DE3812934A1 - MULTI-PHASE CIRCUIT BREAKER - Google Patents

Abstract

There is a circuit breaker, which is assembled from a plurality of individual circuit breakers 22 in a shell method of construction 35, 36, which, in the event of an overload on only one individual circuit breaker 22, isolates all terminals by coupling the individual circuit breakers and in which each individual circuit breaker 22 is constructed completely in its shells 35, 36, including the overload release element and the switching mechanism. In this case, it is desired to complete the circuit breaker in a simple manner to form a motor circuit breaker with current-range setting. This is achieved in that a motor circuit breaker current-range setting device is provided which has an operating device 26 and a current scale 30 allocated thereto, and in that this one adjusting device engages with an adjusting element 19 into each individual circuit breaker 22. A single current-range setting device is provided which is modified in such a manner that it acts simultaneously on each individual circuit breaker. <IMAGE>

Description

The invention relates to a multi-phase circuit breaker that consists of several individual switches are built in shell design, which in the event of overload on only a single switch by coupling the Separates single-pole switch with all poles and in which each single switch its shells complete, including overload release element and Switchgear is formed.

A circuit breaker of this type that is known from practice is out Individual switches assembled, e.g. through the DE-OS 33 39 398 are known. The well-known circuit breaker is a Lei circuit breaker, in which the individual switches for certain Overload currents are designed. It is known per se (DE-OS 35 45 930), assemblies for circuit breakers also for Use the construction of motor protection switches. In contrast to Circuit breaker, the motor protection switch has a current range setting device, which has an actuator and a this associated current scale. In the well-known engine circuit breaker only a single switch mechanism is provided. The Manufacture of this motor protection switch is compared to that Manufacture of the known circuit breaker at the beginning mentioned type expensive.

The object of the invention is therefore to provide a circuit breaker gangs mentioned create in a simplified manner a motor protection switch with current range setting completed is constant. The circuit breaker according to the invention is this on releasing gift, characterized in that a motor protection switch Current range setting device is provided, which is an actuator  gungsorgan and a current scale assigned to it, and that this is an adjusting device with an adjusting element in each engages the single switch.

For the motor protection switch according to the invention, the individual switches known per se are used, which are manufactured in large numbers and therefore inexpensively. Although only one rear derailleur is required per se, individual switches with one rear derailleur each are used for reasons of profitable production. However, not every individual switch is assigned its own current range setting device. Rather, a single current range setting device is provided, which is modified such that it acts on each individual switch simultaneously. A simplified current range setting device is added to the multiphase circuit breaker of the type mentioned at the beginning, which forms a functional unit. The same components - coil block, bimetallic device, arcing chamber and switchgear - are used for a circuit breaker and a motor protection switch.

Structures in which a sliding actuator of a current range setting device engages in a switch are on known. It is particularly expedient and advantageous if the actuator for each individual switch between the overload Tripping element and the rear derailleur is arranged. Here is through Adjustment of the adjustment member is the movement path of the over last trigger element changed, the trigger element back to operate the assigned rear derailleur.

The actuator is e.g. an angle lever with sliding Pivot bearing. It is particularly useful and advantageous if that The adjusting element is a wedge structure for each individual switch. The This adjustable wedge structure is easy to manufacture and requires less space. By shifting the wedge structure across the distance becomes the working direction of the overload release element changed between this and the trigger element of the switching mechanism.  

It is also particularly expedient and advantageous if the Ver actuators are carried by an intermediate guide piece, the is slidably mounted in the shells of the individual switches. The This intermediate guide piece is parallel to the series of overload Tripping elements and parallel to the series of rear derailleurs in the individual switches arranged side by side and thus across Working direction of the overload release elements and switchgear ver slidably arranged.

It is conceivable to adjust the individual switches by one to represent the only rigid structure. Special purpose However, it is moderate and advantageous if the adjusting elements the individual switches are movably mounted relative to each other. Each actuator can adjust to its individual switch len. This is important because it is due to manufacturing tolerances zen, shape and shrinkage of pressed parts, in practice supreme It is possible to play the individual switches with great effort freely connect with each other. With a rigid overall adjustment would link the distance between the overload release element and change the triggering element of the rear derailleur uncontrollably, if the individual switches are parallel to the working direction of the overload Dissolving elements are shifted against each other.

It is particularly expedient and advantageous if the wedge Formed adjusting elements in work on the intermediate guide piece direction of the overload release element are pivotally suspended. A shift of the individual switches to each other, which is also a Changes in the position of the intermediate guide piece causes, acts not in such a way that the distance between overload Trigger element and the trigger element of the rear derailleur changed becomes.

The actuator is usually one of the ones in the shell cell switch stored. It is particularly useful and advantageous when the actuator is stored in a wall piece is that afterwards in the shells of at least one single scarf ters is used. This simplifies the assembly of the protective scarf  ters. The actuator is pre-assembled on the wall piece and via the opening to be closed by the wall piece The intermediate guide piece can be installed in the shell.

As a rule, each individual switch can be operated manually. Under Overload is both an overcurrent and a short-circuit current to understand. The motor protection switch is mainly used for protection a three-phase motor used. The actuator is e.g. a pin guided in a groove or an eccentric. The invention is not specific to a particular embodiment of the overload limited switch in shell design.

In the drawing is a preferred embodiment of the invention shown and shows

Fig. 1 is a plan view of a portion of a multi-phase circuit breaker,

Fig. 2 shows a section according to line II-II in Fig. 1,

Fig. 3 piece is a plan view of FIG. 1 after removal of a Wandungs,

Fig. 4 shows a section according to line IV-IV in Figs. 1,

Fig. 5 is a view according to line VV in Fig. 3,

Fig. 6 is an end view of the illustration in Fig. 5,

Fig. 7 is a section along line VII-VII in Fig. 1 and

Fig. 8 is a side view of a protective circuit of the Wandungsstückes ters of FIG. 1.

In a housing 1 2 is shown in FIG. 2 and a coil block electromagnetic release, carrying a fixed contact piece 3. Below the coil block 2 there is a Löschkam mer 4 and then an arc guide plate 5 , which carries on its side facing away from the quenching chamber a bimetal or overload release element 6 , which is adjusted by means of a screw device 7 stored in the housing 1 . A connector 8 is connected via a heating winding 9 and / or a flexible connection to the overload release element 6 . A Verbindungslei device 10 closes the circuit via a movable contact piece 11 , the fixed contact piece 3 and a coil winding 12 to a connector 13th The movable contact piece 11 carries a switching mechanism 14 , which consists of a locking lever 15 and a pawl 16 be. The pawl 16 is connected by means of a bracket 17 to a switch-on member 18 , whereby an articulated chain is formed, which closes or opens the circuit when the switch-on member is operated manually.

In FIG. 4, the adjustment device is shown in more detail. An inter mediate guide piece 21 or adjusting slide carries rotatably hangs in a bearing 23 adjusting members 19 , which on their, the triggering elements 6 facing sides, viewed parallel to the triggering elements rising surface 24 , viewed from the direction of the cover to the triggering elements, that is have a wedge shape. The intermediate guide piece 21 is driven by an actuator 25 designed as a setting eccentric, which is rotatably mounted in a wall piece 20 and has an eccentric pin 26 , elements 6 displaceable transversely to the working direction of the trigger. The intermediate guide piece 21 moves without play in a recess in the housing 1 , which is achieved according to FIG. 3 by the suspension of tongues 27 located on the intermediate guide piece. The at the free end of the tongues 27 and ge attached cams 28 are arranged so that they always move only in a recess of a housing part, so do not have to overcome a separation point. Rule to the guide piece 29 of the arms 21, the interim adjustment members 19 are suspended so that in each case two arms 29 of the intermediate guide piece 21 include the adjustment members 19 in displacement means without play.

The storage of the adjusting members 19 in the arms 29 of the inter mediate guide piece 21 can be done in a variety of ways. The adjusting members may also each comprise a fork of the intermediate guide piece in the form of a fork. The actuation of the intermediate guide piece can also be done via a pin. In this case, the wall piece 20 would have a linear scale, instead of an arc-shaped scale 30 shown in FIG. 1. According to FIG. 8, the wall piece 20 has a resilient latching tongue 31 . This latching tongue 31 latches in a recess 32 of the housing (see FIG. 3) and at the same time the wall piece and thus the entire adjusting device is fixed at a defined point in the direction of displacement by means of a thickened part 34 . Two tongues 33, on the other hand, are rigid and engage behind on the outer parts of the housing only by pushing together the complete individual switch during final assembly.

The housing of the circuit breaker is composed of three closed individual housings 22 and held together in a manner known per se. Each individual housing 22 is composed of two different shells 35 and 36 . The rear derailleurs in the adjacent individual housings 22 are so mitein coupled in a manner not shown, but in a manner known per se, that when a switching mechanism is triggered, the neighboring switching mechanism also triggers. The wall piece 20 extends to all individual housings 22 , which facilitates the insertion of the intermediate guide piece 21 . This is provided with an elongated hole 37 in which the pin 26 engages.

Claims (7)

1.Multi-phase circuit breaker, which is composed of several individual switches in shell design, which isolates all poles in the event of overload on only one individual switch by coupling the individual switches, and in which each individual switch is completely formed in its shells, including overload release element and switching mechanism, characterized in that a Motor protection switch current range setting device is provided which has an actuating member ( 26 ) and a current scale ( 30 ) associated therewith, and that this setting device engages with an adjusting member ( 19 ) in each individual switch ( 22 ). 2. Circuit breaker according to claim 1, characterized in that the adjusting member ( 19 ) is arranged in each individual switch ( 22 ) between the overload release element ( 6 ) and the switching mechanism ( 14 ). 3. Circuit breaker according to claim 2, characterized in that the adjusting member ( 19 ) is a wedge de each individual switch ( 22 ). 4. Circuit breaker according to claim 1, 2 or 3, characterized in that the adjusting members ( 19 ) are carried by an intermediate guide piece ( 21 ) which is slidably mounted in the three shells ( 35 , 36 ) of the individual switch ( 22 ) . 5. Circuit breaker according to one of the preceding claims, characterized in that the adjusting elements ( 19 ) of the individual switches ( 22 ) are mounted so as to be movable relative to one another. 6. Circuit breaker according to claim 5, characterized in that the wedge-shaped adjusting members ( 19 ) on the intermediate guide piece ( 21 ) in the working direction of the overload release element ( 6 ) are pivotally suspended. 7. Circuit breaker according to one of the preceding claims, characterized in that the actuating member ( 26 ) is mounted in a wall piece ( 20 ) which is subsequently inserted into the shells ( 24 , 36 ) of at least one individual switch ( 22 ).