EA001567B1 - Electrical breaking device comprising a differential trip device and a circuit breaker comprising such a device - Google Patents

Abstract

1. An electrical breaking device comprising, located in a single narrow case, one appreciably in the extension of the other in a plane appreciably parallel to the large side panels of the case, an electromagnetic trip device designed to act on a trip part to command a trip device so as to bring about separation of the stationary and movable contacts when a sudden current increase occurs and a differential trip device designed to act on the above-mentioned trip part to command the trip device so as to bring about separation of the contacts when an insulation fault occurs in the installation, said differential trip device comprising an actuating means designed to move an actuating rod between a rest position and a position actuating the trip part, characterized in that the trip rod (19) is located outside the electromagnetic trip device (7) and acts directly on the above-mentioned trip part (20) when a differential fault occurs. 2. The device according to claim 1, characterized in that this trip rod (19) performs resetting of the actuating means (16) after opening of the contacts (3, 4). 3. The device according to claim 2, characterized in that the above-mentioned trip rod (19) comprises a nose (21) designed to operate in conjunction with the trip device D in such a way that actuation of the trip device D results in resetting of the differential actuating means (16) after opening of the contacts (3, 4). 4. The device according to claim 3, characterized in that the trip device D comprising a latching system (22) keeping the movable contact (4) in the closed position by means of a rotary plate (23) secured in rotation to the movable contact (4), and unlatching of the latching system (22) due to the effect of actuation of the trip part (20) resulting in rotation of the plate (23) in one direction and separation of the contacts, the above-mentioned nose (21) operates in conjunction with the plate (23) so that rotation of the plate (23) during tripping leads to resetting of the differential actuating means (16). 5. The device according to any one of the claims 1 to 4, characterized in that the actuating means (16) is designed to drive the trip rod (19) in translation parallel to its longitudinal axis between a rest position and a position actuating the trip part (20). 6. The device according to any one of the foregoing claims, characterized in that the device comprising a manual control handle (6) of the contacts, the trip rod (19) extends between the handle (6) and the magnetic trip device (7). 7. The device according to any one of the foregoing claims, characterized in that the magnetic trip device (7) comprising a striking rod (12) operating in conjunction with a coil (10), the trip rod (19) comprises a straight part (19a) forming an angle a of about 10 degree with the axis of the striking rod (12) and a curved end part (19b) curved appreciably at right angles, in the direction of the end of the striking rod (12), said curved part (19b) operating in conjunction with the trip part (20). 8. The device according to any one of the foregoing claims, characterized in that the actuating means is a magnetic latching relay (16). 9. The device according to any one of the foregoing claims, characterized in that it comprises in addition a test circuit with a test button, said test button being situated under the handle (6) and acting on a spring element situated laterally to the rod, said spring element connecting a test resistor (17a) incorporated in the electronic circuit of the differential function to the potential of the shell of the coil (10). 10. A circuit breaker comprising a breaking device according to any one of the foregoing claims. 11. The circuit breaker according to claim 10, characterized in that the trip part (20) is a trip bar.

Description

The present invention relates to an electric switch comprising located in one narrow case, one in the continuation of the other, in a plane parallel to the large side panels of the case, an electromagnetic tripping device provided for acting on the tripping part and controlling the tripping device for separating the fixed and movable contacts when a sudden increase in current occurs, and the differential tripping device provided for acting on the above p an engaging portion and a control device for disengaging separation fixed and movable contacts when an insulation fault in the installation, said differential trip device comprises actuating means for moving the rod between a rest position and a position actuating the releasing part.

A differential circuit breaker is known as described in EP0665569, comprising a differential trip unit adjacent to and connected to the circuit breaker unit. This document shows that the differential trip unit is connected to the mechanism of the circuit breaker unit by means of a mechanical trip link acting on the trip rod of the circuit breaker unit to transmit the differential trip order.

However, due to the fact that the two blocks are adjacent to each other on the sides, the differential circuit breaker block has a large width and, therefore, a large overall size. Thus, there was a need to reduce this size. One of the solutions envisaged is the location of the differential tripping device and the circuit breaker in one module and in the same plane. Such a device is described in US Pat. No. 4,608,546. This document shows the use of a single rod for tripping, controlled by either a magnetic tripping unit or a differential tripping unit. This shock rod is mounted freely sliding in the stationary core of the magnetic tripping unit and can be driven by either the plunger of the magnetic tripping unit or the differential tripping rod controlled by the differential tripping unit.

This device has several disadvantages.

One of the drawbacks is that it is necessary to ensure the free movement of this shock rod inside the fixed core and plunger, since the differential energy generated by the differential trip unit is very small. This leads to the fact that during contamination during shutdown at the level of radial clearances located between the shock rod and the stationary core, or between the plunger and the rod of differential disengagement, blocking may occur, which prevents the differential from working correctly.

Moreover, the fact that this rod slides freely reduces the efficiency and productivity of the magnetic tripping device, since the plunger loses some of its shock energy.

The dual function performed by the shock rod leads to the summation of the gaps, i.e., the gap at the level of the trip relay with the trip rod, the gap between the trip rod and the shock rod and the gap between the shock rod and the trip rod of the circuit breaker, while simultaneously folding the longitudinal dimensions.

In addition, the presence of two parts between the relay pusher and the trip rod increases the inertia force and the response time.

Another disadvantage is that the differential trip rod must not be magnetic, since it must not be affected by the magnetic trip device.

And finally, in this device, the return to the initial position of the differential system is performed with the handle when the latter returns to its installation position. This leads to the fact that this return to the starting position does not occur if the handle is prevented from returning, for example, in case of blocking.

The present invention provides a circuit breaker comprising a differential tripping device of a simple design that overcomes all these problems.

It is an object of the present invention to provide a switch of the type described above, this switch being characterized in that the trip rod is located on the outside of the electromagnetic trip device and acts directly on the above trip part when a differential fault occurs.

This prevents the possibility of slip of the differential trip rod. The effectiveness of the magnetic tripping device is not reduced, since there is no longer a need to provide free sliding of the shock rod.

Clearances and the possibility of scatter in longitudinal dimensions are reduced.

Finally, the inertia of the parts and the response time are significantly reduced.

According to the invention, the trip rod returns to the initial position of the actuation means after opening the contacts.

The aforementioned tripping rod comprises a sock adapted to operate in conjunction with the tripping device in such a way that the tripping device returns to the initial position differential actuating means after opening the contacts.

This connection of the sock with the stem is made possible due to the fact that the trip rod is independent of the magnetic trip device and allows automatic differential return to its original position, regardless of the handle.

In accordance with another feature of the invention, the trip device comprises a locking system that holds the movable contact in a closed position by means of a pivot plate pivotally attached to the movable contact and unlocks the locking system as a result of the action of the releasing part, which causes the plate to rotate in one direction and disconnecting the contacts, the aforementioned sock working in conjunction with the plate, so that the rotation of the plate leads to a return to the initial position of the medium TWA differential actuation.

According to another feature of the invention, the actuation means is adapted to drive the trip rod by moving it parallel to its longitudinal axis between the rest position and the actuation position of the trip part.

The device includes a handle for manual contact control, and the trip rod passes between the handle and the magnetic tripping device.

In accordance with the invention, the magnetic tripping device comprises an impact rod working in conjunction with a coil, the trip rod having a straight part forming an angle α of about 10 ° with the axis of the shock rod and a curved end part bent about right an angle in the direction of the end of the shock rod, said curved portion acting in conjunction with the trip portion.

In accordance with another feature of the invention, there is additionally a test circuit with a test button, said test button is located under the handle and acts on the spring element located on the side of the rod, said spring element connecting the test resistor located in the electronic differential function circuit to the potential of the coil housing .

An object of the invention is also to propose an automatic shutdown device comprising a circuit breaker having the above-mentioned features individually or in combination.

Other advantages and features of the invention will become clearer from the following description of a specific embodiment of the invention, given only as a non-limiting example and presented in the accompanying drawings, in which:

FIG. 1 is a longitudinal sectional view of a circuit breaker according to the invention in a loaded position with closed contacts, FIG. 2 is a view similar to the previous one, illustrating the differential circuit breaker in the position in which the contacts are closed and the differential trip relay is located immediately before the contacts open, and FIG. 3 is a view similar to the previous one, illustrating the same circuit breaker in the position of the relay returning to its initial state, simultaneously with the opening of the contacts.

In the drawings, you can see the block B of a modular differential circuit breaker, adapted to connect to the electrical wires of the AC power system by means of clamp 1, designed to protect the power system from overload, short circuit or differential fault (or insulation damage).

The device is housed in a narrow housing 2, consisting of two parts, one of which can be removed so that you can see the mechanism of the device. This enclosure consists of a top panel a, a bottom panel B, a front panel c and two large side panels, only one of which is not visible in the drawings. This housing mainly contains a pair of shared contacts 3, 4, of which contact 3 is fixed, and contact 4 is movable, a working mechanism 5, which controls the opening and closing of the circuit breaker, driven by handle 6, electromagnetic isolation device 7, a thermal trip device 8, a differential trip device 9 and a tripping device Ό of a circuit breaker.

The device 7 electromagnetic tripping is designed to cause the opening of the contacts when a short circuit occurs. It contains a coil 10 mounted on the housing 11, inside which a fixed core (not shown) is fixed, and a plunger (not shown) slides attached to the shock rod 12. This plunger is adapted to move between the resting position and the active position in which the shock the rod 12 acts on the trip part or trip rod 20 to cause the contacts 3, 4 to separate under the influence of the magnetic field created by the passage of the short circuit current through the coil.

The thermal release device 8 is presented in the form of a bimetallic strip 13 and is adapted to actuate a tripping device автоматического of a circuit breaker to cause contact separation when overcurrent occurs.

The differential trip device содержит comprises a means for detecting a differential current in the form of a summing transformer 1 4, a test circuit with a test button 15 (Fig. 1), a actuating means in the form of a relay 16 with a magnetic latch and an electronic processing circuit with an auxiliary source 17 PCB mounted power supply.

As is known, a summing transformer contains a magnetic circuit in the form of a toroid through which neutral and phase power wires pass, electrically connected to the lower terminals of the circuit breaker unit and forming the primary winding of the transformer. The secondary winding is wound on a toroid and electrically connected via wires to the input of the electronic circuit 1 7. The output of the electronic circuit is connected by electrical connection to the coil of the trip relay 1 6.

The trip relay 16 has a known configuration and is not described in more detail here. This relay comprises a coil, which, in accordance with the order provided by the electronic circuit, is capable of moving the core 16b, and this core 16b acts on the differential trip rod 19 when a differential fault occurs to move the rod between the rest position and the position at which the rod 1 9 hits the trip rod 20. Between the bearing surface 16a of the relay and the supporting surface of the core 1 6b, a spring 18 is installed.

As can be seen in the drawings, the trip rod 1 9 extends between the aforementioned handle 6 and the coil 1 0 of the electromagnetic tripping device 7, forming an angle α of approximately 10 ° with the axis of this coil. This stem contains a straight portion 19a ending in a curved portion 19b, bent at an angle of approximately 90 ° in the direction of the trip rod 20. The end of the rod 19c has a slightly rounded shape corresponding to the shape of the portion of the rod 20, adapted to work with the said rod 19.

The tripping device автоматического of the circuit breaker comprises a known locking system 22, 20 located in such a way as to hold the movable contact 4 in the closed position by means of a plate 23 mounted rotatably mounted in the housing and rigidly attached to the movable contact 4.

In the drawings, it can be seen that the trip rod 19 comprises a nose 21 representing, in the plane of the drawing, a triangular cross section and adapted to work together (press-fit) with the plate 23, so that the rotational movement of the plate 23 after each disengagement leads to the return of the rod 1 9 of the differential trip, that is, to move it in the direction of the relay 1 6 against the force of the spring 18 until the magnetic fixation is again established, which will be described in more detail below.

It can be noted that the rod 1 9 is guided when moving in the direction of the supports 24, rigidly attached to the side walls of the housing.

This circuit breaker further comprises a test circuit with a test button, where said button 1 5 is located under the handle 6 and acts on the spring element 15 a located laterally near the stem, and said spring element connects the test resistor 1 7 a located in the differential function electronic circuit with electrical potential of the coil housing 1 0.

Next, a description will be made of the operation of the differential circuit breaker according to the invention with reference to FIG. 1-3, when a differential fault is detected, and its operation in case of overload or short circuit does not differ from the operation of a circuit breaker known in the art.

In FIG. 1, the circuit breaker is shown in the loaded position, with closed contacts, corresponding to the normal operation of the power supply system. In this state, the rod 19 is held in a resting position, pressed against the core 1 6b of the relay, and this core is held by a magnetic latch.

When a malfunction occurs with insulation damage in the power supply system protected by the differential circuit breaker, the summing transformer 1 4 sends a trip command to the electronic circuit 1 7, which, after amplification, gives a command to excite the relay winding 1 6. This causes magnetic release of the core 1 6Ь of relay 1 6, which leads the trip rod 19 (Fig. 2) in the direction of the trip rod 20 due to the force of the spring 18 (the core begins to be released, the spring becomes longer, and it acts clicks on the stock).

When this movement occurs, the rod, by means of its bent end 19b, hits the tripping rod 20, which leads to the release of the locking system 20, 22, which holds the movable contact 4 in the closed position by the plate 23. The plate 23 rotates counterclockwise until the contacts open due to the action exhaust spring. During this movement, the plate 23 hits the toe 21 of the trip rod 1 9 and returns said rod 1 9 to the retracted position, moving the said rod 1 9 towards the relay housing 16 until magnetic blocking of the relay core is established again. This corresponds to the state of the circuit breaker shown in FIG. 3. Then you can manually actuate the knob 6 in a clockwise direction until the contacts are closed, which corresponds to the state of the circuit breaker shown in FIG. one .

Thus, due to the presence of this sock 21, the differential relay 1 6 is returned to its initial state immediately after differential tripping.

It can be noted that the invention applies to circuit breakers, such as mains differential circuit breakers, and devices with auxiliary power supplies.

Claims (11)

1. An electric switch comprising located in one narrow housing, one mainly in continuation of the other, in a plane substantially parallel to the large side panels of the housing, an electromagnetic trip device provided to act on the trip unit with a command to the trip device to cause separation fixed and movable contacts when a sudden increase in current occurs, and a differential tripping device provided for acting on the aforementioned the engaging part with giving a command to the trip device in order to cause separation of the contacts when an insulation violation occurs in the installation, said differential trip device including actuation means for moving the rod between the rest position and the actuation position of the trip part, characterized in that the trip rod (19) is located on the outside of the electromagnetic trip device (7) and acts directly on the trip unit (20) mentioned above, which where a differential fault appears. 2. The switch according to claim 1, characterized in that the trip rod (19) is configured to return to its initial position means (16) for actuating after opening the contacts (3, 4). 3. The switch according to claim 2, characterized in that the aforementioned tripping rod (19) comprises a sock (21) designed to cooperate with the tripping device образом in such a way that actuating the tripping device приводит returns to the initial position ( 1 6) differential actuation after opening the contacts (3, 4). 4. The switch according to claim 3, characterized in that the tripping device содержит comprises a locking system (22) that holds the movable contact (4) in the closed position by means of a rotary plate (23) that is rotatably attached to the movable contact (4) and unlocks the locking system (22) due to the actuation of the releasing part (20), which leads to the rotation of the plate (23) in one direction and the separation of the contacts, the aforementioned toe (21) working together with the plate (23) so that the rotation of the plate (23 ) during release Niya leads to the return to the initial position of the means (16) of the differential actuation. 5. The switch according to any one of paragraphs. 1-4, characterized in that the means of actuation (16) is adapted to drive the trip rod (19) by moving it parallel to the longitudinal axis between the rest position and the actuation position of the trip part (20). 6. A switch according to any one of claims 1 to 5, characterized in that a handle (6) for manual control of the contacts is provided, and a trip rod (19) passes between the handle (6) and the magnetic trip device (7). 7. The switch according to any one of paragraphs. 1 -6, characterized in that the magnetic tripping device (7) comprises an impact rod (12) that works in conjunction with a coil (10), the trip rod (19) comprising a straight part (19a) forming an angle a of approximately 10 ° with the axis the shock rod (12) and the curved end part (19b), bent at right angles in the direction of the end of the shock rod (12), and said curved part (19b) works in conjunction with the trip part (20). 8. The switch according to any one of paragraphs. 1-7, characterized in that the means of actuation (16) is a relay with a magnetic latch. 9. The switch according to any one of claims 1 to 8, characterized in that it further comprises a test circuit with a test button, said button is located under the handle (6) and acts on the spring element located on the side of the rod, said spring element connecting the test resistor (17a) included in the electronic circuit of the differential function to the potential of the coil body (10). FIG. one 10. An automatic shutdown device in which a switch according to any one of claims 1 to 9 is used. 11. The device according to claim 10, characterized in that the tripping part (20) is a tripping rod.