DE3840482A1 - ELECTRIC SELF-SWITCH - Google Patents

Description

The invention relates to an electric scarf ter, in particular a main circuit breaker for se selective interruption of individually secured ver consumer circuits, with a main contact point and a secondary contact point connected in parallel, with a main switchgear with a latching point to operate the main and secondary contact point.

Recently, more and more has become established, individually secured consumer networks through upstream so-called to protect main automatic circuit breakers on the network side. There it is important that when a fault occurs in a consumer that short-circuit in the associated Circuit leads, not the other associated consumption networks by addressing the main circuit breaker be disconnected from the supply network, as is the case during use of fuses is necessarily the case.  

Instead, the main circuit breaker should be selective address, d. that is, the power supply should initially ge remain guaranteed, at least until the be fuse associated with the affected consumer has disconnected the leading circuit from the mains without that the other consumer networks are affected.

On the other hand, in the case of impermissibly high overcurrents, for example due to a short circuit between the upstream main circuit breakers and the downstream switched, individually secured consumer networks safe shutdown can be guaranteed.

With various known main fuse tomatoes (DE-PS 28 54 616, DE-PS 28 54 711) for se selective shutdown of individually secured consumption circuits when an impermissibly high level occurs Stroms z. B. serve as a result of short circuit, are switching devices provided that the current from a main Switch the current path to a secondary current path. This Branch current path is designed to be high-resistance, so that only there is a reduced current flow.

For the selective shutdown or interruption of the Current flow, it is important that the voltage value does not fall below 70% of its nominal value as this will result otherwise in the consumer circuits not affected inserted self-holding contactors can fall off nen. In addition, it is also desirable that the selective interruption of the power supply deadlines is z. B. on 1/4 or 1/2 period of concern the mains frequency. Compliance with these criteria is in the known automatic circuit breakers only with erhebli chem effort guaranteed.

Starting from the prior art mentioned above it is therefore an object of the invention a circuit breaker to create the type mentioned, the known Avoids disadvantages and with extensive use of usual for the production of simple auto switches Series parts can be produced inexpensively.

The solution to the problem is thus ge indicates that a selective switching mechanism is provided, which cooperates with a delay device tet that responds when an overcurrent occurs and the selective switching mechanism acts on the selective switchgear in operative connection with the main switchgear stands that an impact anchor is provided, the on an overcurrent occurs the main contact point strikes and that a holding device to pass it is intended to keep the main contact point open, that works with the selective derailleur.

The selective switching mechanism according to the invention has here a jumper that is fixed around one in the switch housing arranged pivot point is pivotally mounted and for this purpose serves the outgoing from the delay device Acting on the holding device and on the Main switch to transmit.

In an expedient embodiment of the invention provided that the selective switching mechanism also has a rest has device together with the switching bridge works and regarding the operation of the head switching mechanism serves as a selection element, d. that is only acted on with delay, while giving otherwise the downstream, the affected consumption Line fuse assigned to the circuit network.  

The verse with the selective switching mechanism according to the invention hene electrical self-switch makes the rest of Ge need of that in the German patent application P 38 23 976.0 proposed delay device. Instead of this there can also be another delay direction, if it is suitable for Actuation of the switching bridge.

This and other advantageous embodiments of the Er invention are specified in the subclaims.

Based on an execution shown in the drawing example, the invention and advantageous from designs and improvements of the invention he closer are explained and described.

Show it:

Fig. 1 to 4 the fundamental structure of the OF INVENTION to the invention selective switching mechanism in different switching positions,

Fig. 1 upon activation of the selective switching mechanism tung by the Verzögerungseinrich,

Fig. 2 after short-term release of the selective switching mechanism,

Fig for new trigger the selective reasoner. 3 switches work by the tarry,

Fig. 4 rest position of the selective switching mechanism with a closed main contact point,

Fig. 5 partial view and longitudinal section through the schematic selective switching mechanism.

Fig. 1 shows the schematic structure of a belonging to an electrical circuit breaker Selective switch 10 , both with an indicated Darge main switching mechanism 11 and with a delay device 12 and a main contact point 14 acting holding device 16 cooperates tet.

The selective switching mechanism 10 consists essentially of a switching bridge 20 , which is pivotably mounted in a support bearing 21 over approximately half its length. In this way, two lever arms 22 , 23 of the switching bridge 20 are formed which, on the one hand, cooperate with the delay device 12 and via an actuating lever 24 with the holding device 16 and on the opposite side via a tab 26 and a locking lever 28 with the main switching mechanism 11 .

The control lever 24 of the articulated connecting in a rotary bearing 25 on the switch bridge 20 is, in unspecified ge showed housing of the electrical switching device is guided axially ver displaceable so that its urging direction is maintained for the holding device 16 always consistently turned.

The intended for acting on the switching bridge 20 delay means 12 has a bobbin 30 with a central cavity 31 in which a longitudinally displaceable armature 32 and a magnetic core 33 are arranged, is guided through which a service associated with the magnetic armature 32 plunger 34, the movement of the Magnetic armature 32 transfers to the switching bridge 20 . The force introduction point of the plunger 34 on the switching bridge 20 opposite a return spring 35 is arranged, which is supported on the housing or on an abutment connected to the delay device 12 . This ensures that the switching bridge 20 is always in operative connection with the delay device 12 .

The return spring 35 acts on the magnet armature 32 via the switching bridge 20 and the plunger 34 until the magnet armature 32 comes to rest against a stop 36 .

The support bridge 21 divides the switching bridge 20 into approximately two lever arms 22 , 23 of equal length. The lever arm 23 facing away from the delay device 12 also has a swivel joint 27 which is arranged at approximately the same distance from the support bearing 21 as the swivel joint 25 located on the lever arm 22 facing the delay device 12 .

The switching bridge 20 is connected in an articulated manner to the bracket 26 via the swivel joint 27 .

The tab 26 is a C-shaped transmission lever, which consists of a rectilinear part, at the sen ends bent at right angles legs 37 , 38 are formed. The leg 37 here adjoins the swivel joint 27 , while the opposite leg 38 is penetrated by a guide pin 39 which engages in a sliding guide 40 which is embedded in a holding plate 42 which is only indicated here and which comprises the selective switching mechanism 10 on both sides, as shown in FIG . is visible. 5

Also in the sliding guide 40 engages a pivot pin 29 connected to the locking lever 28 , which on the one hand enables a pivoting movement of the locking lever 28 and on the other hand its displacement within the longitudinal guide 40 .

The locking lever 28 is T-shaped and has on the end facing away from the pivot pin 29 a molded te nose 44 with a transverse to its longitudinal axis duri fenden contact surface 45th The provided with the pivot pin 29 end of the locking lever 28 is connected to a crossbar 46 arranged transversely thereto, one of which is acted upon by a compression spring 47 and whose opposite other end cooperates with the pivot bridge 20 .

For this purpose, at the free end of the lever arm 23 is of the swivel bridge 20, a bracket 48 integrally formed, or the switching of the bridge 20 occurs depending on the pivot position of the latch lever 28 to the crossmember 46 of the latch lever 28 in abutment or not.

In order to avoid malfunctions of the locking lever 28 , it may be appropriate to provide the crossmember 46 with a projection 49 which serves as a guide for the attacking pressure spring 47 .

The upper leg 38 of the tab 26 is adjacent to the main switching mechanism 11 , the pivotable release lever 50 with a pivotally arranged ratchet lever 52 forms a latching point 54 , which is acted upon by the locking lever 28 displaceable in the longitudinal guide 40 or by its nose 44 , as shown in Fig. 3, can be released.

Corresponding to the mode of operation of the selective switching mechanism 10 , FIG. 1 shows the switching state which it adopts after being acted upon by the delay device 12 as a result of a short-circuit current occurring in a downstream consumer network.

For this purpose, the delay device 12 is electrically connected so that it flows through the short-circuit current as well as a the main contact point 14 be striking anchor 60 , the pin 61 hits the main contact point 14 so that its movable contact piece 15 in the zugeord Neten holding device 16 latched.

As a result of the short-circuit current which floods the coil 30 of the delay device 12 , the Magnetan ker 32 is axially displaced from its rest position by the stop 36 , so that it with its plunger 34 the lever arm 22 of the switching bridge 20 of the selective switching mechanism 10 against the force of the return spring 35 so acted that the switching bridge 20 pivots about the pivot point 21 , where the opposite lever arm 23 moves upward and here the tab 26 , which is articulated in the pivot 27 on the switching bridge 20 , with the guide pin 39 arranged in the upper switching arm 38th in the longitudinal guide 40 slides up to the stop. As a result, the crossbeam 46 of the locking lever 28 is first released by lifting the holding bracket 48 , as can be seen in comparison to the switching position shown in FIG. 4, which shows the rest position in the switched-on state.

The locking lever 28 , which is also slidably guided in the longitudinal guide 40 , forms, together with the compression spring 47, an inert spring-mass system, the retention capacity of which is used as follows.

After the release of the cross member 46 of the locking lever 28 by the spontaneous lifting of the bracket 48 accordingly, the switching position shown in Fig. 4, the locking lever 28 , the spring force of the compression spring 47 fol gend, with a slight delay due to its Behar tion capacity in the counterclockwise direction. Since at the same time with the release of the crossmember 46 the tab 26 in the longitudinal guide 40 is shifted upwards and assumes this position earlier due to inertia than the locking lever 28 can pivot 28 , the guide pin 39 in the holding arm 38 of the tab 26 forms a stop for it the nose 44 of the locking lever 28 so that it can only perform a small swivel path - does not reach the vertical right position required for the actuation of the main switching mechanism.

The magnet armature 32 of the delay device 12 , the structure and mode of operation of which is dealt with in German patent application P 38 23 976.0, slides back within a defined period of time from the position shown in FIG. 1 towards the stop 36 .

An intermediate position reached when sliding back is shown in FIG. 2. The magnet armature 32 has wa half of its displacement. At the same time, the switching bridge 20 is also pivoted back a little at the stop with the plunger 34 due to the loading of the return spring 35 . This ensures that the tab 26 with the guide pin 39 in the longitudinal guide 40 moves to th un that the nose 44 of the locking lever 28 engages over the guide pin 39 , the locking lever 28 engages with its long side on the guide pin 39 and the stop surface 45 of the nose 44 of the locking lever enters the displacement path of the guide pin 39 .

In the middle position shown in FIG. 2, both of the magnet armature 32 of the delay device 12 and accordingly of the switching bridge 20 of the selective switching mechanism 10 , the actuating lever 24 just comes into contact with the holding device 16 for the main contact point 14 , but without the latching of the movable contact piece 15 of the main contact point 14 to solve in the holding device 16 .

If at this point the overcurrent detected by the delay device 12 and the anchor 60 , as shown in FIG. 1, is not yet switched off in the downstream consumer network, the circuit is again acted upon by the delay device 12 , the kinematic sequence of which is shown in FIG . 3 is shown.

According to the inventive selective switching mechanism 10 beauf the impact armature 32 beat again, the switching bridge 20 so that the angeord designated on the opposite lever arm 23 bracket 48 to release the cross bar 46 and the latch lever 28, the tab 44, the tab has hooked 26 on the guide pin 39, due to the previously described NEN longitudinal displacement of the tab 26 along the longitudinal guide 40 to the main switching mechanism 11 to its declining movement is movable. While the stop surface 45 of the Na se 44, the tab is supported on the guide pin 39 26, the latch lever is operated 28 with the abutment surface 45 opposite face of the latching lever 50 of the main switching mechanism 11 so that the pawl lever 52 is urged in the direction of the arrow P, this force fol can pivot in and thereby ensures the permanent opening of both the main contact point 14 and a secondary contact point, not shown.

To reset to the switch position shown in Fig. 4, the actuation of a manual actuator, not shown here, which acts on the main switching mechanism 11 , is required. As can be seen from the switching positions of the selective switching mechanism shown in FIGS . 1 to 4, the correct reclosing of the electrical circuit breaker is only possible if the magnet armature 32 of the delay device 12 is in its rest position at the stop 36 , since only in this way the unlatching the holding device for the main contact point is made possible by means of actuating lever 24 . This has the consequence that, for example, a restart immediately after the final interruption of the electrical circuit breaker as a result of the triggering of the main switching mechanism 11 is only possible if the holding device 16 for the movable contact piece 15 of the main contact point 14 via the actuating lever 24 is opened as far as is shown in Fig. 4 that the movable contact piece 15 can not come into engagement with its holding device 16 .

To release the latched in the holding device 16 movable contact piece 15 of the main contact point 14 , it is necessary that the actuating lever 24 moves the holding device 16 from its latching position shown in FIGS . 1 to 3, as shown in FIG. 4. Here, the switching bridge 20 for the direction of displacement of the actuating lever 24 assumes a right-angled position, which is simultaneously pivoted clockwise with the aid of the holding arm 48 via the cross member 46 of the locking lever 28 while simultaneously tensioning the compression spring 47 so that it disengages from the main switching mechanism 11 arrives.

In Fig. 5 the area of the selective switching mechanism 10 is shown, which includes the tab 26 and the locking lever 28 , shown in a side view and a longitudinal section of the section line VV specified therein. By means of this representation, the position of the individual levers mentioned, for. B. tab 26 , locking lever 28 , switching bridge 20 with bracket 48 , clarified and explained in more detail.

So it can be clearly seen from this exemplary embodiment of the selective switching mechanism 10 that the switching bridge 20 is designed as a U-shaped profiled longitudinal rod, the side walls of the rotary joints 25 , 27 and the pivot axis 21 forming Bol zen is penetrated. The tab 26 is made of two flat parts of the same design, which are connected to one another by means of a connecting web 43 in the region of the axis of rotation 27 .

Of the two flat parts forming the tab 26 is closed around the locking lever 28 , which rests with its nose 44 on the guide pin 39 . The outer frame of the selective switching mechanism 10 is the holding frame 42 , in which the longitudinal guide 40 is incorporated and which prevents the inadmissible play of the parts that are operatively connected to one another while observing the required tolerances.

Claims (6)

1. Electrical circuit breaker, in particular main circuit breaker, for the selective interruption of an individually protected consumer network, with a main contact point and a parallel parallel side contact point, with a main switching mechanism with a latching point for actuating the main and secondary contact point, characterized in that a Selective switching mechanism ( 10 ) is provided which cooperates with a delay device ( 12 ) which responds when an overcurrent occurs and the selective switching mechanism ( 10 ) acts on the selective switching mechanism ( 10 ) in operative connection with the main switching mechanism ( 11 ) an impact anchor ( 60 ) is provided, which opens the main contact point ( 14 ) when an overcurrent occurs, and that a holding device ( 16 ) for temporarily keeping the main contact point ( 14 ) cooperates with the selective switching mechanism ( 10 ). 2. Electrical self-switch according to claim 1, characterized in that the selective switching mechanism ( 10 ) has a rigid, from two lever arms ( 22 , 23 ) formed switching bridge ( 20 ) which is pivotally mounted and with the first lever arm with the delay device ( 12 ) cooperates while the second lever arm ( 23 ) is in operative connection with the main switching mechanism ( 11 ). 3. Electrical circuit breaker according to claim 1 or 2, characterized in that the switching bridge ( 20 ) of the selective switching mechanism ( 10 ) for actuating the Haltvor direction ( 16 ) for the main contact point ( 14 ). 4. Electrical circuit breaker according to one of the preceding claims, characterized in that the Se selective switch in addition to the switching bridge ( 20 ) has an articulated tab ( 26 ) and a locking lever ( 28 ) which can be locked on the switching bridge ( 20 ) and serves to act on the main switchgear ( 11 ). 5. Electrical auto switch according to one of the preceding claims, characterized in that the latching lever ( 28 ) has a crossmember ( 46 ) which on the one hand with a compression spring ( 47 ) and on the other hand with a molded on the switching bridge bracket ( 48 ) works together . 6. Electrical auto switch according to one of the preceding claims, characterized in that for actuating the holding device ( 16 ) for the main contact point ( 14 ) is used an actuating lever ( 24 ) in a swivel joint ( 25 ) on the switching bridge ( 20 ) is articulated.