EP4210994A1 - Electrical distribution circuit for charging vehicles - Google Patents

Abstract

The subject of the present invention is an electrical distribution circuit (1) for charging vehicles in a parking lot from a power supply network (3) to a plurality of individualized power supply devices (2, 21, 22, 23), the electrical circuit (1) comprising a distribution tree radiating from a common node (11) of first rank, characterized in that the common node (11) of first rank is integrated into an individualized power supply device (21).

Description

Description

Title of the invention: Electrical distribution circuit for vehicle charging

[0001] The present invention relates to the field of electrical distribution systems on parking areas and more particularly to the field of modular electrical distribution systems for charging vehicles on parking areas.

[0002] The policies for reducing fine particle emissions linked to vehicle engines are developing by exerting increasing constraints to guide the implementation of new motorization technologies based on electrical energy, the deployment of new supply sites in electrical energy then appears as a corollary to the development of this new type of electric motor vehicle.

[0003] The substitution of vehicles powered with fossil energy by a new fleet of vehicles incorporating electric batteries is intended to be staggered over time, in particular technologically through the intermediate development of vehicles with hybrid motorization. Also, the installation of recharging points specifically dedicated to the supply of electric vehicles is likely to be operated on already existing parking sites such as service stations of the classic types or even longer parking areas. capable of accommodating a fleet of vehicles for a sufficient time to recharge the batteries.

[0004] The installation of such charging points on an existing parking site encounters various difficulties imposed in particular by the location of the distribution network on the site which requires a centralized protection unit, which, on the one hand, constrains the positioning of the charging points in specific locations of the parking site and, on the other hand, restricts the possibilities of changing their number to meet changes in the needs for the supply of energy to electric vehicles. In fact, multiplying the number of charging points is typically part of the installation of a new distribution line on the site from the point of installation of the distribution network so that each charging point on the site is associated with a dedicated distribution line , all centralized on the same location which conditions the architecture of the distribution. Consequently, this multiplication of distribution lines with the growth in the number of charging points leads to an increase in the length of the cables. In addition, each time a new charging point is installed, due to congestion and the need to maintain a parking space for vehicles, this charging point is conventionally arranged in alignment with its previous ones, so that the installation of this new charging point is carried out further from the point of installation of the distribution network than its previously installed counterpart. Also, this increase in the length of distribution line cables is likely to be exponential as the number of charging points increases.

[0005] Furthermore, electric vehicle charging operations are subject to longer vehicle downtimes than in the context of fossil fuel replenishment. Also, vehicle owners adapt these charging operations to privileged periods of immobilization, such as night parking or during certain specific activities such as shopping in the supermarket or going to the cinema. Also, the durations during which the vehicles are available to be recharged impose an additional constraint as to the electrical power which must be distributed through the network installed on the parking site to respond effectively to the recharging of the vehicles during the allotted time.

The purpose of the present invention is to respond to these constraints by proposing a distribution network capable of responding in a malleable and efficient manner to a progressive installation of charging stations on site adapted to the evolution of the demand for the supply of electric batteries, while allowing distribution adjusted and adaptable to different vehicle charging conditions. The invention thus relates to an electrical distribution circuit for charging vehicles in a parking lot from a power supply network to several individualized power supply devices, the electrical circuit comprising a distribution tree radiating from a first rank common node, characterized in that the first rank common node is integrated into an individualized power supply device.

The invention will be better understood, thanks to the description below, which relates to various preferred embodiments, given by way of non-limiting example, and explained with reference to the accompanying schematic drawings, in which:

[0009] [Fig. 1] represents a schematic illustration of a first example of a tree structure of an electrical distribution circuit according to the invention.

[0010] [Fig. 2] represents a schematic illustration of a second example of a tree structure of an electrical distribution circuit according to the invention.

[0011] [Fig. 3] represents a schematic illustration of an example of alignment of individualized power devices on a parking lot within the framework of an electrical distribution circuit according to the first example of tree structure.

[0012] In this document, the term "individualized power supply device" should be understood as referring to a device suitable for operating a supply of electricity for the purpose of recharging energy storage units of an electric vehicle such as a car, a bicycle, a forklift or any other electric vehicle capable of outdoor or indoor use or, alternatively, to a device suitable for operating a supply of electricity in the context of recharging operations energy storage units of mobile electrical equipment such as portable tools, electronic terminals of the smartphone, computer or console type, or even to a device suitable for operating a supply of electricity in systems configured for recharging specific portable electric batteries such as consoles for workshops, mobile offices or docking stations for portable terminals.

The invention relates to an electrical distribution circuit 1 for charging vehicles in a parking lot from a power supply network 3 to several individualized power supply devices 2, 21, 22, 23, the electrical circuit 1 comprising a radiation distribution tree from a first-rank common node 11, characterized in that the first-rank common node 11 is integrated into an individualized power supply device 21 . Also, the solution provided by the circuit 1 of the invention is part of a distribution tree which radiates from an individualized power supply device 21. The individualized power supply device 21 thus integrates the original junction between a receiving branch of the electric flow to the first individualized power supply device 21 and at least one flow distribution branch to the rest of the circuit 1 of the invention. It is appropriate here to understand “first individualized supply device” as designating the most upstream individualized supply device on the tree structure of the distribution circuit 1 of the invention. This individualized power supply device 21 incorporates in its structure the original node from which all of the distribution is carried out by the circuit 1 of the invention. This original node forms the first rank node 11 of the distribution circuit 1 which is common to all the distribution branches of the circuit 1 which are directly or indirectly attached to it. This first-rank common node 1 1 thus achieves the first point of distribution or distribution within the circuit of the electrical energy coming from the connection point of the circuit 1 with the external power supply network 3 which supplies the energy. electrical to circuit 1 . The integration of this original node of the circuit 1 in an individualized power supply device 21 makes it possible to operate a space saving within the framework of the installation of the circuit 1 on a parking site by limiting the installation of a specifically dedicated structural element. Furthermore, such integration in a power supply device also allows ease of access for an installer, both for connection and for disconnection, of a power line. distribution of circuit 1 forming a branch originating on this first rank common node 11 of circuit 1 . Furthermore, the integration of a node in the structure of an individualized power supply device 21 makes it possible to operate the positioning of the junction between two branches of the tree structure of the circuit 1 at a height occupied by the device of individualized power supply 21, that is to say positioned above the surface of the parking lot, so that the rest of the circuit 1 is also able to be positioned on the surface of the parking lot.

According to an example corresponding to a construction variant, the common first rank node 11 is geographically positioned inside the surface of the vehicle parking lot. The integration of the first rank node 11 in the structure of an individualized supply device 21 makes it possible to operate a distribution from a location at which a vehicle likely to be driven to recharge. Also, such a location is likely to be present at any point on the surface of the car park capable of receiving an individualized power supply device 21 . Consequently, the distribution circuit 1 according to the invention is not dependent on a radiation point which would be positioned at the level of the peripheral edge of the vehicle parking lot or even outside the parking lot. Under these conditions, the distribution circuit 1 according to the invention allows freedom to overcome constraints of space that would be likely to exist on the parking site.

According to an example corresponding to another construction variant, the common first rank node 11 is connected to at least one second rank node 12 integrated into an individualized power supply device 22. Also according to this construction variant, the distribution carried out by the circuit 1 of the invention at the level of a higher rank node is also integrated into a dedicated individualized supply device 22, so that the various advantages stated above for the first rank node 11 are found also at other intersections of the circuit tree 1 . In addition, the various distribution branches which operate the links between the individualized power supply device 21 the further upstream in the tree structure of the circuit 1 of the invention and an individualized power supply device 22 integrating a second rank node 12 are also able to be arranged above the surface of the parking lot.

According to an example corresponding to another variant of construction capable of being combined with the various variants of the invention mentioned above, the second rank common node 12 is connected to at least one third rank node 13 integrated into a individualized power supply device 23. Also, here also, according to this construction variant, the distribution carried out by the circuit 1 of the invention at the level of the third row nodes 13 is also integrated into a dedicated individualized power supply device 23, so that the various advantages stated previously for the nodes of the first 11 and second 12 ranks are also found at the other intersections of the tree structure of the circuit 1 .

It should be noted that these different arrangements by which individualized power supply devices 22, 23 integrating a higher rank node 12, 13 are connected to an individualized power supply device 21, 22 integrating a lower rank node 11 , 12 allow the installation of a new individualized power supply device on the site by simple electrical connection to a node integrated into a power supply device already present on site. This arrangement thus allows installation of a new individualized power supply device by a connection likely to present certain advantages similar to those of a step-by-step connection and makes it possible to dispense with an individual connection to a point of centralized power supply. As a result, the length of cabling necessary for setting up such a distribution during its deployment is reduced compared to an arrangement having a centralized configuration.

According to an example corresponding to another variant of construction capable of being combined with the various variants of the invention mentioned above, at least one node 1 1, 12, 13 of the circuit 1 is directly connected to a device of individualized diet 2, 21, 22, 23. In such a configuration of embodiment of the circuit 1 of the invention, the individualized power supply device 2, 21, 22, 23 powered by a node is likely to designate, on the one hand, the individualized power supply device 21, 22 , 23 which integrates a node 1 1 , 12, 13 of the circuit 1 in its structure and, on the other hand, an individualized supply device 2 positioned at the end of the tree structure of the circuit 1 and supplied by a distribution branch which takes birth from a node 11, 12, 13 of the tree. Thus, according to this second case, the individualized power supply device 2 positioned at the end of the tree structure of the circuit 1 is powered by a distribution branch which originates from a last node in the tree structure of the distribution circuit 1, the latter node corresponding to the last node crossed by the electric flow before reaching an end of the tree structure of the circuit 1 at the level of which an individualized power supply device 2 is positioned. Depending on the architecture of the tree structure, this last node is thus likely to correspond to a node of the first rank 1 1 , of the second rank 12 or even of the third rank 13.

According to an example corresponding to another construction variant capable of being combined with the various variants of the invention mentioned above, at least one last node 11, 12, 13 through which the electrical flow passes before reaching a end of the tree structure of circuit 1 provides the junction between several distribution branches to respective individualized power supply devices 2 positioned at the end of the tree structure of distribution circuit 1 . According to this construction variant, from a last node positioned at the end of the tree structure and integrated into a dedicated individualized power supply device, the electrical distribution is shared between different branches whose respective ends supply individualized power supply devices 2 positioned at the tree end of the distribution circuit 1 of the invention.

According to another example corresponding to a specific construction variant of the previously mentioned construction variant, at least one node 11, 12 corresponds to a lower row performs the junction of two distribution branches to two respective individualized power supply devices incorporating nodes 12, 13 of identical higher rank, the node 1 1, 12 corresponds to a lower rank being integrated into an individualized power supply device 21, 22, each of the devices individualized supply devices 22, 23 integrating nodes 12, 13 of higher rank being installed according to independent arrangements on the parking lot on either side of the individualized supply device 21, 22 integrating the node 11, 12 of lower rank. According to this construction variant, the different supply lines between the different individualized supply devices 21, 22, 23 have a tree-like arrangement so that the branches deployed on either side of the node 11, 12 of lower rank are likely to present trees whose on-site installation configurations and deployment evolutions are independent. These trees are also likely to adopt symmetrical distribution arrangements on either side of the node 11, 12 of lower rank. Also, according to a preferred arrangement linked to this construction variant of the circuit of the invention, during installation, on site, the various individualized power supply devices associated with each of the trees are arranged on opposite sides of the power supply device. individualized power supply 21, 22 incorporating the node 1 1, 12 of lower rank.

[0021] According to another example corresponding to a construction variant capable of being combined with the two aforementioned construction variants, at least one last node 11, 12, 13 through which the electrical flow passes before reaching one end of the tree of the circuit 1 performs the junction of two distribution branches to two respective individualized power supply devices 2 positioned at the end of the tree structure of the distribution circuit 1, the last node 1 1, 12, 13 crossed being integrated in a device of individualized power supply 21, 22, 23, each of the individualized power supply devices 2 positioned at the end of the tree structure of the distribution circuit 1 being installed on the parking lot on either side of the individualized power supply device integrating the last node 1 1 , 12, 13 crossed. According to this alternative construction, the arrangement of the individualized power supply devices 2 positioned at the end of the tree structure of the distribution circuit 1 of the invention allows a symmetrical distribution of the individualized power supply devices 2 with respect to the individualized power supply device integrating the last node 11, 12, 13 crossed.

According to an example corresponding to another construction variant capable of being combined with different variants of the invention mentioned above, a last node 1 1, 12, 13 crossed by the electric flow before reaching one end of the The tree structure of the circuit 1 forms a distribution junction of six individualized power supply devices 2 positioned at the end of the tree structure of the distribution circuit 1. According to an embodiment of this particular variant of construction, the common first rank node 11 is connected to at least one second rank node 12, the second rank node 12 being itself connected in distribution to six devices of individualized power supply 2 positioned at the end of the distribution circuit tree structure 1 . This arrangement of the distribution tree at the level of a set of several individualized power supply devices 2 at the end of the tree structure allows flexibility in the adjustment of the tree structure to the revolution of the installation of new power supply devices. individualized power supply 2. Moreover, this connection of several devices makes it possible to operate a facilitated connection of a new individualized power supply device 2 installed by connection at the level of a crossed node of last centralized rank. Also, the risk of a significant use of cable length which exists within the framework of a centralized connection is reduced. The length of cable necessary to supply a given number of individualized supply device 2, 21, 22, 23 is thus limited and therefore optimized, which makes it possible to operate a reduction in the installation costs of the distribution circuit. In addition, such an arrangement of the tree structure is capable of being easily modified according to the evolution of the stock of individualized power supply devices 2 by integrating at least one additional node between the last rank crossed node and the current end of the tree. As complementary, it can be noted that the distribution of six individualized power supply devices 2 positioned at the end of the tree structure of the distribution circuit 1 from a last rank crossed node also allows on-site installation of the power supply devices individualized 2 according to a symmetrical arrangement on either side of the individualized power supply device integrating the last row crossed node 11, 12, 13. Also, by way of example, in the context of an application to a tree structure of the circuit 1 forming a distribution junction of six individualized power supply devices 2 positioned at the end of the tree structure of the distribution circuit 1, the six individualized power supply devices 2 are aligned in the form of two groups of three power supply devices individualized power supply 2 positioned on either side of the last rank crossed node 11, 12, 13. The individualized power supply devices 2 are also alement capable of being arranged radially in pairs on either side of a last-row crossed node 11, 12, 13.

According to an example corresponding to another variant of construction capable of being combined with different variants of the invention mentioned above, the infrastructure of the first rank common node 1 1 is configured to be able to ensure the distribution with a cumulative electrical power of between 200 kW and 250 kW. The ability to adapt to such electrical power allows distribution of electrical power capable of reaching values of the order of 80 kW to 120 kW at the level of second rank nodes 12. Depending on the type of distribution operated in the tree structure distribution starting from a second rank node 12, the distributed powers are then likely to be adapted. Thus, during a distribution to several, for example six, individualized power supply devices 2 positioned at the end of the tree structure of the distribution circuit 1, the cumulative electrical power supported by each of the distribution branches is between 40 kW and 60kW. Alternatively, during a distribution to third-tier nodes 13, the cumulative electrical power at these nodes is also between 40 kW and 60 kW so that the cumulative electrical power supported by each of the distribution branches radiating from these third-row nodes 13 to the individualized power supply devices 2 positioned at the end of the tree structure of the distribution circuit 1 is between 10 kW and 25 kW. It should be borne in mind that the individualized power supply devices 2 considered are capable of integrating one or more connection points to operate the power supply for parked vehicles. Within the framework of the values presented as an example, the individualized power supply devices 2, 21, 22, 23 considered each comprise a pair of connection points capable of supplying an electric power supply of the order of 7 kW. However, depending on the number of such connection points carried by the different individualized power supply devices 2, 21, 22, 23 considered, the cables used in the context of the different portions of the distribution circuit of the invention are necessarily adapted to the different respective loads carried. Furthermore, it should also be borne in mind that, each of the nodes 11, 12, 13 of the tree structure of the circuit being integrated into an individualized power supply device 21, 22, 23, this device 21, 22, 23 also includes a pair of connection points capable of supplying an electrical supply power of the order of 7 kW. Also, in addition to delivering power to the distribution branches connected to the nodes concerned, these nodes also provide electrical power of the order of 7 kW at each of the connection points for supplying parked vehicles .

According to an example corresponding to another construction variant capable of being combined with different variants of the invention mentioned above, the distribution circuit 1 incorporates a power distribution device between the different individualized power supply devices 2 , 21 , 22, 23 distributed. Such a power distribution device is intended to effect an optimized distribution of electrical energy between the various individualized power supply devices integrated into the distribution circuit, or even between the various connection points carried by these individualized power supply devices. This optimization of distribution is carried out according to the loading times available and/or programmed for the various parked vehicles connected to the individualized supply devices. By way of example, this power distribution device comprises various sub-modules interconnected and positioned at each of the nodes 11, 12, 13 of the tree structure of the distribution circuit 1. These sub-modules thus participate in the routing of the electrical power inside circuit 1.

Of course, the invention is not limited to the embodiments described and shown in the accompanying drawings. Modifications remain possible, in particular from the point of view of the constitution of the various elements or by substitution of technical equivalents, without thereby departing from the scope of protection of the invention.

Claims

Claims

[Claim 1] Electrical distribution circuit (1) for recharging vehicles in a parking lot from a power supply network (3) to several individualized power supply devices (2, 21, 22, 23), the electrical circuit ( 1) comprising a radiating distribution tree from a first rank common node (11), characterized in that the first rank common node (1 1 ) is integrated into an individualized power supply device (21).

[Claim 2] Electrical distribution circuit (1) according to Claim 1, characterized in that the first-rank common node (1 1 ) is connected to at least one second-rank node (12) integrated in a power supply device individualized (22).

[Claim 3] Electrical distribution circuit (1) according to one of the preceding claims, characterized in that the second row node (12) is connected to at least one third row node (13) integrated in an individualized power supply device (23).

[Claim 4] Electric distribution circuit (1) according to one of the preceding claims, characterized in that the first-rank common node (1 1 ) is geographically positioned inside the surface of the vehicle parking lot.

[Claims] Electrical distribution circuit (1) according to one of the preceding claims, characterized in that at least one node (1 1, 12, 13) of the circuit (1) is directly connected to an individualized power supply device (2 , 21 , 22, 23).

[Claims] Electrical distribution circuit (1) according to one of the preceding claims, characterized in that at least one last node (1 1, 12, 13) through which the electrical flow passes before reaching one end of the tree structure of the circuit (1) performs the junction between several branches of distributions to individualized power supply devices (2) respectively positioned at the end of the distribution circuit tree (1).

[Claim 7] Electrical distribution circuit (1) according to claim 6, characterized in that at least one node (1 1, 12) corresponding to a lower rank performs the junction of two distribution branches to two individualized power supply devices respective integrating nodes (12, 13) of identical higher rank, the node (1 1, 12) corresponding to a lower rank being integrated into an individualized power supply device (21, 22), each of the individualized power supply devices ( 22, 23) integrating nodes (12, 13) of higher rank being installed according to independent arrangements on the parking lot on either side of the individualized supply device (21, 22), integrating the node (1 1 , 12) of lower rank.

[Claim s] Electrical distribution circuit (1) according to one of claims 6 or 7, characterized in that at least one last node (1 1, 12, 13) through which the electric flow passes before reaching one end of the circuit tree connects two distribution branches to two respective individualized power supply devices (2) positioned at the end of the distribution circuit tree (1), the last node (1 1, 12, 13) crossed being integrated in an individualized supply device (21, 22, 23), each of the individualized supply devices (2) positioned at the end of the tree structure of the distribution circuit (1) being installed on the parking lot on either side other individualized power device (21, 22, 23) incorporating the last node (1 1, 12, 13) crossed.

[Claim 9] Electrical distribution circuit (1) according to one of Claims 1 to 7, characterized in that a last node (11, 12, 13) through which the electrical flow passes before reaching one end of the tree structure of the circuit (1) produces a distribution junction of six individualized power supply devices (2) positioned at the end of the distribution circuit tree (1).

[Claim 10] Electrical distribution circuit (1) according to one of the preceding claims, characterized in that the infrastructure of the first rank common node (1 1 ) is configured to be able to ensure the distribution of electrical power cumulative between 200 kW and 250 kW. [Claim 1 1] Electrical distribution circuit (1) according to one of the preceding claims, characterized in that the distribution circuit (1) incorporates a power distribution device between the various individualized power supply devices (2, 21, 22, 23) distributed. |