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CN-122008928-A - Miniaturized electric pile that fills based on internal structure optimizes

CN122008928ACN 122008928 ACN122008928 ACN 122008928ACN-122008928-A

Abstract

The application relates to a miniaturized charging pile based on internal structure optimization, which relates to the technical field of charging equipment and comprises a cabinet, wherein a switch door is arranged on the cabinet, a locking module for locking the switch door and the cabinet is arranged on the switch door, a placing module for placing an electric appliance and a cooling module for cooling the environment in the cabinet are arranged in the cabinet, and the miniaturization and internal structure optimization of the equipment are realized by integrally designing the cabinet, the switch door and the module integrating locking, placing and cooling functions. The switch door provides an overhaul inlet, the locking module ensures the closing safety of the switch door, the placement module reasonably plans the layout of internal electric appliances, and the cooling module actively manages the temperature in the cabinet. Through the modularization division, the internal structure is clear and compact, and the redundant space is reduced, so that the whole volume of the charging pile is effectively reduced on the premise of ensuring the functional integrity, and the installation and the deployment are convenient.

Inventors

  • LI SONG
  • ZHANG GUOHUI
  • Lei Huiping
  • ZHOU JIANGMIN
  • Huang riwang

Assignees

  • 广州迈斯宝新能源科技有限公司

Dates

Publication Date
20260512
Application Date
20260410

Claims (8)

  1. 1. The miniaturized charging pile based on the internal structure optimization is characterized by comprising a cabinet (1), wherein a switch door (2) is arranged on the cabinet (1), a locking module (3) used for locking the switch door (2) and the cabinet (1) is arranged on the switch door (2), a placing module (4) used for placing electric appliances and a cooling module (5) used for cooling the environment in the cabinet (1) are arranged in the cabinet (1).
  2. 2. The miniaturized charging pile based on internal structure optimization of claim 1, wherein the locking module (3) comprises a locking box (31), a fixed column (32) is arranged on the inner side of the switch door (2), the locking box (31) is inserted on the fixed column (32), a rotating gear (33) is rotationally arranged in the locking box (31), one end of the rotating gear (33) is provided with a rotating square block (34), the other end of the rotating gear (33) is provided with a rotating sleeve (35), the rotating sleeve (35) extends out of the locking box (31), a rotating handle (36) is fixedly arranged outside the rotating sleeve (35), a limiting groove (311) is formed in the locking box (31), a plurality of tooth sockets (371) are formed in one end of the upper locking rod (37) and one end of the lower locking rod (37) and are respectively inserted on the upper locking rod (37) and the lower locking rod (38), and the same in structure of the upper locking rod (37) and the lower locking rod (38) are respectively meshed with the locking rod (37).
  3. 3. The miniaturized charging pile based on internal structure optimization of claim 2 is characterized in that an embedded groove (21) is formed in the outer side of the switch door (2), a rotating hole (22) is formed in the embedded groove (21), the rotating hole (22) and the rotating gear (33) are concentrically arranged, a rotating ring (23) is rotationally arranged in the rotating hole (22), a rotating handle (24) is fixedly arranged on one side, away from the locking box (31), of the rotating ring (23), a square groove (25) is formed in one side, facing the locking box (31), of the rotating ring (23), a rotating square block (34) is inserted into the square groove (25), a rotating groove (26) is formed in the rotating ring (23), and the edge of the rotating hole (22) is inserted into the rotating groove (26).
  4. 4. The miniaturized charging pile based on internal structure optimization of claim 3, wherein the top and the bottom of a switch groove used for placing the switch door (2) on the cabinet (1) are respectively provided with an inserting support (11), the top inserting support (11) of the switch groove is used for inserting the upper locking rod (37), and the bottom inserting support (11) of the switch groove is used for inserting the lower locking rod (38).
  5. 5. The miniaturized charging pile based on internal structure optimization of claim 1, wherein the cooling module (5) comprises a ventilation groove (51), one side of the cabinet (1) is provided with the ventilation groove (51), a ventilation door (52) is hinged in the ventilation groove (51), an exhaust groove (53) is formed in the ventilation door (52), an exhaust grille (54) is arranged in the exhaust groove (53), a plurality of limiting covers (55) are arranged on one side of the ventilation door (52) facing the interior of the cabinet (1), a plurality of ventilation holes (56) are formed in the limiting covers (55), a fan (57) is arranged in the rotation mode in the ventilation holes (56), an isolation cover (58) is arranged on the outer cover of the limiting covers (55), the isolation cover (58) is arranged on the inner side of the cabinet (1), an isolation cover (581) is arranged on one side of the isolation cover (58) facing the interior of the cabinet (1), and a grid plate (582) is arranged on the isolation cover, and ventilation holes (58) are respectively arranged on the top of the isolation cover.
  6. 6. The miniaturized charging pile based on internal structure optimization of claim 5, wherein the placement module (4) comprises a fixed frame (41), the cabinet (1) is away from one side of the limiting cover (55) and is fixedly provided with the fixed frame (41), a bearing plate (42) and a fixed box (43) are arranged between the fixed frame (41) and the isolating cover (58), one end of the bearing plate (42) is erected at the top of the lapping grid (582), the other end of the bearing plate (42) is fixedly connected with the upper part of the fixed frame (41), one end of the other bearing plate (42) is erected at the bottom of the lapping grid (582), the other end of the other bearing plate (42) is fixedly connected with the lower part of the fixed frame (41), a placement groove (583) is formed in the middle of the lapping grid (582), and a fixed box (43) is inserted into the placement groove (583), and the other end of the fixed box (43) is fixedly connected with the middle part of the fixed frame (41).
  7. 7. The miniaturized charging pile based on the internal structure optimization of claim 6, wherein a limiting plate (44) is arranged on one side, facing the switch door (2), of the isolation cover (58) and the fixed frame (41), and a plurality of mounting frames (45) are arranged on the limiting plate (44).
  8. 8. The miniaturized charging pile based on internal structure optimization of claim 1, wherein an electric control module (6) is arranged on the switch door (2), and the electric control module (6) is electrically connected with an electrical appliance in the placement module (4).

Description

Miniaturized electric pile that fills based on internal structure optimizes Technical Field The application relates to the technical field of charging equipment, in particular to a miniaturized charging pile based on internal structure optimization. Background In the technical field of charging piles, along with the rapid development of electric vehicles, the requirements of the charging piles are also increasing. The charging pile is used as an important infrastructure for supplying energy to the electric automobile, and the development of the technology has important significance for popularization and promotion of the electric automobile. The efficient, stable and miniaturized charging pile can better adapt to different installation environments, improves the space utilization rate, provides more convenient charging service for users, and plays a positive promoting role in promoting the development of the electric automobile industry. Meanwhile, with the increasing shortage of urban space, miniaturized charging piles become an important trend of industry development. Conventionally, in order to realize the function of a charging pile, a more conventional layout method is generally adopted in structural design. For placing electric appliances, an open or simple separation type structure is adopted, various electric appliance elements are placed in a cabinet at will, and reasonable layering and layout planning are not performed. In the aspect of heat dissipation, a simple fan direct blowing mode is often adopted, or a common ventilation opening is arranged on the cabinet, and heat dissipation is realized by means of natural convection. In door lock design, screw fixation or simple buckle structure is commonly used to realize the connection and locking of switch door and rack. These conventional approaches are able to meet to some extent the basic functional requirements of the charging stake. However, the conventional charging pile structure layout has a number of problems. The open or simple separated electric appliance placing mode makes the safe distance between electric appliance elements difficult to control accurately, electromagnetic interference is easy to generate, and simultaneously, a large amount of transverse space is occupied, which is not beneficial to the miniaturized design of the charging pile. The heat dissipation mode of simple fan direct blowing and ordinary vent can't realize efficient heat exchange, can not satisfy the heat dissipation demand of the inside electrical components of electric pile well, leads to the rack in-temperature too high easily, influences electrical components's life and performance. The door lock structure of screw fixation and simple buckle, installation and dismantlement process are comparatively loaded down with trivial details, need consume more time and manpower, and appear not hard up and the condition of damage easily in long-term use. Therefore, in view of the above situation, there is an urgent need to develop a miniaturized charging pile based on internal structural optimization, so as to overcome the shortcomings in the current practical application. Disclosure of Invention In order to solve the defects in the technology, the application provides a miniaturized charging pile based on internal structure optimization. The application provides a miniaturized charging pile based on internal structure optimization, which adopts the following technical scheme: The utility model provides a miniaturized stake of charging based on internal structure optimizes, includes the rack, be provided with the switch door on the rack, be provided with on the switch door be used for with the switch door with the locking module of rack locking, be provided with in the rack and be used for placing the module of placing of electrical apparatus, be used for carrying out the cooling module of cooling to the interior environment of rack. The cabinet has the beneficial effects that the miniaturization and the internal structure optimization of the equipment are realized by integrally designing the cabinet, the switch door and the module integrating the locking, placing and cooling functions. The switch door provides an overhaul inlet, the locking module ensures the closing safety of the switch door, the placement module reasonably plans the layout of internal electric appliances, and the cooling module actively manages the temperature in the cabinet. Establishes the basis of miniaturization and structural optimization of the whole equipment. Through modularization division (locking, placing and cooling), the internal structure is clear and compact, and redundant space is reduced, so that the whole volume of the charging pile is effectively reduced on the premise of ensuring complete functions, and the charging pile is convenient to install and deploy. Meanwhile, the modularized design of each company is convenient for later maintenance and upgrading. In an optional implementati