CN116653691A - New energy automobile trades electric installation - Google Patents

Abstract

The application relates to the technical field of new energy automobile battery equipment, in particular to a new energy automobile battery exchange device, wherein a parking space is marked on the ground, an underground space is cut below the parking space, a charging device, a taking and placing device and a ventilation device are arranged in the underground space, after the new energy automobile is parked on the parking space, the taking and placing device takes down a battery pack on a chassis of the new energy automobile and sends the battery pack into the charging device, and then the battery pack which is fully charged in the charging device is arranged on the chassis of the new energy automobile. The beneficial effects of the application are as follows: the device does not occupy extra ground space, can be used for underground excavation reconstruction in the existing parking lot, and each independent charging bin can be independently used for sealing and blocking air to prevent fire spreading when a fire disaster occurs, so that fire loss can be reduced to the minimum extent. The battery pack capacity of the underground space is far greater than the number of the replaceable battery packs of the ground power exchange station, so that the power exchange times can be greatly improved, and the power exchange service efficiency is improved.

Description

New energy automobile trades electric installation

Technical Field

The application relates to the technical field of new energy automobile battery equipment, in particular to a new energy automobile power conversion device.

Background

At present, the problem of slower charging time of the new energy automobile is an important reason for restricting the development of the new energy automobile, and the problem of continuous voyage anxiety of the new energy automobile can be relieved by adopting a power conversion mode for part of automobile enterprises. However, the existing quick power change has the following problems.

The existing point-changing equipment generally builds a point-changing station above the ground, occupies a ground space, and has the advantages of less storage batteries in the point-changing station, less times of completing the power changing every day and lower service capacity. In addition, the conventional fire-fighting equipment is generally adopted in the point-changing station, so that the fire-fighting equipment has insufficient fire-fighting capacity for the battery packs, and other battery packs in the point-changing station are easily damaged in a continuous manner during fire extinguishment.

Therefore, the application designs a new energy automobile power conversion device to solve the problems.

Disclosure of Invention

The application provides a new energy automobile power conversion device for overcoming the defects in the prior art.

The application is realized by the following technical scheme:

the utility model provides a new energy automobile trades electric installation, includes ground, its characterized in that:

the novel energy automobile comprises a chassis, a charging device, a taking and placing device and a ventilation device, wherein a parking space is arranged on the ground, an underground space is cut below the parking space, the charging device, the taking and placing device and the ventilation device are arranged in the underground space, when a novel energy automobile is parked on the parking space, the taking and placing device takes down a battery pack on the chassis of the novel energy automobile and sends the battery pack to the charging device, and then the fully charged battery pack in the charging device is arranged on the chassis of the novel energy automobile.

Further, in order to better realize the application, the movable top door is arranged in the parking space and is connected in the top door sliding groove in a sliding way, and when the top door enters the top door sliding groove, the taking and placing device can extend to the upper part of the ground to take and place the battery pack.

Further, in order to better realize the application, the charging device is arranged around the taking and placing device and comprises a vertical fireproof door guide rail, the fireproof door guide rail is movably connected with a liftable fireproof door, one side of the fireproof door guide rail is provided with a plurality of parallel charging bins, each charging bin is of a rectangular box body structure with an open side, the open end of each charging bin is attached to the fireproof door guide rail, and all the charging bins are communicated with a ventilation device.

Further, in order to better realize the application, the bottom in the charging bin is provided with a conveyor belt, two side walls in the charging bin are provided with telescopic clamping rods, and telescopic cushion blocks are arranged on the telescopic clamping rods, so that the telescopic clamping rods can clamp a battery pack to be placed on a taking and placing device or sent into the charging bin.

Further, in order to better implement the application, the ventilation device comprises ventilation branch pipes connected to each charging bin, each ventilation branch pipe is provided with an electric control valve, all ventilation branch pipes are communicated with a ventilation main pipe, a fan is arranged in the ventilation main pipe, and an air outlet of the fan extends out to the ground.

Further, in order to better realize the application, the picking and placing device comprises a lifting rod arranged in the center of a lower space, the top of the lifting rod is fixedly connected with a pressing plate, a plurality of dismounting holes are formed in the pressing plate at positions corresponding to the screw holes of the battery pack, a lifting basket is connected below the dismounting holes, an electric screwdriver is arranged in the lifting basket, and along with the lifting of the lifting basket, the screwdriver head of the electric screwdriver can extend out of the dismounting holes.

The beneficial effects of the application are as follows:

the device does not occupy extra ground space, can be used for underground excavation reconstruction in the existing parking lot, and each independent charging bin can be independently used for sealing and blocking air to prevent fire spreading when a fire disaster occurs, so that fire loss can be reduced to the minimum extent. The battery pack capacity of the underground space is far greater than the number of the replaceable battery packs of the ground power exchange station, so that the power exchange times can be greatly improved, and the power exchange service efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic perspective view of an installation site of an underground structure according to the present application;

FIG. 3 is a schematic perspective view of an underground structure of the present application;

FIG. 4 is a schematic perspective view of the underground structure of the present application when the cell bag is taken;

fig. 5 is a schematic perspective view of a charging device according to the present application;

fig. 6 is a schematic perspective view of a pick-and-place device according to the present application.

In the drawing the view of the figure,

1. ground, 2, charging device, 3, get put the device, 4, ventilation unit, 5, battery package, 101, parking stall, 102, top door, 103, top door spout, 201, prevent fire door guide rail, 202, prevent fire door, 203, charge storehouse, 204, flexible clamping lever, 205, flexible cushion, 301, lifter, 302, pressing plate, 303, dismantlement hole, 304, lifting basket, 305, electric screwdriver, 401, ventilation branch pipe, 402, automatically controlled valve, 403, ventilation house steward.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. The components of the embodiments of the present application generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the application, as presented in the figures, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present application.

Fig. 1 to fig. 6 show a new energy automobile power exchanging device according to an embodiment of the present application, as shown in fig. 1 and fig. 2, a parking space 101 is marked on the ground 1, an underground space is cut below the parking space 101, a charging device 2, a picking and placing device 3 and a ventilation device 4 are installed in the underground space, after the new energy automobile is parked on the parking space 101, the picking and placing device 3 takes down a battery pack on a chassis of the new energy automobile and sends the battery pack into the charging device 2, and then the battery pack fully charged in the charging device 2 is installed on the chassis of the new energy automobile. The parking space 101 is provided with a movable top door 102, the top door 102 is slidably connected in a top door sliding groove 103, and when the top door 102 enters the top door sliding groove 103, the taking and placing device 3 can extend above the ground to take and place the battery pack 5.

As shown in fig. 3 and 4, the charging device 2 is arranged around the underground space around the picking and placing device 3, and comprises a vertical fireproof door guide rail 201, a liftable fireproof door 202 is movably connected to the fireproof door guide rail 201, a plurality of parallel charging bins 203 are arranged on one side of the fireproof door guide rail 201, the charging bins 203 are rectangular box structures with side ends open, the open ends of the charging bins 203 are attached to the fireproof door guide rail 201, and all the charging bins 203 are communicated with a ventilation device 4. The ventilation device 4 comprises ventilation branch pipes 401 connected to each charging bin 203, each ventilation branch pipe 401 is provided with an electric control valve 402, all ventilation branch pipes 401 are communicated with a ventilation main pipe 403, a fan is arranged in the ventilation main pipe 403, and an air outlet of the fan extends out to the ground 1.

As shown in fig. 5, a conveyor belt is disposed at the bottom of the charging bin 203, the conveyor belt is used for assisting in the in and out of the battery pack 5, two side walls in the charging bin 203 are provided with telescopic clamping rods 204, and telescopic cushion blocks 205 are disposed on the telescopic clamping rods 204, so that the telescopic clamping rods 204 can clamp the battery pack 5 to be placed on the picking and placing device 3 or sent into the charging bin 203.

As shown in fig. 6, the picking and placing device 3 includes a lifting rod 301 disposed in the center of the lower space, a pressing plate 302 is fixedly connected to the top of the lifting rod 301, a plurality of dismounting holes 303 are disposed on the pressing plate 302 and correspond to the positions of the battery pack screw holes, a lifting basket 304 is connected below the dismounting holes 303, an electric screwdriver 305 is mounted in the lifting basket 304, and along with lifting of the lifting basket 304, a screwdriver head of the electric screwdriver 305 can extend out of the dismounting holes 303. The unscrewed screw is temporarily stored in the detaching hole 303 as the lifting basket 304 descends, and the placement of the new battery pack 5 on the pressing plate 302 is not affected.

The specific usage mode of this embodiment is as follows:

after a new energy automobile is parked at the parking space 101, the top door 102 is opened, the lifting rod 301 is extended, the pressing plate 302 is abutted against the bottom surface of the battery pack 5 of the automobile chassis, then the lifting basket 304 is lifted, the electric screwdriver 305 is matched to unscrew the screw of the battery pack 5, then the lifting basket 304 is lowered, the screw is temporarily stored in the dismounting hole 303, the lifting rod 301 is lowered to the position of the flush free charging bin 203, the telescopic clamping rods 204 in the free charging bin 203 extend to two sides of the battery pack 5, the telescopic clamping rods 204 retract after the telescopic cushion block 205 extends to clamp the battery pack 5, and the battery pack 5 is fed into the charging bin 203 to be charged by matching with the transmission belt.

Then the battery pack is clamped and placed on the pressing plate 302 by the telescopic clamping rod in the charging bin of the battery pack 5 which is fully charged, the lifting rod 301 is lifted to send the battery pack 5 to the battery installation position of the automobile chassis, and the original screw is screwed on the new battery pack 5 and the automobile chassis through the lifting basket 304 and the electric screwdriver 305.

When charging, the electric control valve 402 and the fireproof door 202 are in an opened state, the charging bin 203 is prevented from being overheated, when a battery pack in one of the charging bins 203 is on fire, the fireproof door 202 ascends to block the open ends of all the charging bins 203, and the electric control valve 402 of the charging bin 203 at the fire place is closed to isolate air for fire extinguishment.

Finally, it is noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present application, and that other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present application without departing from the spirit and scope of the technical solution of the present application.

Claims (6)

1. The utility model provides a new energy automobile trades electric installation, includes ground (1), its characterized in that:

the novel energy automobile parking system is characterized in that a parking space (101) is formed in the ground (1), an underground space is formed in the lower portion of the parking space (101), a charging device (2), a taking and placing device (3) and a ventilation device (4) are arranged in the underground space, after the novel energy automobile is parked on the parking space (101), the taking and placing device (3) takes down a battery pack on a chassis of the novel energy automobile and sends the battery pack to the charging device (2), and then the battery pack which is fully charged in the charging device (2) is arranged on the chassis of the novel energy automobile.

2. The new energy automobile power conversion device according to claim 1, wherein:

the parking space (101) is internally provided with a movable top door (102), the top door (102) is slidably connected in a top door sliding groove (103), and when the top door (102) enters the top door sliding groove (103), the taking and placing device (3) can extend out to the upper part of the ground to take and place the battery pack (5).

3. The new energy automobile power conversion device according to claim 1, wherein:

charging device (2) are settled around getting around putting device (3) in underground space, including fire door guide rail (201) of erectting, swing joint has fire door (202) of liftable on fire door guide rail (201), is provided with a plurality of storehouse (203) that charge side by side in one side of fire door guide rail (201), and storehouse (203) that charge is side open-ended rectangle box structure, and its open end is pasted and is prevented fire door guide rail (201), and all storehouse (203) that charge all communicate and have ventilation unit (4).

4. The new energy automobile power conversion device according to claim 3, wherein:

the charging bin is characterized in that a conveyor belt is arranged at the inner bottom of the charging bin (203), telescopic clamping rods (204) are arranged on two side walls in the charging bin (203), and telescopic cushion blocks (205) are arranged on the telescopic clamping rods (204), so that the telescopic clamping rods (204) can clamp battery packs (5) to be placed on the taking and placing device (3) or sent into the charging bin (203).

5. The new energy automobile power conversion device according to claim 3, wherein:

the ventilation device (4) comprises ventilation branch pipes (401) connected to each charging bin (203), each ventilation branch pipe (401) is provided with an electric control valve (402), all ventilation branch pipes (401) are communicated with a ventilation main pipe (403), a fan is arranged in the ventilation main pipe (403), and an air outlet of the fan extends out of the ground (1).

6. The new energy automobile power conversion device according to claim 1, wherein:

get put device (3) including setting up lifter (301) at low space central authorities, the top fixedly connected with push down board (302) of lifter (301), the position that corresponds battery package screw hole on push down board (302) is provided with a plurality of dismantlement holes (303), the below of dismantlement hole (303) is connected with lift basket (304), installs electric screwdriver (305) in lift basket (304), along with the lift of lift basket (304), the screwdriver head of electric screwdriver (305) can stretch out in dismantling hole (303).