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CN-121983724-A - Battery barrel and charging station

CN121983724ACN 121983724 ACN121983724 ACN 121983724ACN-121983724-A

Abstract

A battery barrel and a charging station, the battery barrel comprises a barrel body and a roller module. The barrel body comprises at least one side wall which surrounds to form an inserting port. The side wall is provided with a notch communicated with the insertion port and extends away from the insertion port. The roller module is engaged with the notch and configured to slide along the inner edge of the notch to leave the notch from the insertion opening. Therefore, the external battery can slide smoothly when being inserted into the barrel body, and the inserting difficulty of the external battery in the barrel body is effectively reduced.

Inventors

  • XU ZHENXIN
  • WANG YOURONG
  • ZENG ZHIYONG

Assignees

  • 睿能创意公司

Dates

Publication Date
20260505
Application Date
20241030

Claims (16)

  1. 1. A battery can, comprising: a barrel body including at least one side wall surrounding to form an insertion opening, the at least one side wall having a notch communicating with the insertion opening and extending away from the insertion opening, and The roller module is connected with the notch and is configured to slide along an inner edge of the notch to leave the notch from the inserting port.
  2. 2. The battery can of claim 1, wherein the inner edge of the notch has opposing first and second edges, the roller module comprising: A mounting plate comprising a first chute and a second chute opposite to each other, wherein the first edge and the second edge are slidably engaged with the first chute and the second chute, respectively, and At least one roller unit is rotatably arranged on the mounting plate.
  3. 3. The battery can of claim 2, wherein the at least one roller unit is electrically coupled to the mounting plate.
  4. 4. The battery can of claim 3, wherein the material of the at least one roller unit comprises plastic and at least one conductive material, wherein the conductive material comprises carbon fiber, conductive carbon black, conductive ceramic, graphene, metal fiber, or other materials with conductive properties.
  5. 5. The battery can of claim 2, wherein the can further comprises a flange coupled to an end of the at least one sidewall forming the insertion opening, the roller module further comprises a securing plate positioned outside the can and comprising: A first fixing part fixed to the mounting plate via the notch, and And the second fixing part is connected with the first fixing part in a bending way and is fixed to the flange.
  6. 6. The battery can of claim 2, wherein the mounting plate includes at least one recess and at least one shaft positioned in the at least one recess, and the at least one roller unit is partially received in the at least one recess and rotatably engaged with the at least one shaft.
  7. 7. The battery can of claim 1, wherein the can body further comprises a bottom wall connecting an end of the at least one sidewall remote from the insertion opening, the at least one sidewall comprising: The roller module is arranged on the first side wall; a second side wall having at least one air inlet adjacent to the insertion opening and away from the bottom wall, and A third side wall having at least one air outlet adjacent to the bottom wall and away from the insertion opening.
  8. 8. The battery can of claim 1, wherein the can body further comprises a bottom wall, the battery can further comprising a battery connection mount comprising: A base disposed outside the tub and attached to the bottom wall, wherein the base is configured to move laterally with respect to the bottom wall, and An electric connector is arranged on the base body and penetrates into the barrel body through the bottom wall.
  9. 9. The battery can of claim 8, wherein the bottom wall has a stud with an end face and a threaded hole in communication with the end face, the housing abuts the end face and has a through hole, and the battery can further comprises at least one locking member comprising: A screw thread part screwed with the screw hole; A step part connected to the screw part and abutting the end face, wherein the step part is located in the through hole at intervals, and And a head part connected with one end of the step part far away from the thread part, wherein the seat body is partially limited between the end surface and the head part.
  10. 10. The battery can of claim 8, further comprising at least one stop member external to the can body and secured to the bottom wall, the at least one stop member comprising: a first limit part, and The second limiting part is connected with the first limiting part, and the base body is partially limited between the bottom wall and the second limiting part.
  11. 11. A charging station, comprising: A cabinet body having a front surface provided with a containing frame, and The battery can of claim 1 partially received within the receiving frame.
  12. 12. The charging station of claim 11, wherein the tub further comprises a bottom wall connecting an end of the at least one side wall remote from the insertion opening, the at least one side wall further having at least one air inlet and at least one air outlet adjacent the insertion opening and the bottom wall, respectively, the charging station further comprising: The fan module is arranged on the containing frame, is adjacent to the at least one air outlet and is far away from the at least one air inlet, the cabinet body is further provided with a back surface, an inner space is arranged between the front surface and the back surface of the cabinet body, and the fan module is configured to discharge air in the containing frame into the inner space.
  13. 13. The charging station of claim 12, further comprising a heat exchanger disposed on one side of the charging station and configured to exchange heat with air within the interior space.
  14. 14. The charging station of claim 11, wherein the roller module is electrically connected to the housing frame.
  15. 15. The charging station of claim 14, wherein the roller module comprises: a mounting plate slidably engaged with the notch; At least one roller unit rotatably arranged on the mounting plate, and A fixing plate, which is positioned outside the barrel body and is fixed to the mounting plate through the notch, Wherein the at least one roller unit is electrically connected with the accommodating frame through the mounting plate and the fixing plate in sequence.
  16. 16. The charging station of claim 15, wherein the fixing plate comprises an elastic element, and the fixing plate abuts against the accommodating frame by using the elastic element.

Description

Battery barrel and charging station Technical Field The disclosure relates to a battery barrel and a charging station. Background Currently, charging stations are mainly used to house and charge batteries. Charging stations are typically provided with a battery tub for receiving a battery and a connector mounted within the battery tub. When the existing battery barrel is used, a user needs to push the battery into the battery barrel completely, and the battery can be plugged into the connector at the moment, so that the battery is charged. However, in the actual use process, the battery needs to be completely pushed into the battery barrel, so that the pushing stroke of the battery is too large, the battery and the connector are difficult to align, and the plugging difficulty of the battery and the connector is increased. After multiple plugging, the connector is also susceptible to severe damage. In addition, static electricity is easily generated in the process of replacing the battery, and fire hazards exist. Once a fire disaster occurs in the charging station, the fire disaster tends to spread fast, release a large amount of heat and toxic smog, and bring great threat to peripheral equipment facilities and personal safety. Therefore, how to provide a battery can and a charging station capable of solving the above problems is one of the problems in the industry to be solved by the research and development resources. Disclosure of Invention Accordingly, an objective of the present disclosure is to provide a battery can and a charging station that can solve the above-mentioned problems. In order to achieve the above object, according to one embodiment of the present disclosure, a battery can includes a can body and a roller module. The barrel body comprises at least one side wall which surrounds to form an inserting port. The side wall is provided with a notch communicated with the insertion port and extends away from the insertion port. The roller module is engaged with the notch and configured to slide along the inner edge of the notch to leave the notch from the insertion opening. In one or more embodiments of the present disclosure, the inner edge of the notch has a first edge and a second edge opposite to the first edge. The roller module comprises a mounting plate and at least one roller unit. The mounting plate comprises a first chute and a second chute which are opposite. The first edge and the second edge are respectively slidably connected with the first chute and the second chute. The roller unit is rotatably arranged on the mounting plate. In one or more embodiments of the present disclosure, the mounting plate is electrically connected to the roller unit. In one or more embodiments of the present disclosure, the material of the roller unit includes plastic and at least one conductive material. Wherein the conductive material comprises Carbon Fiber (Carbon Fiber), conductive Carbon black (Conductive Carbon Black), conductive ceramic (Conductive Ceramics), graphene (Graphene), metal Fiber (Metal Fiber) or other materials with conductive properties. In one or more embodiments of the present disclosure, the tub further comprises a flange. The flange is connected to one end of the sidewall forming the insertion opening. The roller module further includes a fixed plate. The fixed plate is located outside the barrel body and comprises a first fixed part and a second fixed part. The first fixing portion is fixed to the mounting plate via the notch. The second fixing portion is connected with the first fixing portion in a bending mode and is fixed to the flange. In one or more embodiments of the present disclosure, the mounting plate includes at least one recess and at least one shaft disposed in the recess. The roller unit is partially accommodated in the groove and is rotatably connected to the rotating shaft. In one or more embodiments of the present disclosure, the tub further comprises a bottom wall. The bottom wall is connected with one end of the side wall far away from the insertion port. The side walls comprise a first side wall, a second side wall and a third side wall. The roller module is arranged on the first side wall. The second side wall is provided with at least one air inlet. The air inlet is adjacent to the insertion opening and is far away from the bottom wall. The third side wall is provided with at least one air outlet. The air outlet is adjacent to the bottom wall and is remote from the insertion opening. In one or more embodiments of the present disclosure, the tub further comprises a bottom wall. The battery barrel further comprises a battery connecting seat. The battery connecting seat comprises a seat body and an electric connector. The seat is located outside the tub and attached to the bottom wall. The base is configured to move laterally relative to the bottom wall. The electric connector is arranged on the base body and penetrates into the barrel body through the bottom w