The invention relates to an on-board circuit breaker with a centring key, having a reset enable function.
Circuit breakers are commonly used that have the function of interrupting an electrical connection when a particular condition is detected. A very large number of breaking conditions can be defined and are known as such.
Different types of circuit breakers exist, the structures and functioning whereof depend on the field of application. Thus, when the circuit breaker is intended for a fixed installation of residential or industrial building type, it is frequently fitted in a cabinet by means of a DIN rail. When the circuit breaker is intended for an on-board system on the other hand, it is in most cases fitted in a panel, whereto it is fixedly secured by means of conventional securing means, correct positioning being ensured by a centring key. Such on-board circuit breakers are perfectly well known as such.
For a long time, circuit breakers used to operate with mechanical means comprising in particular a bimetal strip, deformation whereof caused breaking. Thus when too large a current flowed through the bimetal strip, heating of the bimetal strip performed the breaking function and protected the system. As the technology has progressed, it is now possible to add electronic functions to these mechanical systems whilst preserving the same overall dimensions. These electronic functions enable other particular conditions requiring breaking of the electrical circuit to be detected.
When the circuit breaker performs electrical breaking, there are therefore several possible instances that may arise. It may either involve a case of a break related to a thermal trip or of a break related to a trip on an order from the electronic circuit. Present on-board circuit breakers do not enable the causes of tripping to be differentiated efficiently, in particular as far as the possibility of resetting the device is concerned.
The object of the invention is therefore to remedy the drawbacks of the state of the art by proposing an on-board circuit breaker with a centring key, having a reset enable function. In case of mechanical tripping, a circuit breaker according to the invention will be able to be reset in the same way as existing devices, however in case of tripping on an order from the electronic circuit on the other hand, it will be necessary to perform an additional enable action. In this way, the distinction between the causes of tripping will be immediate, as resetting will be impossible without having been enabled beforehand.
For this purpose, the object of the invention is to provide an on-board circuit breaker comprising
According to a particular embodiment, the pin (19) passes through the centring key (2) when the circuit breaker is in the tripped position following an order sent by the electronic circuit (14) to the actuator (15).
According to a particularly advantageous embodiment, the actuator comprises a moving core (17) equipped with a rod securedly fixed to a washer (22) of larger diameter than the rod, the rod and washer (22) operating in conjunction with a recess (21) provided in the reset enable part (18).
Optionally, the on-board circuit breaker comprises auxiliary contacts (12) indicating three different states according to the state of the circuit breaker.
Optionally, the circuit breaker comprises communication means able to transmit information through the push-button. The communication means can comprise a light-emitting diode, possibly emitting in the infrared.
Other advantages and features will become more clearly apparent from the following description of a particular embodiment of the invention, given as a non-restrictive example only and represented in the accompanying drawings in which:
a and 4b represent a mechanical sub-assembly, the positions whereof correspond respectively to
The device represented in
In conventional manner, depressing the button (1) to its initial position will re-establish the electrical connection between the two breaking contacts (5) and place the latch (9) back in the slide (8). If the main bimetal strip (6) is no longer deformed, the latch (9) will be held in place by the slide (8) and the device will be reset.
The operation described up to now is identical in all points to that of an on-board circuit breaker according to the prior art. Likewise, the device represented is equipped with a system of auxiliary contacts (12), known as such but optional. When the circuit breaker is set, the auxiliary contacts (12) are open, and when the circuit breaker triggers opening of the breaking contacts, the lever (13) swivels and comes and closes the auxiliary contacts (12). This optional two-state auxiliary contact system enables the state of the circuit breaker to be checked easily and is perfectly compatible with the invention.
The circuit breaker is equipped with an electronic circuit (14) that is electrically connected to the metal plate forming the ground and that measures the characteristics of the current flowing in the device, for example at the level of the main bimetal strip (6). In conventional manner, the electronic circuit (14) is able to detect particular situations requiring tripping of the circuit breaker which comprises for this purpose an actuator (15) that releases the latch (9) on an order from the electronic circuit (14). In the embodiment of the invention represented in the figures, the actuator comprises an electromagnet (16) enabling a core (17) to be moved. The core is equipped with an actuating rod that presses on a flange (18) fixedly secured to the connecting strip (7) in such a way that any movement of the core (17) causes movement of the connecting strip (7) until the latch (9) is released.
The electronic circuit (14), when monitoring the characteristics of the electrical signal, is able to detect instantaneous phenomena that do not accumulate sufficient mean energy for the main bimetal strip (6) to trip the circuit breaker. This may for example involve bad contacts or electric arcs. Some of these phenomena present fire hazards. This is why it is preferable to indicate clearly what was the cause of tripping and to prevent any involuntary resetting.
For this purpose, the circuit breaker according to the invention comprises a reset enable part (18) equipped with a pin (19). When the actuator (15) is activated on an order from the electronic circuit (14), the reset enable part (18) moves due to the effect of a compression spring (20) and prevents the core (17) from returning to its initial position. The pin (19) protrudes out through the centring key (2) as represented in
In addition as the pin (19) of the reset enable part (18) passes through the centring key (2) and the latter is already present on devices according to the prior art, the device according to the invention is perfectly compatible and can replace a device according to the prior art without having to modify the panel.
The reset enable part (18) is an additional safety device which does not add any risk of failure of the circuit breaker. Even if the reset enable part (18) is blocked, tripping does in fact remain possible both by deformation of the main bimetal strip (6) and on an order from the electronic circuit (14).
According to a particularly advantageous embodiment of the invention, the reset enable part (18) enables the electronic tripping system to be tested. The electronic circuit (14) in fact continuously monitors the characteristics of the current. Thus, if an operator pulls on the button (1) and trips the circuit breaker manually, the electronic circuit (14) knows that the current was insufficient to deform the bimetal strip (6). The electronic circuit (14) then orders the actuator (15) to trip, which causes the core (17) to move and the pin (19) to come out of the reset enable part (18) through the centring key (2). The pin (19) coming out validates correct operation of the electronic tripping system.
In the case where the circuit breaker is equipped with an optional system of auxiliary contacts (12), as represented in the figures, the reset enable part (18) is equipped with a spigot (23) which closes a contact. When tripping of the circuit breaker takes place on an order from the electronic circuit (14), the reset enable part (18) moves due to the effect of the spring (20) and the contact opens, which has the effect of modifying the apparent impedance at the terminals of the auxiliary contacts (12) and of thus establishing a third state. In this way it is possible to check the state of the circuit breaker and, if it is in the tripped state, to know what the tripping mode was. =p According to a particularly advantageous embodiment of the invention, shown in
According to the context of use of the circuit breaker, the light-emitting diode can emit in the visible spectrum or in the invisible spectrum, for example in the infrared. The second solution enables the personnel not to be perturbed, for example the personnel flying an aeroplane. The first solution is compatible with a fleeting flashing standby system indicating that the switchgear device is supplied and in operation, the diode only being out when the switchgear device is no longer supplied or when the electronic circuit or the diode itself are faulty.
By using the transparent button (1) through which the signal is transmitted, reading of the signal is made particularly easy. The button can in fact very easily be connected to a portable reading system, for example by means of a cap, thus preventing any transmission error.
It is also possible to set up a two-way transmission, using for example infrared transmission in one direction and transmission in the visible spectrum in the other direction.
Number | Date | Country | Kind |
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03 14903 | Dec 2003 | FR | national |
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20050134411 A1 | Jun 2005 | US |