CN116176321B - Multifunctional charging vehicle - Google Patents

Abstract

The invention provides a multifunctional charging vehicle, in particular to the technical field of charging and changing of electric vehicles, which comprises a vehicle body and a connecting assembly connected with the vehicle body, wherein the vehicle body comprises a protective box, an electric cabinet arranged in the protective box, an energy-carrying battery charging and power distribution system arranged in the electric cabinet, a lifting adjusting structure connected with the top end of the electric cabinet, a telescopic adjusting structure connected with the outer side of the electric cabinet, and a heat dissipation structure arranged on the outer side of the protective box, and universal wheels are arranged at the bottom end of the protective box. The lifting adjusting structure comprises a lower fixing block arranged at the top end of the electrical cabinet, a lifting rope with one end connected with the lower fixing block, an upper fixing block connected with the other end of the lifting rope, a lifting plate horizontally arranged, and an unmanned aerial vehicle connected with the upper end face of the lifting plate. The multifunctional charging vehicle provided by the invention can protect the carrier in the electrical cabinet, is beneficial to traveling on a rugged road, and is beneficial to enhancing the technical effect of heat dissipation.

Description

Multifunctional charging vehicle

Technical Field

The invention belongs to the technical field of charging and changing of electric automobiles, and particularly relates to a multifunctional charging vehicle.

Background

At present, pure electric vehicles and plug-in hybrid electric vehicles are being rapidly industrialized, so that upright charging piles and wall-mounted charging devices are popularized, and only the fixed-point charging requirements of vehicles can be met due to the position fixation of the upright charging piles and the wall-mounted charging devices. In real life, it often happens that an electric vehicle runs on the way, because it does not reach a charging station and the electric energy stored in a power battery is exhausted, and it cannot continue running. If the electric energy is exhausted before reaching the charging station, the electric vehicle is generally towed to the charging station by the help of the trailer, which is high in cost and inconvenient, and the electric vehicle can be damaged in the towing process.

The technical problem can be effectively solved by the existing charging vehicle, and the emergency charging of the electric vehicle without electric power is realized by arranging a large number of charging batteries in the vehicle body and configuring a power distribution system and a charging gun to form a movable charging power distribution system for the charging batteries. However, the existing electrical cabinet in the charging vehicle is generally and directly fixedly connected with the charging vehicle, so that the anti-seismic performance is poor, carriers in the electrical cabinet cannot be effectively protected, accidents such as structural damage and internal circuit looseness in the electrical cabinet are easily caused when the vehicle runs on a rugged road surface, and therefore the electrical cabinet cannot work normally, and the electric vehicle cannot be charged, so that the service efficiency is reduced.

Therefore, the technical problem of how to enable the charging vehicle to realize instant use of charging is solved, and the problem that people delay too much time is avoided.

Disclosure of Invention

The invention aims to provide a multifunctional charging vehicle, which solves the technical problem of how to protect a carrier in an electrical cabinet, is beneficial to traveling on a rugged road and is beneficial to enhancing the technical effect of heat dissipation.

The utility model provides a multi-functional charging car, includes the car body, with the coupling assembling of car body coupling, the car body includes the protective housing, sets up regulator cubicle in the protective housing, set up carry the energy battery charging distribution system in the regulator cubicle, with the lift adjustment structure that regulator cubicle top is connected, with the flexible adjustment structure that the regulator cubicle outside is connected, set up the heat radiation structure in the protective housing outside, the bottom of protective housing is provided with the universal wheel.

The lifting adjusting structure comprises a lower fixed block arranged at the top end of the electrical cabinet, a lifting rope with one end connected with the lower fixed block, an upper fixed block connected with the other end of the lifting rope, a lifting plate horizontally arranged and an unmanned aerial vehicle connected with the upper end face of the lifting plate, wherein the upper fixed block is connected with the lower end face of the lifting plate;

the lifting plate is sealed at the position of the upper end opening of the protective box.

Guide posts are vertically arranged at four corners of the lifting plate respectively, and the guide posts are slidably arranged at the corner end parts of the protective box.

The corner end part of the protective box is provided with a guide hole, and the guide pillar can be arranged in the guide hole in an up-and-down sliding way.

The telescopic adjusting structure comprises a fastening rope, a telescopic column, a fixed cylinder and an air pump, wherein one end of the fastening rope is connected with the outer side of the upper end of the electric cabinet, the other end of the telescopic column is connected with the other end of the fastening rope, the one end of the fixed cylinder is connected with the telescopic column, the air pump is connected with the other end of the fixed cylinder, and the telescopic column is horizontally and slidably arranged in the fixed cylinder;

the fastening ropes are arranged on the outer side surfaces of the electric cabinet respectively;

the fixed cylinders are arranged on four sides of the protective box respectively.

The outside of regulator cubicle is vertical to be provided with the limiting plate, the outside of limiting plate is provided with the open slot, the one end activity of flexible post is supported and is in the open slot.

The heat dissipation structure comprises ventilation hoods arranged on two sides of the protection box respectively, an upper ventilation pipe arranged at the upper end part of the ventilation hood, and a lower ventilation pipe arranged at the lower end part of the ventilation hood, wherein the upper ventilation pipe and the lower ventilation pipe extend into the protection box respectively;

the upper vent pipe and the lower vent pipe are arranged close to the lower end part of the electrical cabinet.

The solar energy protection device is characterized in that openings are formed in two sides of the protection box respectively, solar energy plates are vertically arranged on two sides of the lifting plate respectively, the solar energy plates are respectively blocked at the opening positions, and the solar energy plates are connected with the unmanned aerial vehicle.

The connecting assembly comprises fixing rods, rotating rods, positioning plates and a plurality of vacuum suckers, wherein one ends of the fixing rods are respectively and vertically connected with two sides of the protective box, one ends of the rotating rods are hinged with the other ends of the fixing rods, the positioning plates are arranged between the other ends of the two rotating rods, and the vacuum suckers are arranged on the positioning plates.

The rotating rod is provided with flexible cloth, one end of the flexible cloth is connected with the two rotating rods, and the other end of the flexible cloth is provided with hooks.

The outside of regulator cubicle is provided with the opening to with the inside intercommunication of protective housing.

The invention achieves the following remarkable effects:

(1) The lifting adjusting structure is arranged in the scheme, and has the following technical effects:

under the action of an unmanned aerial vehicle, the lifting plate is driven to lift, and the lifting rope drives the electric cabinet to lift, so that the bottom end of the electric cabinet is separated from the bottom end of the protective box, and the electric cabinet is in a suspended state and is not contacted with an external object;

secondly, the lifting plate also has the function of acting as a top cover of the protective box;

the solar panels are respectively arranged on the two sides of the lifting plate, so that the unmanned aerial vehicle can be powered, and the solar panels are arranged at the opening positions on the two sides of the protective box and have the effect of sealing the protective box;

(2) Is provided with a telescopic adjusting structure, and has the following technical effects:

the electric cabinet is characterized in that the electric cabinet is provided with the fastening ropes, the four side faces of the electric cabinet are respectively provided with the fastening ropes, when the electric cabinet rises, the electric cabinet is prevented from shaking when being suspended in the air under the tightening effect of the fastening ropes, and the flexible states of the lifting ropes and the fastening ropes are ensured, so that the electric cabinet is prevented from being influenced by external impact;

the fixing cylinder and the telescopic column are arranged, the telescopic column can do telescopic motion under the action of the air pump, and when the electric cabinet is propped against the bottom surface of the protective box, the telescopic column is embedded in the position of the limiting plate, so that the effect of limiting the electric cabinet is achieved;

(3) Because the upper vent pipe and the lower vent pipe are arranged along the moving direction of the charging vehicle, when the charging vehicle moves, air naturally passes through the upper vent pipe and the lower vent pipe and enters the protective box, and the high-speed flowing air flow achieves the effects of heat dissipation and temperature reduction;

(4) The connecting assembly is arranged to facilitate the butt joint of the vacuum chuck and the vehicle to be charged, so that the vehicle to be charged can complete the charging process in the driving process.

Drawings

Fig. 1 is a schematic structural diagram of a multifunctional charging vehicle in the present invention.

Fig. 2 is a schematic diagram of a connection structure between a lifting adjusting structure and a heat dissipating structure in the present invention.

Fig. 3 is a schematic diagram of a connection structure between a lifting adjusting structure and a heat dissipating structure in the present invention.

Fig. 4 is a schematic structural view of a lifting adjusting structure in the present invention.

Fig. 5 is a schematic diagram of a connection structure between a lifting plate and a solar panel in the present invention.

Fig. 6 is a schematic diagram of a connection structure between an electrical cabinet and a top plate in the present invention.

Fig. 7 is a schematic diagram of a connection structure between a telescopic adjusting structure and a heat dissipating structure in the present invention.

Fig. 8 is a schematic structural diagram of a heat dissipation structure in the present invention.

Fig. 9 is a schematic view showing a connection structure of the fastening rope and the fixing barrel in the present invention.

Wherein, the reference numerals are as follows: 1. unmanned plane; 2. a bolt; 3. a support leg; 4. a lifting plate; 41. a guide post; 42. an upper fixing block; 43. a hanging rope; 44. a lower fixing block; 45. a top plate; 46. a fastening rope; 47. an electrical cabinet; 48. a limiting plate; 49. a threaded hole; 5. a protective box; 51. a guide hole; 6. a ventilation hood; 61. an upper vent pipe; 62. a lower vent pipe; 7. an air pump; 8. a fixed cylinder; 9. a universal wheel; 101. a telescopic column; 11. a fixed rod; 12. a rotating lever; 13. a vacuum chuck; 131. a positioning plate; 14. a flexible cloth; 15. a hook; 16. a solar panel; 17. a lifting adjusting structure; 18. a telescopic adjusting structure; 19. a heat dissipation structure; 20. and a connection assembly.

Detailed Description

In order to more clearly describe the technical characteristics of the present solution, the present solution is described below by means of specific embodiments.

Referring to fig. 1-9, a multifunctional charging vehicle comprises a vehicle body and a connecting assembly 20 connected with the vehicle body, wherein the vehicle body comprises a protective box 5, an electrical cabinet 47 arranged in the protective box 5, an energy-carrying battery charging and power distribution system arranged in the electrical cabinet 47, a lifting adjusting structure 17 connected with the top end of the electrical cabinet 47, a telescopic adjusting structure 18 connected with the outer side of the electrical cabinet 47, a heat dissipation structure 19 arranged on the outer side of the protective box 5, and universal wheels 9 are arranged at the bottom end of the protective box 5.

Among them, the charging and distribution system of the energy-carrying battery is the prior art and will not be described in detail herein.

The lifting adjusting structure 17 comprises a lower fixed block 44 arranged at the top end of an electrical cabinet 47, a lifting rope 43 with one end connected with the lower fixed block 44, an upper fixed block 42 connected with the other end of the lifting rope 43, a lifting plate 4 horizontally arranged, and an unmanned aerial vehicle 1 connected with the upper end surface of the lifting plate 4, wherein the upper fixed block 42 is connected with the lower end surface of the lifting plate 4;

the lifting plate 4 is sealed at the upper end opening position of the protective box 5.

The lower part of the unmanned aerial vehicle 1 is provided with a supporting leg 3, and the bottom end of the supporting leg 3 is connected with a threaded hole 49 on the lifting plate 4 through a bolt 2; the unmanned aerial vehicle 1 works in a remote control mode under the action of the controller.

The four corners of the lifting plate 4 are respectively and vertically provided with a guide pillar 41, and the guide pillar 41 is slidably arranged at the corner end part of the protective box 5. The guide post 41 has guiding and adjusting functions, and avoids deviation of the electrical cabinet 47.

Specifically, the corner end of the protection box 5 is provided with a guide hole 51, and the guide post 41 is slidably disposed in the guide hole 51.

Referring to fig. 4, 6, 7 and 9, the telescopic adjusting structure 18 includes a fastening rope 46 having one end connected to the outside of the upper end portion of the electrical cabinet 47, a telescopic column 101 having one end connected to the other end of the fastening rope 46, a fixed cylinder 8 having one end connected to the telescopic column 101, an air pump 7 connected to the other end of the fixed cylinder 8, the telescopic column 101 being horizontally slidably provided in the fixed cylinder 8;

the fastening ropes 46 are arranged on the outer side surfaces of the electrical cabinets 47 respectively;

the fixed cylinders 8 are provided in a plurality and are respectively arranged on four sides of the protective box 5.

Wherein the number of fastening ropes 46, telescopic columns 101, fixing cylinders 8 is uniform, since the electrical cabinet 47 has four sides and the protective housing 5 is also four sides, in principle one fastening rope 46 is provided for each side of the electrical cabinet 47, one fixing cylinder 8 is provided for each side of the protective housing 5; in the drawing of this embodiment, since two electrical cabinets 47 are provided, at this time, the two electrical cabinets 47 are butted together, so that the adjacent side surfaces of the two electrical cabinets 47 are not provided with the fastening ropes 46, and two opposite side surfaces of the protection box 5 are provided with two fixing drums 8, respectively, referring to fig. 7.

The air pump 7 can be provided with one, and is connected with a plurality of fixed cylinders 8 through a plurality of pipelines; under the action of the air pump 7, the fixed cylinder 8 is pumped or inflated (similar to the working principle of an injector or an inflator), the telescopic column 101 slides back and forth in the fixed cylinder 8, the sliding of the telescopic column 101 drives the fastening rope 46 to tighten or stretch, the tightened fastening rope 46 achieves the effect of flexible positioning on the outer side face of the electrical cabinet 47, shaking of the electrical cabinet 47 is avoided, and protection of the electrical cabinet 47 is facilitated.

The outside of regulator cubicle 47 is provided with limiting plate 48 vertically, and the outside of limiting plate 48 is provided with the open slot, and the activity of the one end of flexible post 101 is supported in the open slot.

More preferably, the electrical cabinet 47 is a detachable structure, the top end of the electrical cabinet is horizontally provided with a top plate 45, the outer side of the top plate 45 is connected with a limiting plate 48, and the top plate 45 is detachably connected with the electrical cabinet 47.

The heat radiation structure 19 comprises a ventilation hood 6 respectively arranged at two sides of the protection box 5, an upper ventilation pipe 61 arranged at the upper end part of the ventilation hood 6, and a lower ventilation pipe 62 arranged at the lower end part of the ventilation hood 6, wherein the upper ventilation pipe 61 and the lower ventilation pipe 62 respectively extend into the protection box 5;

upper vent pipe 61 and lower vent pipe 62 are provided near the lower end of electric cabinet 47.

Openings are respectively formed in two sides of the protective box 5, solar panels 16 are respectively vertically arranged in two sides of the lifting plate 4, the solar panels 16 are respectively plugged at the opening positions, and the solar panels 16 are electrically connected with the unmanned aerial vehicle 1.

The solar panel 16 not only has the effect of blocking the opening, but also has the effect of cooling when the solar panel 16 rises and the opening is opened and high-speed air flows enter the electrical cabinet 47.

The connecting assembly 20 comprises fixed rods 11, rotating rods 12, a positioning plate 131 and a plurality of vacuum sucking discs 13, wherein one ends of the fixed rods 11 are respectively and vertically connected to two sides of the protective box 5, one ends of the rotating rods 12 are hinged to the other ends of the fixed rods 11, the positioning plate 131 is arranged between the other ends of the two rotating rods 12, and the vacuum sucking discs 13 are arranged on the positioning plate 131.

The rotating rods 12 are provided with flexible cloth 14, one end of the flexible cloth 14 is connected with the two rotating rods 12, and the other end of the flexible cloth 14 is provided with hooks 15.

When stopping the use, rotate dwang 12 upwards, set up perpendicularly with dead lever 11, cover flexible cloth 14 in unmanned aerial vehicle 1's top, realize the protection to unmanned aerial vehicle 1.

The outside of the electric cabinet 47 is provided with an opening, which is provided with the aim of facilitating heat dissipation, and communicates with the inside of the protection box 5.

The specific working principle of the invention is as follows:

the lifting adjusting structure 17 is arranged in the scheme, and has the following technical effects:

the charging vehicle arranged in the scheme can carry out the charging process when the vehicle to be charged is in the driving process,

the vehicle to be charged pushes the vehicle to be charged to integrally move, and the connecting assembly 20 is arranged to butt the vacuum chuck 13 with the headstock cover of the vehicle to be charged, so that the vacuum chuck 13 is sucked on the vehicle to be charged, and the vehicle to be charged can be conveniently installed and detached, and the charging process can be completed in the running process of the vehicle to be charged;

when on a flat road surface, the lifting plate 4 is arranged on the top end opening of the protective box 5, and has the function of acting as the top cover of the protective box 5;

when the rugged road surface is met, under the action of the unmanned aerial vehicle 1, the lifting plate 4 is driven to ascend for a certain distance by the controller, most of the electric cabinet 47 still needs to be left in the protective box 5, the lifting rope 43 drives the electric cabinet 47 to ascend, so that the bottom end of the electric cabinet 47 is separated from the bottom end of the protective box 5, and the electric cabinet 47 is in a suspended state and is not contacted with an external object;

the solar panels 16 are respectively arranged on the two sides of the lifting plate 4, so that the unmanned aerial vehicle 1 can be powered, and the opening positions on the two sides of the protective box 5 are used for sealing the protective box 5, so that when the solar panels 16 ascend along with the lifting plate 4, the openings on the two sides of the protective box 5 are opened, and the effect of ventilating and cooling the electrical cabinet 47 is achieved;

in the telescopic adjusting structure 18, fastening ropes 46 are vertically arranged, and the four side faces of the electrical cabinet 47 are respectively provided with the fastening ropes 46, so that after the electrical cabinet 47 ascends, under the tightening effect of the fastening ropes 46, the electrical cabinet 47 is ensured not to shake when being suspended in the air, and the flexible states of the hanging ropes 43 and the fastening ropes 46 ensure that the electrical cabinet 47 is not influenced by external impact;

as mentioned before, the number of fastening cords 46, telescopic columns 101, fixing cylinders 8 is uniform, since the electrical cabinet 47 has four sides and the protective housing 5 is also four sides, in principle one fastening cord 46 is provided for each side of the electrical cabinet 47 and one fixing cylinder 8 is provided for each side of the protective housing 5; in the drawing of this embodiment, since two electrical cabinets 47 are provided, at this time, the two electrical cabinets 47 are butted together, so that the adjacent side surfaces of the two electrical cabinets 47 are not provided with the fastening ropes 46, and two opposite side surfaces of the protection box 5 are provided with two fixing drums 8, respectively, referring to fig. 7.

The fixed cylinder 8 and the telescopic column 101 are arranged, under the action of the air pump 7, the telescopic column 101 can perform telescopic movement, and when the electric cabinet 47 is propped against the bottom surface of the protective box 5, the telescopic column 101 is embedded in the position of the limiting plate 48, so that the effect of limiting the electric cabinet 47 is achieved;

because the upper vent pipe 61 and the lower vent pipe 62 are arranged along the moving direction of the charging vehicle, when the charging vehicle moves, air naturally passes through the upper vent pipe 61 and the lower vent pipe 62 and enters the protective box 5, and the high-speed flowing air flow achieves the effects of heat dissipation and temperature reduction;

more preferably, an air bag cushion can be arranged at the bottom end of the protective box 5, the bottom surface of the electrical cabinet 47 is arranged on the air bag cushion, the lower vent pipe 62 can be communicated with the air bag cushion, the upper vent pipe 61 is communicated with the interior of the protective box 5, when the charging vehicle moves, air flow flowing at high speed enters the air bag cushion, then the air bag cushion achieves the effect of inflation, after the electrical cabinet 47 ascends, the inflated air bag cushion contacts with the bottom end of the electrical cabinet 47, the effect of supporting the electrical cabinet 47 is achieved, and the effect of buffering the electrical cabinet 47 is achieved.

Note that: various control instruments, power modules, capacitance modules, energy-carrying battery charging and power distribution systems and other various modules are generally installed in an electrical cabinet 47 used when the charging vehicle is charged; for example, the energy-carrying battery charging and power distribution system comprises an energy-carrying battery, an energy-carrying battery high-voltage power distribution system, an energy supplementing port for charging the energy-carrying battery and a charging gun for charging an electric vehicle; when the energy-carrying battery is charged, an external power supply charges the energy-carrying battery through the energy-supplementing port by the high-voltage power distribution system of the energy-carrying battery; when the electric vehicle is charged, the energy-carrying battery charges the electric vehicle through the charging gun by the energy-carrying battery high-voltage distribution system.

The technical features of the present invention that are not described in the present invention may be implemented by or using the prior art, and are not described in detail herein, but the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, but is also intended to be within the scope of the present invention by those skilled in the art.

Claims (1)

1. The utility model provides a multifunctional charging vehicle, includes the car body, with coupling assembling (20) of car body coupling, its characterized in that, the car body includes protective housing (5), sets up regulator cubicle (47) in protective housing (5), set up the power distribution system that charges of carrying the energy battery in regulator cubicle (47), with lift adjustment structure (17) that regulator cubicle (47) top is connected, with flexible adjustment structure (18) that regulator cubicle (47) outside is connected, set up heat radiation structure (19) in the outside of protective housing (5), the bottom of protective housing (5) is provided with universal wheel (9);

the lifting adjusting structure (17) comprises a lower fixed block (44) arranged at the top end of the electric cabinet (47), a lifting rope (43) with one end connected with the lower fixed block (44), an upper fixed block (42) connected with the other end of the lifting rope (43), a lifting plate (4) horizontally arranged, and an unmanned aerial vehicle (1) connected with the upper end surface of the lifting plate (4), wherein the upper fixed block (42) is connected with the lower end surface of the lifting plate (4); the lower part of the unmanned aerial vehicle (1) is provided with a supporting leg (3), and the bottom end of the supporting leg (3) is connected with a threaded hole (49) on the lifting plate (4) through a bolt (2); the unmanned aerial vehicle (1) works in a remote control way under the action of the controller; the unmanned aerial vehicle (1) can drive the lifting plate (4) to ascend;

the lifting plate (4) is sealed at the upper end opening position of the protective box (5);

guide posts (41) are vertically arranged at four corners of the lifting plate (4), and the guide posts (41) are slidably arranged at the corner end parts of the protective box (5);

a guide hole (51) is formed in the corner end part of the protective box (5), and the guide pillar (41) is arranged in the guide hole (51) in a vertically sliding mode;

the telescopic adjusting structure (18) comprises a fastening rope (46) with one end connected with the outer side of the upper end part of the electrical cabinet (47), a telescopic column (101) with one end connected with the other end of the fastening rope (46), a fixed cylinder (8) with one end connected with the telescopic column (101), and an air pump (7) connected with the other end of the fixed cylinder (8), wherein the telescopic column (101) is horizontally and slidably arranged in the fixed cylinder (8);

the fastening ropes (46) are arranged on the outer side surfaces of the electric cabinets (47) respectively;

the fixed cylinders (8) are provided with a plurality of fixing cylinders and are respectively arranged on four sides of the protective box (5);

a limiting plate (48) is vertically arranged on the outer side of the electrical cabinet (47), an open slot is formed in the outer side of the limiting plate (48), and one end of the telescopic column (101) is movably abutted against the open slot;

the heat dissipation structure (19) comprises ventilation hoods (6) arranged on two sides of the protection box (5), an upper ventilation pipe (61) arranged at the upper end part of the ventilation hoods (6) and a lower ventilation pipe (62) arranged at the lower end part of the ventilation hoods (6), and the upper ventilation pipe (61) and the lower ventilation pipe (62) extend into the protection box (5) respectively;

the upper vent pipe (61) and the lower vent pipe (62) are arranged close to the lower end part of the electrical cabinet (47);

openings are respectively formed in two sides of the protective box (5), solar panels (16) are respectively vertically arranged in two sides of the lifting plate (4), the solar panels (16) are respectively blocked at the opening positions, and the solar panels (16) are electrically connected with the unmanned aerial vehicle (1);

the connecting assembly (20) comprises fixed rods (11) with one ends vertically connected to two sides of the protective box (5), rotating rods (12) with one ends hinged to the other ends of the fixed rods (11), positioning plates (131) arranged between the other ends of the two rotating rods (12), and a plurality of vacuum suckers (13) arranged on the positioning plates (131);

a flexible cloth (14) is arranged on the rotating rods (12), one end of the flexible cloth (14) is connected with the two rotating rods (12), and hooks (15) are arranged at the other end of the flexible cloth (14);

the outside of the electrical cabinet (47) is provided with an opening and is communicated with the inside of the protective box (5).

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