FR2994765A1 - HIGH INTENSITY MINIATURE CIRCUIT BREAKER - Google Patents

Abstract

A miniature high-current circuit breaker comprises a housing (1) for receiving a control mechanism (2), a plastic locking system (3), a trip mechanism, a movable contact (4), a stationary contact (5), an arc extinguishing chamber (6) and a bimetallic strip (7). The system (3) is hingedly disposed in the housing (1) and includes a locking portion for corresponding with the control mechanism (2) and a temporary triggering portion for corresponding with the triggering mechanism which includes an element electromagnetic induction (12), located in correspondence with the band (7), and an armature (13) arranged fixed on the temporary trigger part of the system (3) and located in correspondence with the element (12). The present invention has a simple configuration and reduced cost and improves the breaking capacity and the rated current.

Description

The present invention relates to a miniature circuit-breaker, and in particular to a miniature high-current circuit breaker. A conventional miniature circuit breaker includes a housing for receiving a control mechanism, a plastic latching system, a triggering mechanism, a movable contact, a stationary contact, an arc extinguishing chamber, and a bimetallic strip. Two sides of the housing have connection terminals. One end of the bimetallic strip is connected to the connection terminal on one side of the housing. Another end of the bimetallic strip passes through a broom wire and is connected to the moving contact. The plastic locking system is hingedly disposed in the housing. The plastic locking system includes a locking portion to correspond with the control mechanism and a temporary trigger portion to correspond with the trigger mechanism. The trigger mechanism of the conventional miniature circuit breaker adopts an electromagnetic triggering device. The coil of the electromagnetic trip device is connected to the bimetallic strip. When the circuit breaker is in a normal state, the plastic locking system is biased by a return spring to retain the control mechanism so that the moving contact and the stationary contact are connected. When a short circuit passes the bimetallic strip and the coil of the electromagnetic trigger device, the magnetic force generated by the coil overcomes the force of the spring to urge an armature to contact a drag rod. The drag rod causes the plastic latch system to rotate by overcoming the force of action of the return spring, so that the control mechanism disengages from the plastic latch. Finally, the moving contact is no longer connected to the immobile contact to cut the circuit. The trigger mechanism of the conventional miniature circuit breaker adopts the electromagnetic tripping device which is disposed above the arc extinguishing chamber. Because the electromagnetic trigger device is large in size and the conventional miniature circuit breaker is limited to its overall volume, the size of the arc extinguishing chamber must be reduced. This limits the breaking capacity and the rated current. The case width of the miniature miniature circuit breaker is 18mm, and its rated current only 63A. Accordingly, the inventor of the present invention has devoted himself to solving these problems by taking advantage of his many years of practical experience.

The main objective of the present invention is to provide a miniature high-current circuit breaker to overcome the disadvantages of the prior art. The present invention has a simple configuration and a lower cost and improves the breaking capacity and the rated current. In order to achieve the above purpose, the miniature high-current circuit breaker comprises a housing for receiving a control mechanism, a plastic locking system, a trigger mechanism, a movable contact, a stationary contact, a flame-out chamber bow and a bimetallic band. Two sides of the housing have connection terminals. The plastic locking system is hingedly disposed in the housing. The plastic locking system includes a locking portion for matching with the control mechanism and a temporary triggering portion for matching with the trigger mechanism. The triggering mechanism comprises an electromagnetic induction element and an armature. The electromagnetic induction element is located in correspondence with the bimetallic band. The armature is fixedly arranged on the temporary trigger portion of the plastic locking system and located in correspondence with the electromagnetic induction element. The electromagnetic induction element is preferably a magnetic yoke. The magnetic yoke is fixedly disposed in the housing. The bimetallic strip passes through the magnetic yoke. The magnetic yoke has an aperture corresponding to one side of the frame. The magnetic yoke and the bimetallic strip 20 are preferably connected by welding. The temporary trigger part of the plastic locking system preferably has a projecting terminal corresponding to one side of the magnetic yoke and projecting towards the magnetic yoke. The armature is disposed on the projecting terminal. The top of the projecting terminal has a limit protrusion to prevent disengagement of the frame. The present invention does not have the electromagnetic tripping device of the conventional miniature circuit breaker so that the configuration of the miniature circuit breaker is simple to reduce costs and to reduce the internal size, so that the volume of the extinguishing chamber can be reduced. 'arc can be increased to improve breaking capacity and rated current. In order to better illustrate the object of the invention, a particular embodiment will be described below with reference to the appended drawing. In this drawing: - Figure 1 is a schematic view according to a preferred embodiment of the present invention; Figure 2 is an enlarged view of the circle A of Figure 1; and Figure 3 is a perspective view of the plastic locking system of the present invention. Embodiments of the present invention will now be described, as a mere reference to the accompanying drawings. As illustrated in FIG. 1 examples, at 3, the present invention presents a high intensity miniature circuit breaker. The circuit breaker comprises a housing 1 for receiving a control mechanism 2, a plastic locking system 3, a triggering mechanism, a movable contact 4, a stationary contact 5, an arc extinguishing chamber 6 and a strip 7. The control mechanism 2 comprises a handle 201, a jumper pin 202, an indicating rod 203, and a support 204 connected to each other. The support 204 is connected with the movable contact 4. Two sides of the housing 1 have connection terminals 8. One end of the bimetallic strip 7 passes through a reinforcing plate 9 and a flexible connector 10 and is connected to the connection terminal 8 on one side of the housing 1. Another end of the bimetallic strip 7 passes through a brush wire 11 and is connected to the movable contact 4. The plastic locking system 3 is disposed of Hinged manner in the housing 1. The plastic locking system 3 includes a locking portion 301 to correspond with the control mechanism 2 and a temporary trigger portion 302 to correspond with the trigger mechanism. One end of the jumper pin 202 of the control mechanism 2 is located in correspondence with the locking portion 301 of the plastic locking system 3. The triggering mechanism comprises an electromagnetic induction element 12 and a frame 13.

The electromagnetic induction element 12 is located in correspondence with the bimetallic strip 7. The armature 13 is fixedly arranged on the temporary triggering portion 302 of the plastic locking system 3 and located in correspondence with the element Thus, when the circuit breaker is in a normal state, the plastic locking system 3 is biased by a return spring to retain the control mechanism 2 so that the movable contact 4 and the immobile contact 5 are connected.

When a short circuit passes the bimetallic strip 7, the electromagnetic induction element 12 generates the electromagnetic induction to cause a magnetic field to attract the armature 13 fixed on the temporary trigger portion 302 of the plastic locking system 3 When the attraction is greater than the force of action of the return spring towards the plastic locking system 3, the plastic locking system 3 will be rotated so that the skiving pin 202 disengages from the locking portion. 301 of the plastic locking system 3 to connect the indicator rod 203 and the support 204. The support 204 disconnects the movable contact 4 from the stationary contact 5.

In this embodiment, the electromagnetic induction element 12 is a magnetic yoke. The magnetic yoke is fixedly disposed in the housing 1. The bimetallic strip 7 passes through the magnetic yoke. The magnetic yoke has an opening corresponding to one side of the armature 13. Thus, when a short circuit passes through the bimetallic strip 7, the magnetic yoke generates a magnetic field to attract the armature 13. The magnetic yoke of the The present invention can be fixed in different ways in the housing. It is, for example, fixed directly to the housing. To consider the demand for the function of the housing 1, the magnetic yoke and the bimetallic strip 7 are preferably connected by welding.

The armature 13 of the present invention can be fixed in different ways to the temporary trigger portion 302 of the plastic locking system 3. The armature 13 is, for example, attached to the temporary trigger portion 302 of the locking system. 3, alternatively, the armature 13 is directly wrapped on the temporary trigger portion 302 of the plastic locking system 3. In order to simplify the configuration and take into account a stable connection of the armature 13 and the part Temporary release 302 of the plastic locking system 3, in a preferable embodiment, the temporary trigger portion 302 of the plastic locking system 3 has a projecting terminal corresponding to one side of the magnetic yoke and projecting towards the cylinder head magnetic. The armature 13 is disposed on the projecting terminal. The top of the protruding terminal has a limit protrusion 303 to prevent the disengagement of the armature 13. The present invention does not have the electromagnetic tripping device of the conventional miniature circuit breaker so that the configuration of the miniature circuit breaker is simple to reduce costs and to reduce the internal size, so that the volume of the arc extinction chamber 6 can be increased to improve the breaking capacity and the rated current. Although particular embodiments of the present invention have been described in detail by way of illustration, various modifications and improvements can be made without departing from the spirit and scope of the present invention.

Claims (4)

CLAIMS1 - High intensity miniature circuit breaker, comprising a housing (1) for receiving a control mechanism (2), a plastic locking system (3), a trigger mechanism, a movable contact (4), a stationary contact (5). ), an arc extinguishing chamber (6) and a bimetallic strip (7), two sides of the housing (1) having connection terminals (8), the plastic locking system (3) being arranged articulated in the housing (1), the plastic locking system (3) comprising a locking portion (301) for corresponding with the control mechanism (2) and a temporary triggering portion (302) for corresponding with the triggering, characterized in that: the triggering mechanism comprises an electromagnetic induction element (12) and an armature (13), the electromagnetic induction element (12) is located in correspondence with the bimetallic strip (7), the Underwire re (13) is arranged in a fixed manner on the temporary triggering part (302) of the plastic locking system (3) and located in correspondence with the electromagnetic induction element (12). 2 - high intensity miniature circuit breaker according to claim 1, characterized in that the electromagnetic induction element (12) is a magnetic yoke, the magnetic yoke is fixedly disposed in the housing (1), the bimetallic strip (7). ) passes through the magnetic yoke, and the magnetic yoke has an opening corresponding to one side of the frame (13). 3 - high intensity miniature circuit breaker according to claim 2, characterized in that the magnetic base and the bimetallic strip (7) are connected by welding. 4 - high intensity miniature circuit breaker according to claim 1, 2 or 3, characterized in that the temporary trigger portion (302) of the plastic locking system (3) has a projecting terminal corresponding to one side of the magnetic yoke and projecting towards the magnetic yoke, the armature (13) is disposed on the projecting terminal, an apex of the projecting terminal 10 has a limit protrusion (303) to prevent disengagement of the armature (13).