FR3019694A1 - POWER SUPPLY DEVICE - Google Patents

Abstract

The invention relates to an electrical device (1), consisting of a circuit provided with light means (2) and power supply means comprising, on the one hand, at least one rechargeable battery (4) and, on the other hand a first (5) and a second (6) supply to an electrical network, said first supply (5) being connected to said battery (4), said circuit further comprising an electromagnetic relay (10), characterized in that said relay (10) comprises a first terminal (11) to which said light means (2) are connected; a second terminal (12) to which the second supply (6) is connected; a third terminal (13) to which said battery (4) is connected; said relay (10) comprising an electromagnetic switch (14) connected at a first point (15) to said battery (4) and at a second point (16) to said first supply (5), so that a potential difference between said first (15) and second (16) points induces the actuation of said switch (14).

Description

The present invention is in the electrical field of supplying an electric circuit. The invention particularly relates to the alternation of supply of an electric circuit by supplying from an electrical network, namely an electrical distribution network, preferably low voltage, and, in case of failure, by a supply from an independent electric generator , such as a storage battery, commonly called "battery", provided rechargeable.

Such a device will find a preferential application, but in no way limiting, in the power supply of an electrical circuit comprising luminous components, such as "LEDs" for "Electro-Luminescent Diode (or more often referred to as" LED "in English).

In known manner, many circuits are supplied with electricity by a distribution network, such as an urban or domestic network. In order to overcome the voltage surges, or even the complete shutdown in electrical supply, for example during a power failure of said network, the circuits are connected to an autonomous power supply, such as a battery, via an electrical relay type component. Thus, during a power failure of said network, the power supply by the battery replaces the interrupted network.

Note that said battery is generally provided rechargeable, via said network, during normal operation during the supply of said circuit by said network. In addition, it will be noted that the power supply via said network is generally provided with alternating current, while the power supply by said battery is provided with direct current. Therefore, at the input, the circuit comprises at least one transformer for rectifying the alternating current in direct current. This transformer makes it possible in particular to lower the voltage and to modify the intensity of the current flowing through the circuit, according to the components that it comprises.

A first disadvantage lies in the fact that, generally, the electrical components constituting the recharging circuit of the battery continue to be supplied by the network, even weakly, when the battery has reached its maximum recharging threshold, namely that it is in full charge. This supply causes a decrease in the life of said components. Moreover, during the power supply by said battery, its charge level decreases until it reaches a minimum value, such as for example a voltage lower than the minimum voltage required to supply said circuit correctly. Therefore, the circuit components as well as the battery itself may degrade if the supply continues with this value less than that required.

Many solutions exist to short-circuit the power supply of the recharging circuit by the network, once the battery arrives at full charge. The present invention consists of an alternative to existing solutions and aims to overcome the disadvantages of the state of the art, by proposing an electrical device consisting of a circuit ensuring the supply of electricity to light means by an electrical network or by a battery, via an electromagnetic relay. The latter ensures the passage of current to optimize the life of the components equipping said circuit, improving the longevity of the battery. The invention also makes it possible to automatically change, instantaneously, the supply of electricity, in the event of a break, from the network to the battery, and vice versa.

To do this, the electrical device according to the invention consists of a circuit provided with light means and power supply means of said light means, said power supply means comprising, on the one hand, at least one rechargeable battery and, on the other hand, a first and a second supply to an electrical network, each supply being equipped with a transformer, said first supply being connected to said battery, said circuit further comprising an electromagnetic relay. This device is characterized in that said relay comprises: a first terminal to which said light means are connected; a second terminal to which the second supply is connected; a third terminal to which said battery is connected; said relay further comprising an electromagnetic switch whose actuation connects the first terminal to said second terminal or to said third terminal, said switch being connected at a first point to said battery and at a second point to said first supply, so that: a potential difference between said first and second points induces actuation of said switch from said second terminal to said third terminal; and equivalent potentials between said first and second points induces actuation of said switch from said third terminal to said second terminal. In addition, according to other additional nonlimiting features, said light means consist of at least one LED. Said first and second points may be connected by a diode preventing flow of current from said first point to said second point. Said device may comprise a secondary diode 30 positioned between said battery and said first point, said secondary diode preventing the flow of current from said first point to said battery. In a related manner, the device according to the invention makes it possible to preserve the battery from a total discharge, detrimental to its lifetime.

Other characteristics and advantages of the invention will emerge from the following detailed description of the non-limiting embodiments of the invention, with reference to the attached figure, showing an example of a circuit diagram of a preferred embodiment of the invention. device according to the invention. The present invention relates to an electrical device 1. Such a device 1 is dedicated to the operation of electrical components by supplying electricity, as the case may be via a supply network, as a home network and, in case cut-off of the latter, autonomously, by means of autonomous means, such as battery-type accumulators. To do this, said device 1 consists of a circuit. A schematic example of implementation of such a circuit is visible in the figure. This circuit comprises components, connected and interconnected by wires or cabling ensuring the flow of current. The purpose of the device 1 is to supply luminous means 2 with a view to providing illumination, in particular of a part of a building, especially at the level of an exit. Preferably, said luminous means 2 consist of at least one light-emitting diode or LED 3. Preferably several LEDs 3 are connected in parallel (or in series) and are illuminated when they are supplied with current by said device 1. According to the preferred embodiment, said LEDs 3 are connected to ground by means of a resistor 30. In addition to the light means 2, the circuit is also provided with means for supplying electricity to said light means 2. Feeding means comprise two different types of feed. On the one hand, autonomously, said power supply means comprise at least one battery 4. The latter is rechargeable.

On the other hand, said supply means comprise a first 5 and a second 6 supplies to an electrical network. The latter provides an alternating current continuously in time, except in case of break. That's why each 5.6 supply is equipped with a 7.8 transformer. Each transformer 7.8 is used to rectify the current and lower the voltage, or even to change the amperage, depending on the components constituting the rest of the circuit, in particular the LEDs 3.

According to the embodiment of which the circuit is schematized, such a transformer comprises in particular a diode bridge for rectifying the current, as well as at least one filtering capacitor. Other components can be integrated in a conventional manner to obtain the desired rectification and current value. According to an exemplary embodiment, the output voltage of each transformer 7.8 may be 12 volts (V). As visible in the diagram of the circuit, said first supply 5 is connected to said battery 4. It is he who feeds the battery 4 for reloading. This power supply can be performed via a timer controller 9. Note that the battery 4 is connected to a terminal at said circuit and the other terminal to ground.

Advantageously, said circuit further comprises an electromagnetic relay 10. The latter consists of a switch whose actuation between a position or another is performed depending on its power. In particular, said relay 10 has a first initial or unrestrained initial position, connecting two of its terminals. In addition, it comprises a second constrained position, in which the electrical connection conferred in the first position is short-circuited. This second position is obtained via an internal electromagnetic element. In other words, it is the energization of said electromagnetic element which moves the relay 10 from its first position to its second position. Conversely, if said electromagnetic element is no longer powered, then the relay 10 returns to its first original position.

The advantage of such an electromagnetic relay 10 lies in the fact that the change from one position to another takes place as a function of the power supply, thus making it possible to short-circuit one or the other of its power supplies, depending on the current actually flowing in the circuit.

Thus, the relay 10 comprises: a first terminal 11 to which said light means 2 are connected; a second terminal 12 to which the second supply 6 is connected; a third terminal 13 to which said battery 4 is connected. In particular, as shown in the diagram, the relay 10 makes it possible, by passing from one position to another, to supply the first terminal 11 either by the battery 4, either by said second supply 6, connected to the electrical network, as a home network. More particularly, in the initial position, unconstrained, when the electromagnetic element is not biased, then said relay 10 connects the first terminal 11 to the second terminal 12. In contrast, when it is stressed, this electromagnetic element disconnects the second terminal 12, to connect the first terminal 11 to the third terminal 13. In other words, said relay 10 further comprises an electromagnetic switch 14 whose actuation connects the first terminal 11 to said second terminal 12 or to said third terminal 13. In addition, said switch 14 is connected at a first point 15 to said battery 4 and at a second point 16 to said first supply 5, so that: - a potential difference between said first 14 and second 15 points induces the actuation of said switch 14 from said second terminal 12 to said third terminal 13; and equivalent potentials between said first 15 and second 16 points induces actuation of said switch 14 from said third terminal 13 to said second terminal 12. It will be noted that this last actuation may consist of an automatic return, for example under the effect of elastic return means, to the initial position in which said switch 14 is not biased. These elastic return means may be constituted by an elastic metal blade. More specifically, the invention involves the difference of electrical potentials between points 15 and 16 of the circuit. If there is a difference between these potentials, then the electromagnetic switch is traversed by a current, inducing the actuation and the passage in the position in which the LEDs 3 are powered by the battery 4. Such a potential difference between points 15 and 16 occur when the first supply 5 no longer supplies current in the event of a break. There is therefore a potential equal to 0 V at the second point 16. Therefore, only the battery 4 provides current, inducing a positive potential at the first point 15. 25 Conversely, if the current flows from the first supply 5, then the second point 16 has a maximum potential (equivalent to 12 V in the preferred embodiment). The first point 15 is also powered by the battery at an equivalent potential, so that the switch 14 is not biased. Moreover, additionally, said first 15 and second 16 points are connected by a diode 17 preventing the flow of current from said first point 15 to said second point 16. This diode 17 allows in the opposite direction to pass the current and thereby supplying the first point 15 if the voltage supplied by the battery 4 is less than the voltage supplied by the first supply 5. For example, if the battery 4 is not fully charged, then is the power network via the first supply 5 which will supply each point 15 and 16 of the switch 14, with the same value of electrical potential. The switch 14 will not be solicited. In addition, said diode 17 serves as a limitation against high or overvoltages or current peaks. In a related manner, said device 1 may comprise a secondary diode 18 positioned between said battery 4 and said first point 15. This secondary diode 18 prevents the flow of current from said first point 15 to said battery 4. As shown in the diagram, it is located upstream of the battery side 4 with respect to the diode 17.

Thus, the current from the first supply 5 can not go back to the battery 4. Similarly, another secondary diode 19 can be positioned between the first supply 5, in particular at one of the outputs of its transformer 7, and the second point 16 of the switch 14 of the relay 10. This other secondary diode 19 prevents the current from circulating from the battery 4, via said switch 14 to said first supply 5. In addition, an additional resistor 20 can be positioned to connect the second point 16 to the ground. Such a resistor may have a value of 150 ohms (C). Moreover, the specific circuit of the electrical device 1 makes it possible to limit the degradation of the battery. Indeed, when the first supply 5 is cut off and the second point 16 has zero potential, then it is the battery 4 which supplies the switch 14, activating it to the position in which the first terminal 11 is connected. at the third terminal 13, so that it is said battery 4 which supplies the LEDs 3. 35 In this context, if the voltage of the battery 4 decreases, arriving below a certain voltage, the potential difference between the first 15 and second 16 points of the switch 14 is no longer sufficient to allow its solicitation. It then returns to its original position, automatically switching off the power supply via the battery 4.

This automatic shutdown ensures that the battery 4 preserves a minimum level of charge, avoiding its total discharge and its deterioration. Thus, the electrical device 1 according to the invention allows that the majority of the circuit components of the battery are not solicited during a power supply phase by a network, namely on "sector". In addition, in case of failure of one or the other of the components, except the transformer 7 of the second supply 6, the LEDs 3 are always powered.

Claims (4)

REVENDICATIONS1. Electrical device (1), consisting of a circuit provided with light means (2) and means for supplying electricity to said light means (2), said power supply means comprising, on the one hand, at least one battery rechargeable (4) and, on the other hand, a first (5) and a second (6) supply to an electrical network, each supply being equipped with a transformer (7,8), said first supply (5) being connected to said battery (4), said circuit further comprising an electromagnetic relay (10), characterized in that said relay (10) comprises: - a first terminal (11) to which said light means (2) are connected; a second terminal (12) to which the second supply (6) is connected; a third terminal (13) to which said battery (4) is connected; Said relay (10) further comprising an electromagnetic switch (14) whose actuation connects the first terminal (11) to said second terminal (12) or to said third terminal (13), said switch (14) being connected in one first point (15) to said battery (4) and at a second point (16) 25 to said first supply (5), so that: - a potential difference between said first (15) and second (16) points induces the actuating said switch (14) from said second terminal (12) to said third terminal (13); and equivalent potentials between said first (15) and second (16) points induces actuation of said switch (14) from said third terminal (13) to said second terminal (12). 2. Electrical device (1) according to claim 1, characterized in that said light means (2) consist of at least one LED (3). 3. Electrical device (1) according to claim 1, characterized in that said first (15) and second (16) points are connected by a diode (17) preventing the flow of current from said first point (15) to said second point (16). 4. Electrical device (1) according to claim 1, characterized in that it comprises a secondary diode (18) positioned between said battery (4) and said first point (15), said secondary diode (18) preventing the circulation current from said first point (15) to said battery (4).