') positio nated outside the housing or below an opening in the housing are that they are accessible from the outside of the housing for their actuation. 18. Switching arrangement according to one of claims 1 to 17, characterized by one or more spaces in the lower housing part ( 1 ).