CN116198362A - Mobile charging device and method for electric automobile - Google Patents

Abstract

The invention relates to a mobile charging device and method for an electric automobile, and belongs to the technical field of charging equipment for electric automobiles. The technical proposal is as follows: a mobile power trolley handle (5) is arranged on one side of the mobile power trolley, and mobile power trolley wheels (4) are arranged at the bottom of the mobile power trolley; the mobile power supply handcart battery pack (3) is fixed on the mobile power supply handcart through the buckle, is equipped with mobile power supply charging pile (6) on the mobile power supply handcart, is equipped with mobile power supply charging rifle (9) on the mobile power supply charging pile (6), and mobile power supply handcart battery pack (3) are connected and are switched on with mobile power supply charging rifle (9) through connecting wire (10), and mobile power supply charging rifle (9) and electric automobile's interface connection that charges. The beneficial effects of the invention are as follows: the movable charging pile adopting the handcart mode can save occupied space and avoid the safety risks of personal electric shock, line fire, high-altitude falling objects, accidental collision and the like.

Description

Mobile charging device and method for electric automobile

Technical Field

The invention relates to a mobile charging device and method for an electric automobile, and belongs to the technical field of charging equipment for electric automobiles.

Background

More and more industries are moving towards two carbon targets, especially the traditional automotive industry. With the continuous progress of energy storage and intelligent science and technology, increasingly-increased new energy electric vehicles are favored by people due to zero emission, no pollution and no limitation, and rapidly walk into the families of ordinary people.

While sales of electric vehicles continuously climb, we also pay attention to the series of problems of insufficient charging parking spaces, weak matched power supply equipment, prominent fire hidden dangers and the like of a large number of old communities because the matched construction problem of future charging vehicles is not considered in the design and construction process of early houses. Even if a newly built district is built, underground parking spaces or garages are arranged, and in consideration of charge load growth planning, hidden dangers such as fire safety and the like still exist on the aspect of stopping private pull flying lines in the standardized charge behavior. In addition, no related charging products are used for making up the technical gap at present, so that most of community parking spaces (garages) are caused to hang charging piles on roofs, or the charging piles are arranged at positions of vehicle tails or two sides, or the charging piles are fixed on walls or upright posts. The whole attractive appearance of the garage is affected, and the more and more outgoing lines are required to be accumulated in the process of introducing a power supply, so that the risks of personal electric shock or short-circuit fire are caused in a long time due to disordered wiring such as hemp. In addition, the charging equipment protruding out of the wall or roof also has to increase the risk probability of falling off or accidental collision with the increase of the years and months, and the loss of personal casualties or equipment is caused.

Based on the above factors, those skilled in the art will develop in the aspects of reasonable use and standard management of electric automobile charging, and seek a solution to provide safe, economical, practical, efficient and attractive charging places for vast new energy owners, so as to meet the ever-increasing energy-saving and environment-friendly travel demands of people to the greatest extent.

Disclosure of Invention

The invention aims to provide a mobile charging device and a mobile charging method for an electric automobile, which adopt a movable charging pile in a handcart mode, can save occupied space, avoid the safety risks of personal electric shock, line fire, high-altitude falling, accidental collision and the like, and solve the problems in the background technology.

The technical scheme of the invention is as follows:

the mobile charging device of the electric automobile comprises a mobile power supply trolley, a mobile power supply trolley battery pack and a mobile power supply charging pile, wherein a mobile power supply trolley handle is arranged on one side of the mobile power supply trolley, and mobile power supply trolley wheels are arranged at the bottom of the mobile power supply trolley; the mobile power supply handcart battery pack is fixed on the mobile power supply handcart through the buckle, is equipped with mobile power supply on the mobile power supply handcart and fills electric pile, is equipped with mobile power supply on the mobile power supply fills electric pile and fills the rifle, and mobile power supply handcart battery pack is connected and is switched on with mobile power supply through connecting wire and fills the rifle, and mobile power supply fills the rifle and electric automobile's interface connection that charges.

The mobile power supply handcart battery pack is charged through a charging and discharging energy station.

The charging and discharging energy stations are arranged in parallel with a plurality of mobile power supply storage drawers, and mobile power supply trolley battery packs are placed in the mobile power supply storage drawers.

The charging and discharging energy station is provided with a lifting device, and the mobile power supply storage drawer is lifted through the lifting device.

The lifting device comprises lifting rails and rollers, the charging and discharging energy stations are arranged in parallel on the lifting rails, and the mobile power supply storage drawer is arranged on the lifting rails in a sliding mode through the rollers.

And power sockets are respectively arranged at two sides of the charging and discharging energy station and are connected with a power supply in a conducting way through a power cable.

The charging and discharging energy station is fixed on the ground foundation through a fastening screw.

The mobile power supply storage drawers are divided into two groups and are arranged side by side at the charging and discharging energy stations to form a clothes closet, and lifting rails are respectively arranged on two sides of each group of mobile power supply storage drawers.

The charging and discharging energy station is provided with a payment system, and the lifting device can be controlled to lift through payment.

The mobile charging method for the electric automobile adopts the charging device and comprises the following steps:

in the off-peak electricity utilization period, the charging and discharging energy station is connected with a power supply in a conducting way through a power socket and a power cable to charge a plurality of mobile power supply handcart battery packs; when an electric automobile owner charges an electric automobile, the electric automobile is firstly parked at an automobile parking space, the automobile head is parked well according to the direction indicated by the landmark in the parking direction, a charging and discharging energy station lifting device is controlled at any time through a payment system according to requirements, and a mobile power supply handcart battery pack is taken in a mobile power supply storage drawer and fixed on a mobile power supply handcart through a buckle; the electric automobile owner pushes the mobile power trolley to a target parking place through the mobile power trolley handle, takes out the mobile power charging gun 9 which is communicated with the battery pack of the mobile power trolley from the mobile power charging pile, inserts a charging interface of the electric automobile and charges the electric automobile; after the charging is finished, the mobile power supply charging gun is pulled out, the mobile power supply trolley is pushed and returned to the charging and discharging energy station, and the used battery pack of the mobile power supply trolley is withdrawn and returned to the mobile power supply storage drawer, so that the normal running of the continuous power supply work of the mobile power supply is ensured.

The beneficial effects of the invention are as follows:

1. the movable charging pile adopting the handcart mode can save occupied space, avoid personal and vehicle accidental injury and realize attractive effect;

2. the matched charging equipment required by the electric automobile is arranged in a centralized way, so that the number of power supply leads is reduced, the equipment investment is saved, and the risks of accidental damage and short-circuit fire are reduced;

3. the power supply equipment required by charging the electric automobile is assembled to form an energy storage station, so that a large-scale energy storage main body can be enlarged;

4. the charging and discharging energy is fully utilized to store energy in the daily valley period, so that the electricity charge expenditure can be saved;

5. the advantage of adjustable load capacity of the charge and discharge energy stations is exerted, and the charge and discharge energy stations actively participate in the electric power energy auxiliary service market in an aggregation mode, so that extra benefits are obtained, and the charge cost is further reduced;

6. the charging and discharging energy station is formed in a cabinet form, so that the occupied space of a power supply can be saved;

7. the charging and discharging energy station is provided with a lifting device, which is beneficial to the convenient access of the mobile power supply.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a schematic diagram of a charging and discharging energy station according to the present invention;

in the figure: the vehicle parking space 1, a driving lane 2, a mobile power supply trolley battery pack 3, mobile power supply trolley wheels 4, mobile power supply trolley handles 5, mobile power supply charging piles 6, parking direction landmarks 7, vehicle driving direction landmarks 8, mobile power supply charging guns 9, connecting wires 10, charging and discharging energy stations 11, lifting rails 12, rollers 13, mobile power supply storage drawers 14, power supply sockets 15, power cables 16 and ground foundations 17.

Description of the embodiments

The invention is further illustrated by the following examples in conjunction with the accompanying drawings.

In this embodiment, referring to fig. 1-3, a mobile charging device for an electric automobile includes a mobile power cart, a mobile power cart battery pack 3 and a mobile power charging pile 6, wherein a mobile power cart handle 5 is disposed on one side of the mobile power cart, and a mobile power cart wheel 4 is disposed at the bottom of the mobile power cart; the mobile power supply handcart battery pack 3 is fixed on the mobile power supply handcart through the buckle, and the mobile power supply handcart battery pack 3 is connected and conducted with the mobile power supply charging gun 9 through the connecting wire 10 to fasten the mobile power supply charging pile 6 on the mobile power supply handcart, the mobile power supply charging gun 9 is connected with the charging interface of the electric automobile.

Preferably, the portable power cart battery pack 3 is charged by the charge and discharge energy station 11.

Preferably, the charging and discharging energy station 11 is provided with a plurality of mobile power supply accommodating drawers 14 in parallel, and the mobile power supply trolley battery pack 3 is placed in the mobile power supply accommodating drawers 14.

Preferably, the charging/discharging energy station 11 is provided with a lifting device, and the mobile power supply storage drawer 14 is lifted by the lifting device.

Preferably, the lifting device comprises lifting rails 12 and rollers 13, the charging and discharging energy station 11 is provided with a plurality of lifting rails 12 in parallel, and the mobile power supply storage drawer 14 is connected with the lifting rails 12 through the rollers 13.

Preferably, the two sides of the charging and discharging energy station 11 are respectively provided with a power socket 15, and the power sockets 15 are in conductive connection with a power supply through a power cable 16.

Preferably, the charging and discharging energy station 11 is fixed on the ground foundation 17 by fastening screws.

Preferably, the plurality of mobile power supply storage drawers 14 are divided into two groups, are arranged side by side at the charging and discharging energy stations 11, are in the form of a vertical cabinet, and are respectively provided with lifting rails 12 at two sides of each group of mobile power supply storage drawers 14.

Preferably, the charging and discharging energy station 11 is provided with a payment system, and the lifting device can be controlled to lift through payment.

The mobile charging method for the electric automobile adopts the charging device and comprises the following steps:

in the daily off-peak electricity utilization period, the charging and discharging energy station 11 is connected with a power supply through a power socket 15 and a power cable 16 to charge a plurality of mobile power supply handcart battery packs 3; meanwhile, the charging and discharging energy station 11 can actively participate in the electric energy auxiliary service market behavior on the premise of signing up with the electric energy auxiliary service aggregator at the moment, so that extra benefits are obtained;

when a certain electric automobile is mainly charged for the electric automobile, firstly, the electric automobile is driven on a driving lane 2 according to a landmark 8 in the driving direction of the automobile, the electric automobile is parked at a special position of an automobile parking space 1, the automobile head is parked well according to the indication direction of the landmark 7 in the parking direction, a lifting device of a charging and discharging energy station 11 is controlled at any time through a payment system according to requirements, a battery pack 3 of a mobile power handcart is taken in a mobile power storage drawer 14 and is fixedly arranged on the mobile power handcart through a buckle, and whether the current charging is economical or not is not considered in the prior art;

the electric automobile owner pushes the portable power source handcart to the target parking stall through portable power source handcart handlebar 5 to will be lower than chassis one end and insert the car bottom. Then, the car owner stands upright the mobile power supply charging pile 6, takes out the mobile power supply charging gun 9 communicated with the mobile power supply handcart battery pack 3, inserts a charging interface of the electric car, and charges the electric car;

after the charging is finished for a plurality of hours, the mobile power supply charging gun 9 is pulled out, the mobile power supply trolley is pushed and returned to the charging and discharging energy station 11, and the used mobile power supply trolley battery pack 3 is withdrawn and returned to the mobile power supply storage drawer 14, so that the normal running of the continuous power supply work of the mobile power supply is ensured.

The invention improves the original fixed charging pile into a movable handcart mode, can save occupied space, avoid personal and vehicle accidental injury, and realize beautiful effect; the matched charging equipment required by the electric automobile is arranged in a centralized way, so that the number of power supply leads is reduced, the equipment investment is saved, and the risks of accidental damage and short-circuit fire are reduced; the power supply equipment required by the automobile charging is collected to form a charging and discharging energy station, so that the large-scale energy storage main body can be enlarged; the charging and discharging energy is fully utilized to store energy in the daily valley period, so that the electricity charge expenditure can be saved; the advantage of adjustable load capacity of the charge and discharge energy stations is exerted, and the charge and discharge energy stations actively participate in the electric power energy auxiliary service market in an aggregation mode, so that extra benefits are obtained, and the charge cost is further reduced; 6. the charging and discharging energy station is formed in a cabinet form, so that the occupied space of a power supply can be saved; the charging and discharging energy station is provided with a lifting access mechanical device, which is beneficial to the convenient access of the mobile power supply.

The invention solves the problems that the old community has no special charging parking space and the newly built community has no matched charging facility to a great extent, thereby standardizing safe charging behavior, being safe, economical, practical, efficient and attractive, and avoiding the occurrence of safety risks such as personal electric shock, line fire, high-altitude falling objects, accidental collision and the like. In addition, the electric charge advantage of the peak Gu Jiacha is utilized to actively participate in the electric power energy auxiliary service market transaction to obtain additional benefits, so that the economic purpose of reducing the energy consumption cost is achieved. Of course, the establishment of a standard charging place can bring optimization to the internal and external environments of the community.

Claims (10)

1. An electric automobile removes charging device, its characterized in that: the mobile power supply trolley comprises a mobile power supply trolley, a mobile power supply trolley battery pack (3) and a mobile power supply charging pile (6), wherein a mobile power supply trolley handle (5) is arranged on one side of the mobile power supply trolley, and mobile power supply trolley wheels (4) are arranged at the bottom of the mobile power supply trolley; the mobile power supply handcart battery pack (3) is fixed on the mobile power supply handcart through the buckle, is equipped with mobile power supply charging pile (6) on the mobile power supply handcart, is equipped with mobile power supply charging rifle (9) on the mobile power supply charging pile (6), and mobile power supply handcart battery pack (3) are connected and are switched on with mobile power supply charging rifle (9) through connecting wire (10), and mobile power supply charging rifle (9) and electric automobile's interface connection that charges.

2. The mobile charging device for an electric vehicle according to claim 1, wherein: the mobile power supply trolley battery pack (3) is charged through a charging and discharging energy station (11).

3. The mobile charging device for an electric vehicle according to claim 2, wherein: the charging and discharging energy station (11) is provided with a plurality of mobile power supply storage drawers (14) in parallel, and mobile power supply trolley battery packs (3) are placed in the mobile power supply storage drawers (14).

4. The mobile charging device for an electric vehicle according to claim 3, wherein: the charging and discharging energy station (11) is provided with a lifting device, and the mobile power supply storage drawer (14) is lifted through the lifting device.

5. The mobile charging device for an electric vehicle of claim 4, wherein: the lifting device comprises lifting rails (12) and rollers (13), the charging and discharging energy stations (11) are arranged in parallel on the lifting rails (12), and the mobile power supply storage drawer (14) is arranged on the lifting rails (12) in a sliding mode through the rollers (13).

6. A mobile charging device for electric vehicles according to claim 2 or 3, characterized in that: and power sockets (15) are respectively arranged at two sides of the charging and discharging energy station (11), and the power sockets (15) are connected with a power supply in a conducting way through power cables (16).

7. The mobile charging device of claim 6, wherein: the charging and discharging energy station (11) is fixed on the ground foundation (17) through fastening screws.

8. The mobile charging device for an electric vehicle of claim 5, wherein: the mobile power supply storage drawers (14) are divided into two groups and are arranged side by side at the charging and discharging energy stations (11) in a vertical cabinet mode, and lifting rails (12) are respectively arranged on two sides of each group of mobile power supply storage drawers (14).

9. The mobile charging device of claim 8, wherein: the charging and discharging energy station (11) is provided with a payment system, and the lifting device can be controlled to lift through payment.

10. A mobile charging method for an electric vehicle, employing the charging device according to any one of claims 1 to 9, comprising the steps of:

in the off-peak electricity utilization period, the charging and discharging energy station (11) is connected with a power supply through a power socket (15) and a power cable (16) in a conducting way to charge a plurality of mobile power supply handcart battery packs (3); when an electric automobile owner charges an electric automobile, the electric automobile is firstly parked at an automobile parking space (1), the automobile head is parked well according to the direction indicated by a parking direction landmark (7), a charging and discharging energy station (11) lifting device is controlled at any time through a payment system according to requirements, and a mobile power supply handcart battery pack (3) is taken in a mobile power supply storage drawer (14) and fixed on a mobile power supply handcart through a buckle; the electric automobile owner pushes the mobile power supply trolley to a target parking place through the mobile power supply trolley handle bar (5), takes out a mobile power supply charging gun (9) which is communicated with the mobile power supply trolley battery pack (3) from the mobile power supply charging pile (6), inserts a charging interface of the electric automobile, and charges the electric automobile; after the charging is finished, the mobile power supply charging gun (9) is pulled out, the mobile power supply trolley is pushed and returned to the charging and discharging energy station (11), the used mobile power supply trolley battery pack (3) is withdrawn and returned to the mobile power supply storage drawer (14), and normal running of continuous power supply work of the mobile power supply is ensured.

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