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CN-224211039-U - Power exchange station

CN224211039UCN 224211039 UCN224211039 UCN 224211039UCN-224211039-U

Abstract

The application provides a power exchange station, which comprises a charging box and a plurality of charging components, wherein a charging space is defined in the charging box, the plurality of charging components are arranged in the charging space, the plurality of charging components are sequentially arranged at intervals along a first transverse direction, so that charging energy in each charging component can bear a battery from top to bottom, and a mounting gap is defined between at least part of the charging components and the bottom wall of the charging space, so that charging matched equipment can be mounted. The power exchange station can reduce the whole occupied area of the power exchange station and is beneficial to miniaturization.

Inventors

  • WANG LEI
  • JIANG CHANGHONG
  • WANG TIEMIN
  • LIU WEI

Assignees

  • 湖南行必达网联科技有限公司

Dates

Publication Date
20260508
Application Date
20250522

Claims (10)

  1. 1. A power exchange station, comprising: the charging box is internally provided with a charging space; The charging assemblies are used for charging the batteries, the charging assemblies are arranged in the charging space, the charging assemblies are sequentially arranged at intervals along the first transverse direction, so that the charging position in each charging assembly can receive the batteries from top to bottom, and at least part of the charging assemblies and the bottom wall of the charging space define a mounting gap for mounting charging matched equipment.
  2. 2. The plant according to claim 1, characterized in that, The number of the charging assemblies is three, namely a first charging assembly, a second charging assembly and a third charging assembly, and the first charging assembly, the second charging assembly and the third charging assembly are sequentially arranged at intervals along the first transverse direction; The first charging assembly and the bottom wall of the charging space define the mounting gap; the third charging assembly and the bottom wall of the charging space define the mounting gap.
  3. 3. The power exchange station of claim 2, further comprising: The first cooling unit is arranged in the charging space and positioned below the first charging assembly and used for cooling the battery of the first charging assembly; The second cooling unit is arranged in the charging space and is positioned at the side part of the second charging assembly, close to the first cooling unit, and is used for cooling the battery of the second charging assembly; And the third cooling unit is arranged in the charging space and positioned below the third charging assembly and used for cooling the battery of the third charging assembly.
  4. 4. A plant according to claim 3, further comprising: and the at least one charging unit is used for providing electric energy for each charging assembly, and the at least one charging unit is arranged in the charging space and is positioned below the third cooling unit.
  5. 5. A power plant according to any one of claims 1 to 4, An operation space is further defined in the charging box, the operation space is located at one side of the charging space, and the charging box is provided with an opening communicating the operation space with the external environment; the power exchange station further comprises: the door body is arranged at the opening and is used for opening and closing the operation space; The control cabinet is arranged in the operation space and is provided with an operation surface, and the operation surface faces the door body.
  6. 6. A power plant according to any one of claims 1 to 4, The top of the charging box is open; the power exchange station further comprises: The lifting box is internally provided with a lifting space, and the lifting box cover is buckled above the charging box so that the lifting space is vertically communicated with the charging space; and a lifting opening is formed in the side part of the lifting box and used for allowing the battery to enter the lifting space.
  7. 7. The power exchange station of claim 6, further comprising: The top box is internally limited with an installation space, and is connected to the side part of the lifting box, where the lifting opening is arranged, so that the installation space is transversely communicated with the lifting space; The lifting device comprises a lifting rail and a lifting appliance, wherein the lifting rail is fixed in the lifting space and extends to the installation space, the lifting appliance is movably arranged on the lifting rail and is used for lifting a battery on a vehicle and driving the battery to enter the lifting space through the lifting opening, and then enter the charging assembly located in the charging space.
  8. 8. The power exchange station of claim 7, further comprising: the supporting part is arranged on one side of the top box, deviating from the lifting box, and is used for supporting the top box, and the supporting part and the top box, the lifting box and the charging box define a charging parking channel for vehicles to pass through.
  9. 9. The power exchange station of claim 6, wherein, An operation space is further defined in the charging box, the operation space is located at one side of the charging space, and the lifting space is further communicated with the operation space; the power exchange station further comprises: The overhaul platform is arranged in the lifting space and is positioned above the operation space; And the overhaul ladder is arranged in the operation space and is used for enabling overhaul personnel to climb on the overhaul platform.
  10. 10. A power plant according to any one of claims 1 to 4, Each of the charging assemblies includes two charging stations arranged in a second lateral direction, wherein, The second lateral direction is perpendicular to the first lateral direction.

Description

Power exchange station Technical Field The application relates to a power exchange technology, in particular to a power exchange station. Background The problem of charging electric vehicles and electric engineering machinery is a major factor affecting their popularization. In the prior art, a power exchange station is arranged to exchange the undercharged battery for the full-charged battery so as to solve the problems of difficult charging and slow charging, and has a certain pushing effect on the popularization of the electric automobile. In the prior art, a power exchange station is provided, a plurality of charging stations are arranged in the power exchange station, are tiled on the ground and cannot be shielded above the power exchange station, so that the charging stations can receive undercharged batteries on a lifting appliance from top to bottom. The prior art has some technical problems that the power exchange station is usually required to be equipped with matched equipment (such as a cooling system, a charging unit and the like), and the charging station is required to be tiled and arranged and cannot be shielded, so that the matched equipment can only be arranged at other positions on the ground, the whole area of the power exchange station is enlarged, the miniaturization is not facilitated, and the power exchange station is required to be improved. Disclosure of utility model The application provides a power exchange station, which can reduce the whole occupied area of the power exchange station and is beneficial to miniaturization. In order to achieve the above purpose, the present application adopts the following technical scheme: The application provides a power exchange station which comprises a charging box, a plurality of charging components and a plurality of charging supporting devices, wherein a charging space is defined in the charging box, the plurality of charging components are used for charging batteries, the plurality of charging components are arranged in the charging space and are sequentially arranged at intervals along a first transverse direction, so that charging bits in each charging component can receive the batteries from top to bottom, and a mounting gap is defined between at least part of the charging components and the bottom wall of the charging space, so that charging supporting devices can be mounted. As an alternative implementation mode, the number of the charging assemblies is three, namely a first charging assembly, a second charging assembly and a third charging assembly, the first charging assembly, the second charging assembly and the third charging assembly are sequentially arranged at intervals along the first transverse direction, the first charging assembly and the bottom wall of the charging space define a mounting gap, and the third charging assembly and the bottom wall of the charging space define a mounting gap. As an alternative implementation mode, the power exchange station further comprises a first cooling unit, a second cooling unit and a third cooling unit, wherein the first cooling unit is arranged in the charging space and is positioned below the first charging assembly and used for cooling batteries of the first charging assembly, the second cooling unit is arranged in the charging space and is positioned at the side part of the second charging assembly, which is close to the first cooling unit and used for cooling batteries of the second charging assembly, and the third cooling unit is arranged in the charging space and is positioned below the third charging assembly and used for cooling batteries of the third charging assembly. As an alternative embodiment, the power exchange station further comprises at least one charging unit for providing electric energy to each charging assembly, the at least one charging unit being arranged in the charging space below the third cooling unit. As an optional implementation mode, an operation space is further defined in the charging box, the operation space is located on one side of the charging space, the charging box is provided with an opening communicating the operation space with the external environment, the power exchange station further comprises a door body, the door body is arranged at the opening and used for opening and closing the operation space, and the control cabinet is arranged in the operation space and provided with an operation surface, and the operation surface faces the door body. The battery charging system comprises a charging box, a battery charging box, a lifting box cover, a lifting opening and a battery charging box, wherein the charging box is opened at the top, the battery charging box is provided with a lifting space in the charging box, the lifting box cover is buckled above the charging box so that the lifting space is vertically communicated with the charging space, and the side part of the lifting box is provided with the lifting opening for allowing a battery to