CN219360905U - Mobile charging vehicle for charging service of upper door of electric vehicle - Google Patents

Abstract

The utility model discloses a mobile charging vehicle for charging service of an upper door of an electric vehicle, which comprises a carrier and a box body for an energy storage module, wherein the carrier is provided with the box body for an electric control module. According to the utility model, when the device is used, the door bodies for disassembling and replacing the single batteries are arranged on the two sides of the box body for the energy storage module, so that convenience of workers in a rear workshop for replacing the single batteries in the box body for the energy storage module in a poor electricity state is improved, subsequent maintenance is facilitated, and the energy transmission port and the signal transmission port which are arranged on the frame and used for being connected with the box body for the electric control module are utilized, and the device is matched with the electrode quick socket which is arranged on the frame and used for quickly connecting the single batteries and the battery cabin which is used for positioning, modularization and positioning of the single batteries, so that each single battery can be disassembled and assembled quickly, and each battery module can be combined and matched randomly, thereby facilitating voltage regulation according to requirements.

Description

Mobile charging vehicle for charging service of upper door of electric vehicle

Technical Field

The utility model relates to the technical field of charging equipment for electric vehicles, in particular to a mobile charging vehicle for charging service of an upper door of an electric vehicle.

Background

Electric vehicles are popular with consumers due to high environmental protection performance, and along with popularization of electric vehicles, people are more and more urgent in convenient electric vehicle charging requirements, but charging equipment for electric vehicles still has some drawbacks when being specifically utilized.

1. The conventional charging equipment for the electric vehicle is often arranged in a fixed place, such as a charging pile, and is not easy to move, and secondly, the battery mechanism of the charging equipment is not easy to realize the rapid conversion from low power to rich power, so that the convenience is poor; 2. the common charging equipment for the electric vehicle has poor heat dissipation effect and is not easy to realize intelligent operation, so that the charging equipment has poor functionality; 3. the battery structure inside the common battery charging equipment for the electric vehicle is difficult to realize quick assembly disassembly, so that each battery module is difficult to flexibly combine and match, and the voltage is difficult to adjust.

Disclosure of Invention

The utility model aims to provide a mobile charging vehicle for charging service of an upper door of an electric vehicle, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a removal charging car of electric motor car upper door service that charges, includes carrier and energy storage module is with the box, install automatically controlled module with the box on the carrier, the energy storage module is with the box install on the carrier of box one end for the automatically controlled module, the inside of energy storage module is evenly fixed with the frame with the box, the intermediate position department of frame is provided with central busbar cabin, the lateral wall evenly distributed of central busbar cabin has airflow circulation channel, the compartment for the energy storage module is all evenly installed to the inside of frame both sides, evenly distributed has battery compartment on the compartment for the energy storage module, just evenly be provided with on the compartment for the energy storage module with battery compartment assorted horizontal baffle and perpendicular baffle, battery compartment's internally mounted has the battery cell, the both ends of central busbar cabin all evenly are provided with battery cell assorted energy transmission mouth and signal transmission mouth, the both sides of central busbar cabin all evenly are provided with the electrode swift socket with battery cell assorted.

Preferably, the carrier is a flat wagon, a disassembly and assembly structure is formed between the box body for the electric control module and the box body for the energy storage module and the carrier, and the carrier is provided with a PLC controller, so that the performance of the device is optimized.

Preferably, the rectifier, the transformer, the frequency converter, the pricing module, the storage battery monitoring module and the central processing module are arranged in the box body for the electric control module, so that the functions of intelligent power supply and pricing are realized.

Preferably, the assembly seats are welded on two sides of the bottom of the electric control module box body, the assembly seats and the carrier are connected in a clamping manner, and screws are connected between the assembly seats and the carrier, so that the electric control module box body can be conveniently disassembled, assembled and maintained.

Preferably, a reserved cover plate is arranged on one side of the electronic control module box body through screws, so that a user can maintain the electronic module inside the electronic control module box body conveniently.

Preferably, both sides of the box body for the energy storage module are uniformly and movably connected with a door body matched with the compartment for the energy storage module, and a lock catch is arranged between the door body and the box body for the energy storage module, so that the door body and the box body for the energy storage module are convenient for subsequent maintenance.

Preferably, the bottom of the tank body for the energy storage module is uniformly fixed with an assembly slide bar, and the carrier is uniformly provided with an assembly slide groove matched with the assembly slide bar, so that the structure of the device is optimized.

Preferably, the air flow circulation channel is communicated with the inside of the central busbar cabin, and a filter screen is arranged on the air flow circulation channel, so that the heat dissipation effect is improved.

Preferably, the electromagnetic lock is installed to the inside bottom of assembly spout, the bottom of assembly draw runner is inlayed and is had the adsorption block that matches with electromagnetic lock for the carrier has saved charge time, is convenient for utilize in succession.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The movable charging vehicle for the charging service of the upper door of the electric vehicle is provided with the assembly slide bar, the assembly slide groove and the like, so that the device optimizes the performance of the device, on one hand, a user can utilize a sliding positioning connection structure between the assembly slide bar and the assembly slide groove to cooperate with the functions of electrified adsorption fixation and outage separation between the electromagnetic lock and the adsorption block, and the electric control module box body is quickly detached and replaced, so that the user can quickly detach the electric control module box body in a poor electric state at a loading and unloading dock, replace the electric control module box body in a rich electric state, and collect the electric control module box body in the poor electric state into a rear trolley for charging treatment, the charging time is saved, on the other hand, the device is convenient to move at will, the flexibility is improved, and the device can be integrated into a large number of single batteries in a modularized manner by arranging the electric energy storage module box body with battery cabins uniformly distributed in the rack, so that the device is convenient to detach and maintain the single batteries, and the device is greatly improved in storage practicability;

(2) The mobile charging vehicle for the electric vehicle upper door charging service has the advantages that the vehicle, the electric control module box body and the like are installed, so that the structure of the mobile charging vehicle is optimized, on one hand, a reserved cover plate installed on the electric control module box body through screws is utilized, a user can conveniently maintain an electronic module in the electric control module box body, on the other hand, the electric control module box body with a rectifier, a transformer, a frequency converter, a charging module, a storage battery monitoring module and a central processing module is installed on the vehicle, the electric control mechanism is utilized, the intelligent power supply and charging function is realized, the intelligent charging operation is optimized, the electric vehicle upper door charging service is optimized, and an air flow circulation channel with a filter screen is uniformly arranged on the central bus cabin, so that the energy storage module box body has a good heat dissipation effect on a single battery, and potential safety hazards caused by heat accumulation are avoided;

(3) The movable charging vehicle for the charging service of the upper door of the electric vehicle is provided with the electrode quick socket, the single battery and the like, so that when the device is actually operated, on one hand, the door bodies for disassembling and replacing the single battery are arranged on the two sides of the box body for the energy storage module, the convenience of a rear trolley workshop worker for replacing the single battery inside the box body for the energy storage module in a poor electric state is improved, the follow-up maintenance is facilitated, on the other hand, the energy transmission port and the signal transmission port which are arranged on the frame and used for being connected with the box body for the electric control module are utilized, and the electrode quick socket which is arranged on the frame and used for positioning and modularization of the single battery are matched, so that each single battery can be disassembled and assembled quickly, and each battery module can be combined and matched randomly, and the voltage is convenient to adjust according to needs.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic view showing a partial sectional structure of an opened state of a case for an energy storage module according to the present utility model;

FIG. 3 is a schematic perspective view of a frame according to the present utility model;

FIG. 4 is a schematic diagram of a compartment for an energy storage module according to the present utility model;

fig. 5 is an enlarged schematic view of the structure of fig. 2 a according to the present utility model.

In the figure: 1. a carrier; 2. a box body for an electric control module; 201. an assembly seat; 3. the energy storage module is provided with a box body; 4. a door body; 5. a frame; 6. a single battery; 7. the energy storage module is provided with a compartment; 701. an electrode quick socket; 8. an energy transmission port; 9. a central bus bay; 10. a signal transmission port; 11. an air flow circulation channel; 12. a horizontal partition; 13. a battery compartment; 14. a vertical partition; 15. assembling a slide bar; 16. assembling a chute; 17. an electromagnetic lock.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, an embodiment of the present utility model is provided: the mobile charging vehicle comprises a carrier 1 and an energy storage module box body 3, wherein the carrier 1 is provided with an electric control module box body 2, and the energy storage module box body 3 is arranged on the carrier 1 at one end of the electric control module box body 2;

a frame 5 is uniformly fixed in the tank body 3 for the energy storage module, a central busbar cabin 9 is arranged in the middle of the frame 5, and air flow circulation channels 11 are uniformly distributed on the outer side wall of the central busbar cabin 9;

the two sides of the frame 5 are internally and uniformly provided with a compartment 7 for the energy storage module, battery compartments 13 are uniformly distributed on the compartment 7 for the energy storage module, the compartment 7 for the energy storage module is uniformly provided with a horizontal partition plate 12 and a vertical partition plate 14 which are matched with the battery compartments 13, and the inside of the battery compartments 13 is provided with single batteries 6;

both ends of the central bus bar cabin 9 are uniformly provided with an energy transmission port 8 and a signal transmission port 10 which are matched with the single battery 6, and both sides of the central bus bar cabin 9 are uniformly provided with an electrode shortcut socket 701 which is matched with the single battery 6;

the carrier 1 is a flat wagon, a disassembly and installation structure is formed between the electric control module box body 2 and the energy storage module box body 3 and the carrier 1, and a PLC controller is installed on the carrier 1; so that the performance of the device is optimized;

the electronic control module is characterized in that a rectifier, a transformer, a frequency converter, a pricing module, a storage battery monitoring module and a central processing module are arranged in the box body 2 for the electronic control module; the intelligent power supply and pricing function are realized by utilizing the electric control mechanism;

the two sides of the bottom of the box body 2 for the electronic control module are welded with assembly seats 201, the assembly seats 201 and the carrier 1 form clamping connection, and screws are connected between the assembly seats 201 and the carrier 1;

when in use, a user can realize the disassembly, assembly and maintenance of the electric control module by using the clamping connection function between the assembly seat 201 and the carrier 1 and the locking and fixing function of the screw;

a reserved cover plate is arranged on one side of the box body 2 for the electronic control module through screws;

when the electronic control module is used, the reserved cover plate arranged on the electronic control module box body 2 through the screws is utilized, so that a user can conveniently maintain the electronic module in the electronic control module box body 2;

both sides of the box body 3 for the energy storage module are uniformly and movably connected with a door body 4 matched with the compartment 7 for the energy storage module, and a lock catch is arranged between the door body 4 and the box body 3 for the energy storage module;

when the energy storage module box is used, the door bodies 4 for disassembling and replacing the single batteries 6 are arranged on two sides of the energy storage module box body 3, so that convenience of a rear workshop worker in replacing the single batteries 6 in the poor-electricity energy storage module box body 3 is improved, and subsequent maintenance is facilitated;

the bottom of the tank body 3 for the energy storage module is uniformly fixed with an assembling slide bar 15, and the carrier 1 is uniformly provided with an assembling chute 16 matched with the assembling slide bar 15; so that the structure of the device is optimized;

an electromagnetic lock 17 is arranged at the bottom end inside the assembly sliding chute 16, and an adsorption block matched with the electromagnetic lock 17 is embedded at the bottom of the assembly sliding bar 15;

when the electric control module box body 2 is used, a user can quickly detach and replace the electric control module box body 2 in a lean electric state at a loading and unloading dock by utilizing the sliding positioning connection structure between the assembly slide bar 15 and the assembly slide groove 16 and matching the electrifying adsorption fixing and outage separation effects between the electromagnetic lock 17 and the adsorption block, so that the electric control module box body 2 in a rich electric state is convenient to detach and replace in a loading and unloading dock, and the electric control module box body 2 in a lean electric state is concentrated and recovered in a rear trolley for charging treatment, so that the charging time of the carrier 1 is saved, and the continuous utilization is convenient;

the air flow circulation channel 11 is communicated with the interior of the central busbar cabin 9, and a filter screen is arranged on the air flow circulation channel 11;

when the energy storage module is used, the central busbar cabin 9 is arranged on the frame 5, and the airflow circulation channels 11 with the filter screens are uniformly arranged on the central busbar cabin 9, so that the energy storage module can achieve a good heat dissipation effect on the single battery 6 through the box body 3, potential safety hazards caused by heat accumulation at one place are avoided, and the dustproof performance of the heat dissipation mechanism is optimized through the filter screens.

When the embodiment of the application is used, the following steps are adopted: the vehicle 1 is utilized, the device is convenient to move at will, flexibility is improved, and the electric control mechanism is utilized to realize the functions of intelligent power supply and pricing by installing the electric control module box body 2 with the rectifier, the transformer, the frequency converter, the pricing module, the storage battery monitoring module and the central processing module on the vehicle 1, the intelligent pricing operation is optimized, the charging service of the upper door of the electric vehicle is further realized, and secondly, the energy storage module box body 3 with the battery cabins 13 uniformly distributed is arranged on the frame 5 is arranged in the energy storage module box body 3, so that the device can modularly integrate a large number of single batteries 6, thereby not only facilitating the disassembly, assembly and maintenance of the single batteries 6, but also storing a large amount of electric energy for the device, enhancing practicability and simultaneously, the user can utilize the sliding positioning connection structure between the assembling slide bar 15 and the assembling slide groove 16 to match the electrifying adsorption fixing and outage separation function between the electromagnetic lock 17 and the adsorption block to rapidly detach and replace the electric control module box body 2, thereby facilitating the rapid detachment of the electric control module box body 2 in a poor electric state at a loading and unloading dock and the replacement of the electric control module box body 2 in a rich electric state, the electric control module box body 2 in the poor electric state is intensively recovered to a rear trolley for charging treatment, so that the charging time of the carrier 1 is saved, the continuous utilization is facilitated, and in addition, on one hand, the door body 4 for detaching and replacing the single battery 6 is arranged at both sides of the energy storage module box body 3, the convenience of workers in the rear trolley for replacing the single battery 6 in the electric storage module box body 3 in the poor electric state is improved, the subsequent maintenance is facilitated, on the other hand, the energy transmission port 8 and the signal transmission port 10 which are arranged on the frame 5 and used for being connected with the box body 2 for the electric control module are utilized, the electrode quick socket 701 which is arranged on the frame 5 and used for being quickly connected with the single battery 6 is matched with the battery cabin 13 which is used for being positioned and modularized and positioned for the single battery 6, so that each single battery 6 can be quickly and independently disassembled and assembled, each battery module can be combined and matched with each other to be used at will, voltage can be conveniently adjusted as required, on the one hand, the central busbar cabin 9 is arranged on the frame 5, and the air flow circulation channel 11 with the filter screen is uniformly arranged on the central busbar cabin 9, so that the energy storage module box 3 realizes better heat dissipation effect on the single battery 6, potential safety hazards caused by heat accumulation are avoided, and the filter screen is utilized for optimizing the dustproof performance of a heat dissipation mechanism, and on the other hand, a reserved cover plate which is arranged on the box body 2 for the electric control module through screws is utilized, and the electronic module inside the box body 2 for the electric control module is convenient for a user to maintain.

Claims (9)

1. The utility model provides a mobile charging vehicle for charging service of an electric vehicle upper door, which is characterized by comprising a carrier (1) and an energy storage module box body (3), wherein the carrier (1) is provided with an electric control module box body (2), the energy storage module box body (3) is arranged on the carrier (1) at one end of the electric control module box body (2), a rack (5) is uniformly fixed in the energy storage module box body (3), a central busbar cabin (9) is arranged at the middle position of the rack (5), airflow circulation channels (11) are uniformly distributed on the outer side wall of the central busbar cabin (9), a compartment (7) for the energy storage module is uniformly arranged in the inner part of two sides of the rack (5), a battery cabin (13) is uniformly distributed on the energy storage module compartment (7), a horizontal partition (12) and a vertical partition (14) which are matched with the battery cabin (13) are uniformly arranged on the energy storage module compartment (7), a single battery (6) is uniformly arranged in the battery (13), signal transmission ports (10) are uniformly arranged at the two ends of the single battery cabin (6), both sides of the central busbar cabin (9) are uniformly provided with electrode shortcut sockets (701) matched with the single batteries (6).

2. The mobile charging vehicle for an electric vehicle door-to-door charging service of claim 1, wherein: the vehicle (1) is a flat wagon, a disassembly and assembly structure is formed between the box body (2) for the electric control module and the box body (3) for the energy storage module and the vehicle (1), and a PLC controller is arranged on the vehicle (1).

3. The mobile charging vehicle for an electric vehicle door-to-door charging service of claim 1, wherein: the electronic control module is characterized in that a rectifier, a transformer, a frequency converter, a pricing module, a storage battery monitoring module and a central processing module are arranged in the electronic control module box body (2).

4. The mobile charging vehicle for an electric vehicle door-to-door charging service of claim 1, wherein: the electric control module is characterized in that assembling seats (201) are welded on two sides of the bottom of the electric control module box body (2), the assembling seats (201) are connected with the carrier (1) in a clamping mode, and screws are connected between the assembling seats (201) and the carrier (1).

5. The mobile charging vehicle for an electric vehicle door-to-door charging service of claim 1, wherein: one side of the box body (2) for the electric control module is provided with a reserved cover plate through screws.

6. The mobile charging vehicle for an electric vehicle door-to-door charging service of claim 1, wherein: both sides of the box body (3) for the energy storage module are uniformly and movably connected with a door body (4) matched with the compartment (7) for the energy storage module, and a lock catch is arranged between the door body (4) and the box body (3) for the energy storage module.

7. The mobile charging vehicle for an electric vehicle door-to-door charging service of claim 1, wherein: the bottom of the tank body (3) for the energy storage module is uniformly fixed with an assembling slide bar (15), and the carrier (1) is uniformly provided with an assembling chute (16) matched with the assembling slide bar (15).

8. The mobile charging vehicle for an electric vehicle door-to-door charging service of claim 1, wherein: the air flow circulation channel (11) is communicated with the inside of the central busbar cabin (9), and a filter screen is arranged on the air flow circulation channel (11).

9. The mobile charging vehicle for electric vehicle door-to-door charging service of claim 7, wherein: electromagnetic lock (17) are installed to the inside bottom of assembly spout (16), the bottom of assembly draw runner (15) is inlayed and is had the adsorption block with electromagnetic lock (17) assorted.