• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a charging station (100) for an electric public transport vehicle, of the bus or tram-bus type, comprising: at least one first electrical connector intended to electrically connect said station to said vehicle; at least one second electrical connector provided for electrically connecting said station (100) to an external electrical source, and - a structure defining at least one area (102) for receiving persons; said station (100) being in the form of a rigid one-piece assembly that can be moved and installed on a desired site in a single block. It also relates to an electric public transport installation comprising such stations.
    公开号:FR3044481A1
    申请号:FR1561617
    申请日:2015-11-30
    公开日:2017-06-02
    发明作者:Marc Derrien;Borgne Michel Le
    申请人:Bluetram SAS;
    IPC主号:
    专利说明:

    "Charging station for an electric public transport vehicle and installation comprising such a station"
    The present invention relates to an electric charging station for an electric public transport vehicle, in particular terrestrial, such as a bus or a tram-bus. It also relates to an installation comprising such a charging station.
    The field of the invention is the field of charging stations for terrestrial public transport electric vehicles, of the bus or tram-bus type, provided with rechargeable electrical energy storage modules for supplying at least one electric motor of said electric vehicle. .
    State of the art
    To reduce pollution in urban areas, the use of electric vehicles is booming, encouraged both by the awareness of users but also by administrative incentives to buy and use electric vehicles. Thus, the number of electric vehicles is constantly increasing in all areas: private vehicles, rental-type shared vehicles, public transport vehicles, etc.
    Public transport electric vehicles are known that recharge electrically at each stop, for a very short period, for example 10 seconds. This very short electric recharge provides sufficient autonomy for the vehicle to reach the next stop, when a new electric recharge will take place, and so on.
    These electric vehicles make it possible to reduce the cost of an electric public transport network, because it is no more necessary to use catenaries. In addition, the cost, size and weight associated with the energy storage modules are also reduced.
    However, these electric vehicles need to be recharged at each stop, which involves equipping each stop with a charging station. The installation works of the current charging stations are long and expensive and block the road network. In addition, a relocation of a current charging station is complex, expensive and time consuming, which constitutes a barrier to the modification of the public transport network implementing such charging stations.
    An object of the present invention is to overcome these disadvantages.
    Another object of the invention is to provide a charging station for electric public transport vehicle whose installation is less complex, less expensive and less time consuming.
    Another object of the invention is to propose a recharging station for an electric public transport vehicle that makes it possible to increase the flexibility in the space of a network, or installation, of public transport implementing such stations.
    It is also an object of the invention to provide a charging station for electric public transport vehicle to reduce the time and cost of deployment of a public transport network.
    DESCRIPTION OF THE INVENTION The invention makes it possible to achieve at least one of these aims by a charging station for an electric public transport vehicle, in particular on the road, and even more particularly of the bus or tram-bus type. comprising: - at least one first electrical connector provided for electrically connecting said station to said vehicle, - at least one second electrical connector intended to electrically connect said station to an external electrical source, and - a structure defining at least one reception zone of people; said station being in the form of a rigid one-piece assembly that can be moved and installed on a desired site in a single block.
    Such a station is intended to be installed at each stop of said electric vehicle along a predefined path to, firstly, define a location where users ride in the vehicle and get off the vehicle and, secondly, reload said vehicle.
    The station according to the invention is therefore in the form of a one-piece assembly, the displacement of which is embodied in the form of a single block. The charging station according to the invention can therefore be built on a manufacturing site remote from the site of use. Once built, it can be transported as a single block to the site of use and installed quickly, inexpensively and without major roadwork.
    Therefore, the deployment of an electric public transport network implementing charging stations according to the invention can be achieved more quickly and cheaply. The charging station according to the invention even makes it possible to envisage the deployment of a temporary electric transit network.
    In addition, the charging station according to the invention can be moved at will, without requiring work, or with very little work, either on the old site where it was installed or on the new site where it will be installed. Consequently, it makes it possible to increase the flexibility in the space of a public transport network implementing such stations.
    In the present application, a "tram-bus" designates a terrestrial public transport vehicle mounted on wheels and which recharges at each station, so as not to require heavy rail-type infrastructures, catenaries, on the road. Such an electric vehicle is recharged at each station by means of a connector connecting said vehicle to said station.
    In addition, the term "storage module" means an assembly comprising one or more supercapacitance or battery-type electrical energy storage elements arranged in a rigid outer envelope.
    Advantageously, the external power source may be a source not dedicated to said charging station and previously present at the road. In this case, the charging station comprises processing and transforming elements of the signal delivered by the external source.
    According to a non-limiting version, the first electrical connector can be arranged on an arm, said coupler, assembled in one piece with said station.
    Advantageously, the position of the coupler can be adjustable continuously or discretely, in order to adapt to the configuration of the site of use.
    For example, the position of the coupler can be adjustable at the factory, in particular between several discrete positions.
    Alternatively, the position of the coupler can be adjustable on the site of use during its installation on the site of use.
    Alternatively or in addition, the position of the coupler can be adjustable at the site of use, when in use, with respect to the position of the electric vehicle, in particular during each electrical recharging.
    In particular, the position of the coupler can be adjusted for example in a vertical direction.
    Optionally, the position of the coupler may alternatively, or in addition, be adjusted along at least one horizontal direction, such as for example a horizontal direction parallel to, or perpendicular to, the direction of circulation of the vehicle.
    According to a particular embodiment, the coupler may be arranged in a housing, arranged in a housing, movable in translation in said housing, between: a retracted position, in which it is entirely in said housing and thus protected, and a deployed position, in which it leaves the housing and is coupled with a female connector provided in an electric vehicle.
    Such an architecture facilitates the electrical coupling between the vehicle and the charging station, while protecting the coupler when no electric recharge is in progress.
    Alternatively, the first electrical connector can be positioned in a female housing in which an arm integral with the electric vehicle is inserted.
    In a preferred version, but in no way limiting, the station according to the invention may further comprise at least one electrical energy storage module, called buffer, intended to store electrical energy supplied by the external electrical source, and then to provide said electrical energy stored in the electric vehicle, when said vehicle is electrically connected to said charging station.
    Each buffer electrical energy storage module may include one or more supercapacitors.
    For example, the buffer energy storage module (s) can be arranged in one or more cabinets provided in vertical walls of the charging station structure defining the reception area for people.
    The station according to the invention may advantageously comprise a base, for example made of concrete, ensuring the stability of said station.
    Such a base may be in the form of a slab, for example made of concrete, assembled in one piece with said station in the lower part of said station, for example on vertical walls of said station.
    Optionally, the station may comprise means for fixing said station on the ground, for example by screwing, in particular via the base.
    The station according to the invention may advantageously comprise hooking means, arranged to cooperate with lifting means, such as chains or the like, for the purpose of lifting and transporting it as a single unit.
    These attachment means may comprise lifting rings.
    Preferably, the hooking means can be rigidly fixed to the base.
    Preferably, the attachment means, and more particularly the lifting rings, can be removed from the base, so that they are removed once the station is installed.
    In addition, the reception area may include one or more seats / benches assembled in one block with said station.
    This or these seats or benches can be fixed on a vertical wall of said station for example by screwing.
    The charging station according to the invention may further comprise a roof, in particular assembled in a single block with said station.
    The roof can alternatively be dismantled, to facilitate the transport of the charging station.
    Such a roof is preferably disposed above at least a portion of the reception area of said station.
    Advantageously, the station according to the invention may comprise at least one display screen integrated in, or attached to, a wall of said station.
    According to a preferred embodiment, the station according to the invention can be in the form of an "L", the vertical leg of the "L" being formed by a vertical wall parallel to the direction of circulation of the vehicle and the branch horizontal of the "L" being formed by a wall comprising the first electrical connector.
    Each vertical wall may comprise one or more locations defined in the thickness of said wall and comprising: at least one buffer electrical energy storage module, or a management device of the charging station such as, for example , an electric charging supervision and control module, or a management module for the various components of the charging station.
    The station according to the invention may advantageously comprise means for adjusting its relative position relative to the surface on which it is placed, or with respect to a running lane of the electric vehicle.
    The adjustment means may for example comprise adjusting screws.
    At least one position adjusting means may be attached to a vertical wall of the charging station according to the invention.
    Alternatively, or in addition, at least one adjustment means can be attached to a base of the charging station according to the invention, if said station comprises such a base.
    According to another aspect of the invention, there is provided an electric public transport installation such as, for example, a public transport network on road or rail, comprising at least one charging station according to the invention.
    Preferably, the installation according to the invention may comprise a plurality of charging stations according to the invention, distributed along a predefined path or transport line.
    At least one recharging station of the installation according to the invention can be connected to an overhead electrical network, for example by means of a cable connecting the second electrical connector of said station to said overhead electrical network.
    Alternatively or additionally, at least one recharging station of the installation according to the invention can be connected to an underground electricity network.
    In this case, for at least one charging station connected to an underground electricity network, the installation according to the invention may comprise at least one mat, offset with respect to said station, said mat being electrically connected: on the one hand , to said underground electricity network, and - on the other hand, to said station, and in particular to the second electrical connector, by an overhead electrical cable; so that said mat makes an electrical bridge between said underground electrical network and said charging station. The installation according to the invention may be an electrical, road or rail transit network, temporary or durable.
    DESCRIPTION OF THE FIGURES AND EMBODIMENTS Other advantages and characteristics will appear on examining the detailed description of a non-limiting embodiment, and the appended drawings in which: FIGURES la-1d are diagrammatic representations under different angles of view of a non-limiting example of a charging station according to the invention; - FIGURES 2a-2d are schematic representations of different positions of a coupler of a charging station according to the invention; FIG. 3 is a schematic representation of an installation according to the invention; FIGURES 4 and 5 are diagrammatic representations of two connection configurations of a charging station according to the invention to an electricity distribution network; - FIGURE 6a is a schematic representation in an exploded view of a charging station, without the external trim elements; FIGURE 6b is a schematic representation of the charging station of FIGURE 6a, assembled and viewed from the front; and FIGURE 6c is a schematic representation of the charging station of FIGURE 6a, assembled and viewed from the side.
    It is understood that the embodiments which will be described in the following are in no way limiting. In particular, it will be possible to imagine variants of the invention comprising only a selection of characteristics described subsequently isolated from the other characteristics described, if this selection of characteristics is sufficient to confer a technical advantage or to differentiate the invention from the state of the art. This selection comprises at least one preferably functional characteristic without structural details, or with only a part of the structural details if this part is only sufficient to confer a technical advantage or to differentiate the invention from the state of the prior art.
    In the figures, the elements common to several figures retain the same reference.
    FIGURES la-ld are a schematic representation of a non-limiting example of a charging station according to the invention.
    FIGURE 1a is a schematic representation of charging station 100 in an isometric front view. FIGURE 1b is a schematic representation of charging station 100 in a back view. FIGURES 1a and 1d are schematic representations of charging station 100 in side views.
    The charging station 100 shown in FIGS. 1a-1d is in the form of a rigid one-piece assembly that can be moved in a single block, for example from a manufacturing site to a site of use, or from a first site of use to a second site of use.
    The charging station 100 comprises a first electrical connector (not visible) provided for electrically connecting the station 100 to an electric vehicle to recharge the vehicle for a very short time, for example of the order of 10 to 20 seconds.
    The charging station 100 receives electrical energy from an electrical network, underground or overhead, thanks to at least one second electrical connector (not visible).
    The station 100 comprises a structure defining a zone 102 for receiving persons wishing to ride in an electric vehicle when the latter stops at said station 100 and is recharged by said station 100.
    The charging station 100 comprises, above the reception zone 102, a roof 104, rigidly assembled and in one piece with the station 100.
    The charging station 100 comprises a vertical wall 106, called longitudinal, disposed parallel to a direction of circulation of the vehicle, and a vertical wall 108, called transverse, disposed perpendicular to said direction of travel.
    The first electrical connector of the charging station is arranged on an arm (not visible in FIGURES la-ld), said coupler, which is arranged in a housing 110 disposed above the transverse wall 108.
    The reception area is provided with two benches 112 secured to the longitudinal wall 106.
    In the lower part, the charging station comprises a base 114, made of concrete, to ensure the stability of the station 100 which may not be fixed to the ground. The base 114 is fixed rigidly to the walls 106 and 108.
    The vertical walls 106 and 108 meet with each other so as to form an "L". The free end of each vertical wall 106 and 108 comprises a pole, respectively 106i and 108i.
    Each vertical wall 106 and 108 comprises a double thickness, in which are arranged electrical members or storage modules of electrical energy buffer. For example, the longitudinal wall 106 comprises five cabinets 1062 (see FIGURE 1b), arranged in the thickness of the wall 106 and including, in particular, storage modules of electrical energy buffer. Each buffer electrical energy storage module has several supercapacitors. In addition, the longitudinal wall 108 comprises a cabinet 1082 (see FIGURE 1d), arranged in the thickness of the wall 108 and comprising the electrical unit management modules of the charging station 100, in particular to ensure the operation of the station 100 recharge.
    In particular, the charging station 100 comprises power transformers (not shown) for adapting the electric charging signal supplied to the vehicle from a signal provided by the existing and non-dedicated electricity distribution network.
    Each cabinet 1062 and 1082 is accessible, independently and individually, thanks to a rotating and lockable door.
    Of course, this provision is not limiting. For example, the positions of the buffering power storage modules and electrical devices can be reversed.
    Each wall 106 and 108 is made by means of a rigid frame defining a double wall by means of longitudinal members, uprights and crosspieces fixed between them rigidly by bolting or welding. The roof 104 is connected to the frame of the longitudinal wall 106 by means of rigid sections bolted to said frame.
    In the example shown in FIGURES la-ld the charging station 100 has the following dimensions: - length: 6 meters, - width: 3 meters, and - height: 3.2 meters.
    The roof 104 of station 100 can be made of polyester. The station may comprise elements of covering glass, stainless steel or sheet metal.
    Moreover, as shown in FIG. 1a, the base 114 is designed so as to also form an L, as the arrangement between the walls 106 and 108. In an embodiment variant, not shown, the base 114 may be of substantially parallelepipedic, so as to form a base also delimiting the area 102 of reception of people. Such a base then protrudes on both sides of the walls 106 and 108 to form a wider and more massive base. Such a base then makes it possible to have a better stability on the ground and also to facilitate its transport if necessary.
    FIGURES 2a-2d are schematic representations of different positions of a coupler of a charging station according to the invention.
    In particular, FIGURES 2a and 2b give a schematic representation in an isometric view of the housing 110 secured to the charging station. FIGURES 2c and 2d show a diagrammatic sectional representation of the casing 110 along the line AA shown in FIGURES 2a and 2b.
    The housing 110 includes a housing 202 provided to receive and direct the coupler 204 (see FIGURES 2c and 2d) carrying the first electrical connector to a female electrical connector provided on the side of the electric vehicle.
    The position of the coupler 204 can be adjusted via the housing 110. Indeed, the housing 110 is positioned in a cover 206 (see FIGURES 2a and 2b) fixed above the transverse wall 108. The position of the housing 110 in the hood 206 is adjustable, at least in the vertical direction. This adjustment can be achieved through cross members, on which the housing 110 is fixed and for which several positions are provided in the cover 206 in the vertical direction.
    FIGURE 2a is a schematic representation of the casing 110, and therefore of the coupler, in a low position and FIGURE 2b is a schematic representation of the casing 110, and therefore of the coupler, in a high position.
    Furthermore, the coupler 204, shown in FIGURES 2c and 2d, is free in translation in the housing 202 between: - a retracted position, in which it is entirely in said housing 202 and thus protected, and - an extended position, in which it leaves the housing 202 and is coupled with a female connector provided at the electric vehicle.
    The translation of the coupler 204 between the retracted position and the deployed position can be provided by a motor 208 which moves on rails 210 provided in the housing 202.
    FIGURE 2c is a schematic representation of the coupler 204 in the retracted position and FIGURE 2d is a schematic representation of the coupler 204 in an extended position.
    FIGURE 3 is a schematic representation of an installation according to the invention. The installation 300 comprises seven charging stations 100i-1007 along a predefined path 302 along which one or more electric vehicles circulate. Each charging station IOO1-IOO7 may be identical to the charging station 100 of FIGURES la-ld.
    Each electric vehicle is recharged at each charging station IOO1-IOO7. The facility 300 may be a fixed transit route and durable over time. Alternatively, the facility 300 may be a temporary transit route, temporarily set up for a given period, and modified or deleted, at the end of said given period.
    Of course, each electric vehicle can be designed to have sufficient autonomy to reach not only the next station but also the next, in case a recharge to the next station would not be possible for various reasons.
    FIGURE 4 is a schematic representation of a first connection configuration from a charging station to an electricity distribution network.
    In the configuration shown in FIG. 4, the station 100 is connected to an underground distribution network 402 by a connection 404 going down to the network 402 directly at the charging station 100, and in particular under the charging station 100.
    According to the invention, the distribution network 402 is an existing network on the road and which is not dedicated to the charging station 100.
    FIGURE 5 is a schematic representation of a second connection configuration from a charging station to an electricity distribution network.
    In the configuration shown in FIG. 5, the station 100 is connected to the underground electricity distribution network 402 via a mat 502. The station 100 is connected to the mat 502 by an overhead cable 504.
    The mat 502 is connected to the underground network 402 by a vertical cable 504 descending to said underground network 402 at the mat 502.
    In this configuration, the mat 502 provides an electrical connection gateway between the station 100 and the network 402.
    Of course, according to an alternative not shown in FIGURES, the station can be connected to an overhead electricity distribution network.
    FIGURE 6a is a schematic representation of a charging station according to an exploded view, and without the trim elements and the roof. FIGURE 6b is a schematic representation of the charging station of FIGURE 6a, assembled and viewed from the front. FIGURE 6c is a schematic representation of the charging station of FIGURE 6a, assembled and viewed from the side of wall 108.
    As can be seen in FIG. 6a, each wall 106 and 108 is made by means of a rigid frame defining a double wall by means of longitudinal members, uprights and crosspieces fixed rigidly to each other by bolting or welding.
    The station 100 comprises three lifting rings 602i-6023, rigidly fixed to the base 114 and used for transporting the station 100. Lifting means, such as chains or the like, are passed through the rings 602i-6023, to lift and transport the station, for example using a crane.
    The lifting rings 602i-6023 can advantageously be fixed to the base 114 in a detachable or removable manner, so that they can be removed from the base 114 once the charging station 100 has been transported and installed on site.
    Furthermore, during the transport of the charging station 100, a transport frame 604 can be used above the charging station 100 to protect the station while it is being raised and transported, but especially to balance the loads during of these operations. To do this, the frame 604 may comprise rings 606i-6063, arranged opposite the lifting rings, respectively 602i-6023, and intended to receive and guide the chains passed in each of the lifting rings 602i-6023, so that these chains remain parallel to each other and substantially vertical during the lifting of the station 100 and do not abut against the elements, more particularly the walls 106, 108, of the charging station 100 and thus damage it when it is raised and transported.
    In addition, the base 114 of the station 100 may comprise adjustment means 608, arranged according to the configuration of the station 100 and distributed in a predefined manner, so as to make it possible to adjust the relative position, more particularly the height and / or the inclination of the entire monobloc station 100 relative to the ground, depending on the constraints observed on the road, particularly at the level of the traffic of the electric vehicle intended to come opposite station 100. By way of example , the adjustment means comprise screws 608, partially embedded in the thickness of the base and projecting downwards, so as to make it possible to adjust by screwing the height of the walls 106 and 108 relative to the base 114, and thus by relative to the ground or the taxiway of the associated vehicle. This makes it possible to optimize the positioning of the station with respect to the ground and to ensure an optimal connection between the connection elements of the vehicle and the station.
    Of course, the invention is not limited to the examples detailed above. The charging station may further comprise one or more billboards, one or more display screens, etc. The means for actuating the coupler, the means for adjusting the coupler and the station may be different, etc.
    权利要求:
    Claims (18)
    [1" id="c-fr-0001]
    1. charging station (100) for an electric public transport vehicle, of the bus or tram-bus type, comprising: at least one first electrical connector intended to electrically connect said station to said vehicle, at least one second electrical connector provided for electrically connecting said station (100) to an external power source (402), and - a structure defining at least one area (102) for receiving persons; said station (100) being in the form of a rigid one-piece assembly that can be moved and installed on a desired site in a single block.
    [2" id="c-fr-0002]
    2. Station (100) according to the preceding claim, characterized in that the first electrical connector is arranged on an arm, said coupler, assembled in one block with said station (100).
    [3" id="c-fr-0003]
    3. Station (100) according to the preceding claim, characterized in that the position of the coupler is adjustable continuously or discretely.
    [4" id="c-fr-0004]
    4. Station (100) according to any one of claims 2 or 3, characterized in that the coupler is disposed in a housing (202), arranged in a housing (110), movable in translation in said housing (202), between: - a retracted position, in which it is entirely in said housing (202) and thus protected, and - an extended position, in which it leaves the housing and is coupled with a female connector provided at an electric vehicle .
    [5" id="c-fr-0005]
    5. Station (100) according to any one of the preceding claims, characterized in that it further comprises at least one electrical energy storage module, said buffer, provided for storing electrical energy supplied by the source external power supply (402), and then supplying said stored electrical energy to the electric vehicle, when said vehicle is electrically connected to said charging station (100).
    [6" id="c-fr-0006]
    6. Station (100) according to any one of the preceding claims, characterized in that it comprises a base (114), for example made of concrete, ensuring the stability of said station (100).
    [7" id="c-fr-0007]
    7. Station (100) according to any one of the preceding claims, characterized in that it comprises hooking means (602i-6023), arranged to cooperate with lifting means, for the purpose of lifting and carry on a single block.
    [8" id="c-fr-0008]
    8. Station (100) according to claims 6 or 7, characterized in that the attachment means (602i-6023) are rigidly fixed to the base (114).
    [9" id="c-fr-0009]
    9. Station (100) according to claims 6 to 8, characterized in that the attachment means (602i-6023) are removable.
    [10" id="c-fr-0010]
    10. Station (100) according to any one of the preceding claims, characterized in that the reception area (102) comprises one or more seats or benches (112) assembled in one block with said station (100).
    [11" id="c-fr-0011]
    11. Station (100) according to any one of the preceding claims, characterized in that it further comprises a roof (104), in particular assembled in one block with said station (100).
    [12" id="c-fr-0012]
    12. Station (100) according to any one of the preceding claims, characterized in that it further comprises at least one display screen integrated in or attached to a wall (106, 108) of said station (100 ).
    [13" id="c-fr-0013]
    13. Station (100) according to any one of the preceding claims, characterized in that it is in the form of an "L", the vertical leg of the "L" being formed by a vertical wall (106) parallel to the traffic direction of the vehicle and the horizontal leg of the "L" being formed by a vertical wall (108) having the first electrical connector.
    [14" id="c-fr-0014]
    14. Station (100) according to any one of the preceding claims, characterized in that it comprises adjustment means (608) of its relative position relative to the surface on which it is placed, or with respect to a path circulation of the electric vehicle, in particular of the adjustment screw type.
    [15" id="c-fr-0015]
    15. Installation (300) of electric transit comprising at least one recharging station (100-1007) according to any one of the preceding claims.
    [16" id="c-fr-0016]
    16. Installation (300) according to the preceding claim, characterized in that at least one charging station (IOO1-IOO7) is connected to an overhead electrical network.
    [17" id="c-fr-0017]
    17. Installation (300) according to any one of claims 15 or 16, characterized in that at least one charging station (100) is connected to an underground electricity network (402).
    [18" id="c-fr-0018]
    18. Installation (300) according to the preceding claim, characterized in that it comprises, for at least one charging station (100) connected to an underground electrical network (402), at least one mast (502), offset relative to at said station (100), said mast (502) being electrically connected: - on the one hand, to said underground network (402), and - on the other hand, to said station (100) by an overhead electric cable (504) ; whereby said mat (502) provides an electrical bridge between said underground power grid (402) and said charging station (100).
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    同族专利:
    公开号 | 公开日
    JP2018538785A|2018-12-27|
    CN108292853A|2018-07-17|
    WO2017092999A1|2017-06-08|
    SG11201803985VA|2018-06-28|
    US20180345809A1|2018-12-06|
    EP3384578A1|2018-10-10|
    FR3044481B1|2017-12-22|
    KR20180103049A|2018-09-18|
    BR112018010934A2|2018-12-04|
    CA3004661A1|2017-06-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20080277173A1|2005-10-17|2008-11-13|Pvi|Recharging Station and Related Electric Vehicle|
    DE202015102998U1|2015-06-10|2015-07-20|Abb Technology Ag|Charger for an electrically driven vehicle|
    US3955657A|1974-02-15|1976-05-11|Oscar Bossi|Electric traction transportation system with storage battery powered vehicles and fast recharge at the vehicle stops|
    JP3786392B2|1998-09-09|2006-06-14|本田技研工業株式会社|Electric vehicle charging device|
    CA2797575C|2010-04-26|2021-11-30|Proterra Inc|Systems and methods for automatic connection and charging of an electric vehicle at a charging station|
    US9770993B2|2013-05-31|2017-09-26|GM Global Technology Operations LLC|Electric vehicle charging station|FR3046383B1|2016-01-06|2018-01-26|Bluetram|SECURING SYSTEM FOR AN ELECTROMECHANICAL COUPLING ASSEMBLY, RECHARGING STATION OF AN ELECTRIC VEHICLE PROVIDED WITH SUCH A SYSTEM, AND ASSOCIATED COUPLING METHOD|
    USD890956S1|2017-12-29|2020-07-21|Landscape Forms, Inc.|Transit shelter|
    CN108656982B|2018-03-26|2020-08-21|浙江大学|Movable charging device for electric bus|
    US20210061197A1|2019-08-27|2021-03-04|Manufacturing Resources International, Inc.|Solar powered vehicle mounted display|
    USD916319S1|2019-09-25|2021-04-13|Manufacturing Resources International, Inc.|Bus shelter with integrated electronic display kiosks|
    USD934159S1|2019-10-29|2021-10-26|Manufacturing Resources International, Inc.|Canopy with solar powered electronic menu board|
    法律状态:
    2016-11-29| PLFP| Fee payment|Year of fee payment: 2 |
    2017-06-02| PLSC| Search report ready|Effective date: 20170602 |
    2017-11-27| PLFP| Fee payment|Year of fee payment: 3 |
    2019-11-29| PLFP| Fee payment|Year of fee payment: 5 |
    2021-08-06| ST| Notification of lapse|Effective date: 20210705 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1561617A|FR3044481B1|2015-11-30|2015-11-30|RECHARGING STATION FOR ELECTRIC COMMERCIAL TRANSPORT VEHICLE AND INSTALLATION COMPRISING SUCH A STATION.|FR1561617A| FR3044481B1|2015-11-30|2015-11-30|RECHARGING STATION FOR ELECTRIC COMMERCIAL TRANSPORT VEHICLE AND INSTALLATION COMPRISING SUCH A STATION.|
    SG11201803985VA| SG11201803985VA|2015-11-30|2016-11-10|Recharging station for electric public transport vehicle, and facility comprising such a station|
    CN201680069388.8A| CN108292853A|2015-11-30|2016-11-10|For Electric Transit vehicle charging station and include the facility of this charging station|
    US15/778,908| US20180345809A1|2015-11-30|2016-11-10|Recharging station for electric public transport vehicle, and facility comprising such a station|
    KR1020187017740A| KR20180103049A|2015-11-30|2016-11-10|Recharging stations for public transport vehicles, and equipment containing such stations|
    BR112018010934-7A| BR112018010934A2|2015-11-30|2016-11-10|recharging station for electric public transport vehicle, and installation comprising such station.|
    PCT/EP2016/077355| WO2017092999A1|2015-11-30|2016-11-10|Recharging station for electric public transport vehicle, and facility comprising such a station|
    EP16798668.6A| EP3384578A1|2015-11-30|2016-11-10|Recharging station for electric public transport vehicle, and facility comprising such a station|
    JP2018546747A| JP2018538785A|2015-11-30|2016-11-10|Charging stations for public transport electric vehicles and equipment including such stations|
    CA3004661A| CA3004661A1|2015-11-30|2016-11-10|Recharging station for electric public transport vehicle, and facility comprising such a station|
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