FR2968475A1 - Method for overheat protection of electrical connection socket for connecting e.g. electric vehicle, to electricity distribution network, involves cutting passage of electricity into socket according to overheating state of socket - Google Patents

Abstract

The method involves measuring a quantity representative of the temperature of an electrical connection socket (50) connected to the mains, and transmitting the measurement of the quantity representative of the temperature to an electrical device (30) e.g. electric vehicle. An overheated state is determined by the electrical device by comparing the measurement with an overheating threshold. Passage of electricity from an electricity distribution network into the electrical connection socket is limited or cut by the electrical device according to the determination of the overheating state. Independent claims are also included for the following: (1) an electrical connection socket comprising a temperature measuring unit (2) an electrical device comprising a switch.

Description

The present invention relates generally to the safety of the users of electric vehicles whose charging is done by connection to the electrical network. It is known in the prior art devices to protect electrical outlets against possible overheating that can cause burns to a user handling such outlets or fires if overheating is too important. DE3331847 discloses an electrical outlet which is equipped with a bimetallic strip cutting off the circuit if the plug becomes heated. In return, this system has the particular disadvantage of having to be sized according to the power of the current flowing through the bimetal. Indeed, in case of high power and when the bimetal is slightly separated, electric arcs can occur and this leads to premature wear of the contacts. At the extreme, if the currents are too large, the bimetallic strip can even be welded by the electric arcs, rendering it inoperative and thus compromising the safety of use of the socket. The bimetallic strip must therefore be dimensioned accordingly and for the high powers, the size of the system is increased, as well as its cost. Moreover, this solution is unsuitable from a certain power threshold.

An object of the present invention is to meet the drawbacks of the document of the prior art mentioned above and in particular, first of all, to propose a system and a method for protecting connection plugs against overheating, simple, reliable, economical, not annoying the user and adapted to the power of the current through the electrical outlet.

For this, a first aspect of the invention relates to a method of protecting against overheating of an electrical connection socket, the taking

electrical connection connecting an electrical apparatus to an electricity distribution network, the method comprising the steps of: (i) measuring a magnitude representative of the temperature of the electrical connection socket connected to the electrical network; (ii) transmitting the measurement of the representative magnitude to the electrical apparatus; (iii) determining by the electrical apparatus of an overheating state by comparing the measurement of the representative quantity with an overheating threshold; (iv) limitation or interruption by the electrical apparatus of the passage of electricity from the distribution network into the electrical outlet according to the result of the step of determining the state of overheating (iii). This method according to the invention implements two complementary devices necessary to obtain the safety setting for the user: on the one hand, the socket where the temperature is measured and on the other hand , the electrical device connected to the network where the step of limiting or breaking the current is made if necessary. The plug according to the invention comprises the means for measuring the temperature (or a representative quantity), but does not include the regulation or switching means. Its design is therefore simple and compact, which allows the user to use and manipulate this plug easily. Moreover, instead of providing a specific system for analyzing the temperature measurement or the representative quantity, this measurement is transmitted to the electricity consumer, that is to say to the device connected to the distribution network. electricity which already comprises means of regulation or limitation. The analysis of the state of overheating and the limitation of the power consumption is therefore done directly at the level of the electrical apparatus. In summary, the invention proposes a synergy between the connection socket and the device connected to the network via the socket because from a simple measurement of the temperature performed at the outlet, the passage of the electricity can be modulated accordingly by the current consuming device. The overall system implementing the method

according to the invention is simplified because between the plug and the electrical device, there is only one regulating organ of the passage of the electric current. Advantageously, the step (iv) limits or cuts the current recharging a battery of the electrical apparatus. The invention is particularly suitable for devices comprising a rechargeable battery because charging is generally unattended and its long duration can lead to overheating if the connectors are dirty, oxidized or have insufficient contact surfaces. In addition, these devices comprise means of regulation (limitation or cut-off) with the distribution network to protect their circuits against overvoltages and the invention advantageously uses this device already present. A second aspect of the invention relates to an electrical connection socket suitable for connecting an electrical appliance to an electricity distribution network, comprising means for measuring a magnitude representative of the temperature of the electrical connection socket, characterized in that the electrical connection socket also comprises means for transmitting the measurement of the magnitude representative to the electrical apparatus connected to the electricity distribution network. The socket according to the invention comprises the means for measuring the temperature (or a representative quantity), but not the regulating means (limitation) or switching (cutting). The design remains simple and compact, which allows the user to easily manipulate this decision. Moreover, instead of providing a specific system for analyzing the temperature measurement, this measurement is transmitted to the consumer of electricity, that is to say to the device connected to the electricity distribution network. Advantageously, the means for measuring the magnitude representative of the temperature of the electrical connection socket comprise a bimetallic strip. A bimetallic strip has a great compactness combined with a proven robustness. The measurement of the temperature, including this bimetal is reliable because in a measuring circuit, the powers are weak. This

implementation according to the invention is also economical and keeps the plug compact and lightweight. As an alternative to this first embodiment, the means for measuring the magnitude representative of the temperature of the electrical connection socket comprise a thermistor. This component provides an analog temperature measurement, so the system can provide multiple responses depending on the measurement. Thus, if it is detected that the measured temperature of the socket exceeds a threshold likely to burn the user, the system, in addition to turning off the power, may warn the user not to touch the socket. On the other hand, if the measured temperature exceeds a second threshold likely to cause a fire, the system can in addition to cut off the current, emit alarm signals to warn of the danger. In addition to this second aspect, a third aspect of the invention relates to an electrical apparatus adapted to be connected to an electricity distribution network via an electrical connection socket and having means for limiting or cut-off of the passage of electricity supplied by the distribution network, characterized in that it furthermore comprises means for determining an overheating state of the connection socket comparing the measurement transmitted by the connection socket of a magnitude representative of the temperature of the connection socket with at least one threshold of overheating and in that the means for limiting or cutting the passage of electricity are able to limit or cut the passage of electricity depending on the overheating condition of the electrical connection socket. The regulation of the current consumption (by limitation or interruption of the current flow) is done directly at the level of the electrical apparatus. The invention proposes a synergy between the connection socket and the device connected to the network via it because from a simple measurement of the temperature performed at the outlet, the passage of electricity can be modulated accordingly . The overall system is simplified because between the plug and the electrical device, there is only one

regulating member for the passage of electric current. The direct consequence is also that the means handled by the user do not include a limiter or switch, so that the ergonomics for the user is improved.

Advantageously, the means for limiting or cutting the passage of electricity are a switch. The protection against the temperature is obtained by cutting off the current. Advantageously, the apparatus comprises a rechargeable battery able to be recharged by electricity from the distribution network. The invention is particularly suitable for devices comprising a rechargeable battery because the charging time is important and causes overheating if the connectors are dirty, oxidized or have insufficient contact surfaces. In addition, these devices comprise a safety switch with the distribution network to protect their circuits against overvoltages and the invention advantageously uses this device already present. Advantageously, the electrical apparatus is an electric or hybrid motor vehicle. The charging of a motor vehicle requires to have increased security for the user because the recharge must be performed by the general public, without training or specific precaution. In addition, the load of vehicles is long, so the risk of temperature rise of the catch is high because the powers are important, and likely to go through old or even outdated facilities. The invention may for example be used to secure the charging of an electric or hybrid cycle or tricycle, a means of transport flying, a means of maritime transport, a heavy goods vehicle, a commercial vehicle , a handling vehicle or a military vehicle. Other features and advantages of the present invention will appear more clearly on reading the following detailed description of embodiments of the invention given as non-limiting examples and illustrated by the appended drawings, in which:

- Figure 1 shows an electrical apparatus and an electrical socket adapted to implement the method according to the invention; - Figure 2 shows the system of Figure 1 with an alternative at the outlet.

Figure 1 shows an electrical apparatus 30 connected by a cable 60 to a connection socket 50. The connection socket 50 has a bimetal 54 connected to the conductor 51 which is the ground. Other drivers, unreferenced, represent phase drivers. The electrical apparatus 30 comprises, in particular, regulation means 32 for the delivered current and control means 31. The control means 31 are electrically connected to the bimetal through two resistors 33 and 53. The measurement of the temperature is carried out passing a leakage current to ground through the resistors 33 and 53 and measuring the voltage across the resistor 53, after the resistor 33 as indicated by the arrow shown. The bimetal is set to trip at a preset temperature, which has the effect of changing the value of the voltage measured after the resistor 33, so that the control means 31 can cause a cut or a limitation of the current delivered by the distribution network by the regulating means 32 to ensure that the temperature of the plug remains acceptable for the safety of people and goods located around the electrical connection socket 50. The use of bimetallic 54 simplifies the analysis of the temperature to compare the measured voltage with a single threshold which separates the two values that can take this voltage and corresponding to either the open circuit or the closed circuit. Figure 2 shows the electrical apparatus 30 connected by the cable 60 to the connection socket 50. The connection socket 50 here includes a thermistor 55 whose value has the property of changing with temperature. The temperature measurement chain is carried out in a manner similar to previously: a leakage current passes through the resistor 33 and the thermistor 55 to go to earth and is measured, at the terminals of the

thermistor 55, after the resistor 33, the voltage, which varies according to the value of the thermistor. An analysis of this resistance value, which is the image of the temperature of the plug 50, by the control circuit 31 will allow it to provide an adequate response either by causing only a regulation of the current if the temperature rises slightly. or by turning off the power and tripping an alarm if the temperature is too high. The use of a thermistor makes it possible to provide options of choice as to the response to be made. Indeed, one can choose several thresholds which correspond to different states of superheating (limited overheating, overheating dangerous for the user, overheating causing a fire) and by comparing the tension measured with these thresholds, one can limit the current by cutting a phase and warn the user to have his electrical installation checked (if overheating is limited), or to disconnect the power and warn the user not to touch the socket (if it is dangerous for the user to overheat), or to switch off the power and use alarm means such as a horn if overheating may cause a fire. It will be understood that various modifications and / or improvements obvious to those skilled in the art can be made to the various embodiments of the invention described in the present description without departing from the scope of the invention defined by the appended claims.

Claims (9)

REVENDICATIONS1. A method of protecting against overheating of an electrical connection socket (50), the electrical connection socket (50) connecting an electrical apparatus (30) to an electricity distribution network, the method comprising the steps of: i) measuring a magnitude representative of the temperature of the electrical connection socket (50) connected to the electrical network; (ii) transmitting the measurement of the representative magnitude to the electrical apparatus (30); (iii) determining by the electrical apparatus (30) an overheating condition by comparing the measurement of the representative magnitude with an overheating threshold; (iv) limiting or shutting down by the electrical apparatus (30) the passage of electricity from the distribution network into the electrical outlet according to the result of the step of determining the state of overheating (iii). 2. A method of protecting an electrical connection socket (50) according to claim 1, characterized in that step (iv) limits or cuts the current recharging a battery of the electrical apparatus (30). 3. Electrical connection socket (50) adapted to connect an electrical apparatus (30) to an electricity distribution network, comprising means for measuring a magnitude representative of the temperature of the electrical connection socket (50). ), characterized in that the electrical connection socket (50) also comprises means for transmitting the measurement of the magnitude representative to the electrical apparatus (30) connected to the electricity distribution network. 4. Electrical connection socket (50) according to claim 3, characterized in that the means for measuring the magnitude representative of the temperature of the electrical connection socket (50) comprise a bimetallic strip. 5. Electrical connection socket (50) according to claim 3, characterized in that the means for measuring the magnitude representative of the temperature of the electrical connection socket (50) comprise a thermistor. 6. Electrical apparatus (30) adapted to be connected to an electricity distribution network via an electrical connection socket (50) and having means for limiting or cutting (32) the passage of the electricity supply. electricity supplied by the distribution network, characterized in that it further comprises means (31) for determining an overheating state of the connection socket (50) comparing the measurement transmitted by the connection socket (50). ) a magnitude representative of the temperature of the connection socket (50) with at least one overheating threshold and in that the means for limiting or cutting (32) the passage of electricity are able to limit or cut the passage of electricity according to the state of overheating of the electrical connection socket (50). 7. Electrical apparatus (30) according to claim 6, characterized in that the means for limiting or cutting (32) of the passage of electricity are a switch. 8. Electrical device (30) according to one of claims 6 or 7, characterized in that it comprises a rechargeable battery able to be recharged by the electricity distribution network. 9. Electrical apparatus (30) according to one of claims 6 to 8, characterized in that the electrical apparatus is an electric or hybrid motor vehicle. 25