CN220391027U - Electricity changing cabinet structure with plug frame - Google Patents

Abstract

The utility model discloses a battery changing cabinet structure with an inserting frame, which comprises a battery changing cabinet shell, wherein a plurality of battery bins are distributed in the battery changing cabinet shell, charging connectors of the battery bins are respectively and electrically connected with a bin control charger module, and the bin control charger module is fixed on the battery cabinet shell; the bin control charger modules are all installed in the plug-in frame module, and the side walls of the bin control charger modules are outwards protruded to form a plurality of radiating fins; wherein, a front-back transparent air duct is formed between the adjacent bin control charger modules. The utility model installs the plug frame on the upper part of the cabinet body, the plug frame is also provided with a charger, a main control, a rectifying power supply and other modules, the tail part of each module is a golden finger, and the plug is carried out through the golden finger connector, thereby being convenient for connection and line inspection. The corresponding bin control charger module is provided with an independent insertion channel design, and is limited and guided by limiting up, down, left and right; the back is connected through copper bars and cables; the front part is an output port, and through output, front maintenance operation is carried out, so that operation and maintenance are simpler.

Description

Electricity changing cabinet structure with plug frame

Technical Field

The utility model relates to the field of machinery, in particular to a battery changing cabinet structure with an inserting frame.

Background

At present, along with the development of society, the high-speed development of the electric vehicle industry, including private electric vehicles, takeaway electric vehicles and the like, wherein a battery-changing cabinet is also important as a part of the battery-changing cabinet; because the cabinet body contains a plurality of modules such as an electric board, a charger, a bin control board, a battery bin and the like, the layout of the cabinet body has great influence on the assembly and maintenance efficiency.

Most of battery bins, bin control boards and chargers of the existing electric cabinets in the market are all together, the electric boards are arranged at the top of the cabinet body, wiring lines are crossed, separation is not achieved, modular operation is not achieved for installation and maintenance, operation is complex, errors are prone to occur, the chargers are not prone to investigation, the chargers are distributed, corresponding cooling fans are required to be installed independently, cost is high, and a relatively closed environment is not beneficial to rapid heat dissipation of the chargers.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a battery changing cabinet structure with an inserting frame.

The aim of the utility model is achieved by the following technical scheme:

the battery changing cabinet structure with the plug frame comprises a battery changing cabinet shell, wherein a plurality of battery bins are distributed in the battery changing cabinet shell, charging connectors of the battery bins are respectively and electrically connected with a bin control charger module, and the bin control charger module is fixed on the battery cabinet shell; the bin control charger modules are all installed in the plug-in frame module, and the side walls of the bin control charger modules are outwards protruded to form a plurality of radiating fins; wherein, a front-back transparent air duct is formed between the adjacent bin control charger modules.

Further improved, the charging connector of the battery bin is electrically connected with a golden finger connector, the bin control charger module is provided with a golden finger, the golden finger connector is electrically connected with the golden finger in a plugging manner, and the golden finger is positioned at the front end of the bin control charger module.

The battery charger comprises a battery charger module, a battery charger module and a battery charger module, wherein the battery charger module is arranged on the battery charger module, and is characterized in that the battery charger module comprises a front frame shell and a rear frame shell which are transparent, a plurality of limiting guide bars are arranged at the bottom of the inner side of the frame shell, and a battery charger module is inserted between every two adjacent limiting guide bars; the upper part of the outer frame shell is fixedly provided with a transverse partition plate, two sides of the upper part of the bin control charger module are limiting plates fixed at the bottom of the transverse partition plate, and an air channel is arranged above the limiting guide bars.

Further improvement, a plurality of mounting cavities for mounting the rectifying modules are formed between the transverse partition plates and the top plate of the outer frame shell.

Further improved, a main control module is fixed on the side face of the battery changing cabinet shell, the main control module is electrically connected with a rectifying module, and the rectifying module is electrically connected with a bin control charger module through a copper bar.

Further improvement, the radiating fins are arranged parallel to the ground or obliquely upwards relative to the ground.

Further improved, the front end of the plug frame module is covered with a shield, and a plurality of vent holes corresponding to the air channels are formed in the shield.

Further improvement, install a plurality of battery compartment of row in the battery cabinet casing that trades, the frame module of inserting that corresponds is all installed at every battery compartment top of row.

Further improved, the radiating fins are made of radiating aluminum plates.

The utility model has the beneficial effects that:

1) The upper part of the cabinet body is provided with an inserting frame, the inserting frame is provided with a charger, a cabinet control power supply, a main control power supply, a rectifying power supply and other modules, the tail part of each module is a golden finger, and the golden finger connector is used for plugging, so that connection and line inspection are facilitated. The corresponding bin control charger module is provided with an independent insertion channel design, and is limited and guided by limiting up, down, left and right; the back is connected through copper bars and cables; the front part is an output port, and through output, front maintenance operation is carried out, so that operation and maintenance are simpler.

2) The design without fan is adopted, natural heat dissipation is carried out through the self heat dissipation aluminum plate, meanwhile, an air channel is reserved between the modules, and the front air inlet and the back air outlet are realized.

Drawings

The utility model is further illustrated by the accompanying drawings, the content of which does not constitute any limitation of the utility model.

FIG. 1 is a schematic diagram of the front structure of the present utility model;

FIG. 2 is a schematic diagram of a plug-in module;

FIG. 3 is a schematic perspective view of the outer frame;

FIG. 4 is a schematic view of the back structure of a plug-in frame module;

fig. 5 is a schematic diagram of a connection structure between a golden finger and a golden finger connector.

Detailed Description

The utility model will be further described in detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the utility model more apparent.

Example 1

The battery changing cabinet structure with the plug frame shown in fig. 1-5 comprises a battery changing cabinet shell 1, a battery compartment 2, a compartment control charger module 3, radiating fins 31, a plug frame module 4, an outer frame shell 41, a limiting guide bar 42, a transverse partition plate 43, a limiting plate 44, an air duct 5, a golden finger connector 6, a golden finger 7, a rectifying module 8, a ventilation hole 9, a main control module 10, a copper bar 11 and a protective cover 12.

Wherein, a plurality of battery bins are arranged in the battery changing cabinet shell 1, and a corresponding plug-in frame module 4 is arranged at the top of each battery bin.

As shown in fig. 3, the frame insertion module 4 includes a front-back transparent outer frame 41, and a plurality of limiting guide strips 42 parallel to each other and extending along the front-back direction of the frame insertion module 4 are arranged at the bottom of the inner side of the outer frame 41. And a bin control charger module 3 is inserted between the adjacent limit guide strips 42. The upper portion of the outer frame shell 41 is fixed with a transverse partition plate 43, two sides of the upper portion of the bin control charger module 3 are limiting plates 44 fixed at the bottom of the transverse partition plate 43, an air duct 5 is arranged above the limiting guide strips 42, a plurality of radiating fins 31 are formed on the side wall of the bin control charger module 3 in a protruding mode, the radiating fins 31 are located in the air duct, and therefore natural heat dissipation is achieved through the radiating fins 31. The heat radiating fins 31 are made of a heat radiating aluminum plate. A plurality of mounting cavities 45 for mounting the rectifying module 8 are formed between the transverse partition plates 43 and the top plate of the outer frame case 41.

As shown in fig. 4, a main control module 10 is fixed on the side of the plug frame module 4, the main control module 10 is electrically connected with the rectifying module 8, and the rectifying module 8 is electrically connected with the bin control charger module 3 through a copper bar 11.

As shown in fig. 5, the charging connector of the battery compartment 2 is electrically connected with a golden finger connector 6, the compartment control charger module 3 is provided with a golden finger 7, the golden finger connector 6 is electrically connected with the golden finger 7 in a plugging manner, the golden finger 7 is positioned at the front end of the compartment control charger module 3, and then a protecting cover 12 is covered outside the compartment control charger module to protect the connection between the golden finger 7 and the golden finger connector 6. The shield 12 is provided with a plurality of ventilation holes 9 corresponding to the air duct 5.

The heat radiating fins 31 are arranged parallel to the ground in this embodiment. The device can be obliquely upwards arranged relative to the ground, so that hot air flow can conduct heat more efficiently along the oblique direction of the hot air flow, and the defect is that the processing is complex.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (9)

1. The battery changing cabinet structure with the plug frame is characterized by comprising a battery changing cabinet shell (1), wherein a plurality of battery bins (2) are arranged in the battery changing cabinet shell (1), charging connectors of the battery bins (2) are respectively and electrically connected with a bin control charger module (3), and the bin control charger module (3) is fixed on the battery cabinet shell (1); the bin control charger modules (3) are all installed in the plug-in frame modules (4), and a plurality of radiating fins (31) are formed on the side walls of the bin control charger modules (3) in a protruding mode; wherein, a front-back transparent air duct (5) is formed between the adjacent bin control charger modules (3).

2. The battery changing cabinet structure with the plug frame according to claim 1, wherein the charging connector of the battery compartment (2) is electrically connected with a golden finger connector (6), a golden finger (7) is arranged on the compartment control charger module (3), the golden finger connector (6) is electrically connected with the golden finger (7) in a plug-in manner, and the golden finger (7) is positioned at the front end of the compartment control charger module (3).

3. The battery changing cabinet structure with the plug frame according to claim 1, wherein the plug frame module (4) comprises an outer frame shell (41) with a transparent front and back, a plurality of limit guide strips (42) are arranged at the bottom of the inner side of the outer frame shell (41), and a warehouse control charger module (3) is inserted between the adjacent limit guide strips (42); the upper part of the outer frame shell (41) is fixedly provided with a transverse partition plate (43), two sides of the upper part of the bin control charger module (3) are provided with limiting plates (44) fixed at the bottom of the transverse partition plate (43), and an air duct (5) is arranged above the limiting guide bars (42).

4. A cabinet structure with plug-in frame according to claim 3, characterized in that a plurality of mounting cavities (45) for mounting the rectifying module (8) are formed between the transverse partition plate (43) and the top plate of the outer frame casing (41).

5. The battery changing cabinet structure with the plug frame according to claim 4, wherein a main control module (10) is fixed on the side face of the battery changing cabinet shell (1), the main control module (10) is electrically connected with a rectifying module (8), and the rectifying module (8) is electrically connected with a bin-control charger module (3) through a copper bar (11).

6. The power conversion cabinet structure with the plug frame according to claim 1, wherein the heat dissipation fins (31) are arranged parallel to the ground or are arranged obliquely upwards relative to the ground.

7. The battery changing cabinet structure with the plug frame according to claim 1, wherein a shield (12) is arranged at the front end of the plug frame module (4), and a plurality of ventilation holes (9) corresponding to the air duct (5) are formed in the shield (12).

8. The battery changing cabinet structure with the plug frame according to claim 1, wherein a plurality of columns of battery bins (2) are arranged in the battery changing cabinet shell (1), and corresponding plug frame modules (4) are arranged at the tops of the battery bins.

9. The battery changing cabinet structure with the plug-in frame according to any one of claims 1 to 8, wherein the heat dissipation fins (31) are made of heat dissipation aluminum plates.