CN220410309U - Mobile energy storage station for new energy automobile - Google Patents

Abstract

The utility model provides a mobile energy storage station for a new energy automobile, which relates to the technical field of mobile energy storage stations and comprises an energy storage automobile, wherein a control panel is arranged above the front surface of the energy storage automobile, an assembly groove is arranged on the side edge of the energy storage automobile, a retraction mechanism is arranged in the assembly groove, a charging wire is arranged on one side above the assembly groove, one end of the charging wire is electrically communicated with the inside of the energy storage automobile, a charging gun is arranged at the other end of the charging wire, the charging wire is wound in the retraction mechanism, a cover plate is arranged outside the assembly groove, one end of the charging wire penetrates through the cover plate and extends outside, a placing rack is arranged on the side wall of the energy storage automobile, and the charging gun is clamped and arranged on the placing rack. According to the utility model, the charging wire can be pulled out from the assembly groove by driving the retraction mechanism and pulling the charging wire outwards, otherwise, the charging wire can be flatly retracted in the assembly groove, and the phenomenon of falling caused by unstable winding of the charging wire is avoided.

Description

Mobile energy storage station for new energy automobile

Technical Field

The utility model relates to the technical field of mobile energy storage stations, in particular to a mobile energy storage station for a new energy automobile.

Background

And the movable energy storage station is preloaded with an electrochemical battery as an energy storage carrier, and can store and release circulated electric energy through an energy storage alternating current device, so that the movable energy storage station is convenient for charging a new energy automobile which is inconvenient to move due to electric quantity exhaustion.

The intelligent mobile energy storage charging device comprises an intelligent mobile energy storage charging vehicle, a direct current charging terminal device and an electric connector, wherein the electric connector is connected with the intelligent mobile energy storage charging vehicle and the direct current charging terminal device, so that the intelligent mobile energy storage charging vehicle and the direct current charging terminal device are in high-voltage charging connection and low-voltage communication connection, the intelligent mobile energy storage charging vehicle is provided with a mobile wheel, and the direct current charging terminal device is fixed on the ground or a ceiling.

Some are as the removal energy storage charging station volume of charging robot form less, conveniently remove, when charging, take off the rifle that charges from the charging station, the rifle that charges passes through connecting pipe and charging station electric connection, insert the rifle that charges and establish on the charging mouth of car after taking off the rifle that charges, after charging, twine the charging wire on the couple of charging station, but because the charging wire that is connected with the rifle that charges is thicker, and its flexible degree is lower, make the relativity between charging wire and the couple lower, in the removal process of removal charging station, take place to drop between charging wire and the couple easily, if take place to drop, the charging wire can drag the ground directly, wear out the charging wire surface epidermis easily when walking, cause the damage to inside electric wire, therefore, the utility model proposes a new energy automobile and removes the energy storage station, in order to solve the problem that exists in the prior art.

Disclosure of Invention

In view of the above problems, the present utility model provides a mobile energy storage station for a new energy automobile, where the mobile energy storage station drives a retraction mechanism and is matched with pulling a charging wire outwards, so that the charging wire can be pulled out from an assembly slot, otherwise, the charging wire can be flatly retracted in the assembly slot, and the phenomenon that the charging wire is not wound stably and falls off is avoided.

In order to solve the problems, the utility model provides a mobile energy storage station for a new energy automobile, which comprises an energy storage automobile, wherein a control panel is arranged above the front surface of the energy storage automobile, an assembly groove is arranged on the side edge of the energy storage automobile, a retracting mechanism is arranged in the assembly groove, a charging wire is arranged on one side above the assembly groove, one end of the charging wire is electrically communicated with the inside of the energy storage automobile, a charging gun is arranged at the other end of the charging wire, the charging wire is wound in the retracting mechanism, a cover plate is arranged outside the assembly groove, one end of the charging wire penetrates through the cover plate and extends outside, a placing frame is arranged on the side wall of the energy storage automobile, and the charging gun is clamped on the placing frame.

The further improvement is that: one end of the charging wire is fixed above one side of the assembly groove, the other end of the charging wire is wound on the two moving rollers from top to bottom, a through groove is formed in one side below the cover plate, and the lower end of the charging wire penetrates through the through groove and extends outwards.

The further improvement is that: the winding and unwinding mechanisms comprise moving rollers and sliding grooves, the sliding grooves are arranged at the upper part and the lower part in the assembly grooves, the moving rollers are arranged in the sliding grooves in a sliding manner, the two moving rollers are correspondingly arranged in the sliding grooves in a reverse moving manner, the moving rollers are arranged in a driving manner through driving mechanisms, charging wires are wound on the moving rollers, a rotating bearing is arranged at the central position of the outer side of each moving roller, and the outer side of each bearing is flush with the outer side of each moving roller.

The further improvement is that: the driving mechanism comprises a transverse plate and a fixed roller, wherein the transverse plate is provided with two transverse plates and is horizontally arranged, one end of the transverse plate is connected with the center of the outer end of the movable roller in an assembling mode, racks are arranged on the opposite faces of the two transverse plates, the fixed roller is meshed with the two transverse plates, the fixed roller is connected with the cover plate in a rotating mode, and the fixed roller is arranged through motor driving.

The further improvement is that: the assembly groove is internally provided with clamping strips, the inner side surface of the cover plate is provided with clamping sleeves matched with the clamping strips in a clamping mode, and a plurality of clamping strips are combined with the clamping sleeves.

The further improvement is that: the inside face of apron with the inside distance of assembly groove is less than the twice of charging wire diameter, the assembly inslot rotation is equipped with the limiting roller, the limiting roller is equipped with two, two the limiting roller rotates to set up and is being located the both sides about the charging wire of logical groove position department, the outer one end of limiting roller with apron medial surface block sets up.

The beneficial effects of the utility model are as follows: this mobile energy storage station for new energy automobile is through driving the jack to the cooperation is outwards pulled the charging wire, can be with charging wire from the assembly tank pulling smoothly, inserts the rifle that charges in the car hole that charges and can realize charging operation, and when not using, to jack back drive, shrink the charging wire to the assembly tank in stable assembly, make the charging wire expose outside the part shorter, and then with charging gun assembly on the rack can, avoid appearing the unstable phenomenon that leads to droing of charging wire rolling.

Drawings

Fig. 1 is a perspective view of the present utility model.

FIG. 2 is a schematic view of the internal structure of the assembly tank of the present utility model.

Fig. 3 is a schematic view of a retracting mechanism of the present utility model.

FIG. 4 is a schematic view of a cover plate of the present utility model.

Wherein: 1. an energy storage vehicle; 2. a control panel; 3. an assembly groove; 4. a charging wire; 5. a charging gun; 6. a cover plate; 7. a placing rack; 8. a moving roller; 9. a chute; 10. a through groove; 11. a cross plate; 12. a fixed roller; 13. a rack; 14. a motor; 15. a bearing; 16. clamping strips; 17. a cutting sleeve; 18. and a limit roller.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to the fig. 1, 2, 3, 4 show, this embodiment has proposed a new energy automobile and has moved energy storage station, including energy storage car 1, the positive top of energy storage car 1 is equipped with control panel 2, energy storage car 1 side is equipped with assembly groove 3, be equipped with the release mechanism in the assembly groove 3, the release mechanism includes removal roller 8 and spout 9, spout 9 is equipped with two and sets up in the assembly groove 3 top and below, assembly groove 3 top one side is equipped with charging wire 4, charging wire 4 one end with electric communication in the energy storage car 1, the other end of charging wire 4 is equipped with charging gun 5, charging wire 4 winding sets up in the release mechanism, the assembly groove 3 outside is equipped with apron 6, charging wire 4's one end runs through apron 6 and extends outside, be equipped with rack 7 on the energy storage car 1 lateral wall, charging gun 5 block sets up on rack 7.

The movable rollers 8 are slidably arranged in the sliding grooves 9, the two movable rollers 8 are reversely arranged in the corresponding sliding grooves 9, the movable rollers 8 are driven by a driving mechanism to be arranged, the charging wires 4 are wound on the movable rollers 8, and when the movable rollers 8 move in the sliding grooves 9, the charging wires 4 wound on the surfaces of the movable rollers 8 can be driven to perform zooming operation by winding the charging wires 4 on the movable rollers 8.

One end of the charging wire 4 is fixed above one side of the assembly groove 3, the other end is wound on two movable rollers 8 from top to bottom in an S shape, a through groove 10 is formed in one side below the cover plate 6, the lower end of the charging wire 4 penetrates through the through groove 10 and extends outwards, and the position of the charging wire 4 in the assembly groove 3 is limited conveniently through the arrangement of the two movable rollers 8.

The driving mechanism comprises a transverse plate 11 and a fixed roller 12, wherein the transverse plate 11 is provided with two transverse plates and is horizontally arranged, and one end of the transverse plate 11 is assembled and connected with the center position of the outer end of the movable roller 8.

The two opposite sides of the transverse plates 11 are respectively provided with a rack 13, the fixed rollers 12 are meshed and arranged between the two transverse plates 11, the fixed rollers 12 are connected with the cover plate 6 in a rotating mode, the fixed rollers 12 are driven by a motor 14 to be arranged, the fixed rollers 12 are driven by the motor 14 to rotate, the two transverse plates 11 meshed and arranged with the fixed rollers 12 are driven to synchronously and reversely move, the two movable rollers 8 are driven to synchronously move, when the movable rollers 8 reversely move, the charging wire 4 contracts inwards in the assembly groove 3, when the movable rollers 8 move in the same direction, the charging wire 4 in the assembly groove 3 is loose, and a worker is matched to pull the charging wire 4 outwards, so that the charging wire 4 can be pulled outwards evenly.

The bearing 15 is rotated at the center position of the outer side of the movable roller 8, the outer side of the bearing 15 is flush with the outer side of the movable roller 8, and rolling friction is generated when the charging wire 4 and the movable roller 8 are displaced through the arranged bearing 15, so that abrasion to the charging wire 4 is reduced.

The assembly groove 3 is internally provided with a clamping strip 16, the inner side surface of the cover plate 6 is provided with a clamping sleeve 17 which is matched with the clamping strip 16 in a clamping manner, a plurality of clamping strips 16 are arranged in combination with the clamping sleeve 17, the cover plate 6 and the assembly groove 3 are conveniently fixed through the clamping fit of the clamping sleeve 17 and the clamping sleeve 17, and the retraction mechanism inside the assembly groove 3 is conveniently maintained and operated through the disassembly of the cover plate 6.

The inner side surface of the cover plate 6 and the inner distance of the assembly groove 3 are smaller than twice the diameter of the charging wire 4, the assembly groove 3 is rotationally provided with limiting rollers 18, and the limiting rollers 18 are provided with two limiting rollers.

The two limit rollers 18 are rotatably arranged on the upper side and the lower side of the charging wire 4 at the position of the through groove 10, the outer end of each limit roller 18 is clamped with the inner side surface of the cover plate 6, and the limit rollers 18 limit the turning parts of the charging wire 4 and the through groove 10, so that the problem that the surface is damaged due to repeated friction between the side wall of the charging wire 4 and the through groove 10 is avoided.

This mobile energy storage station for new energy automobile carries out when charging the car, remove the energy storage car 1 to the suitable position department around the wheel, and then take off rifle 5 that charges from rack 7, drive the jack, and the cooperation is outwards pulling charging wire 4, can pull out charging wire 4 smoothly from the assembly groove 3, it can realize the operation of charging to insert the car in the hole that charges to charge rifle 5, when not using, back drive the jack, shrink charging wire 4 to the assembly groove 3 in stable assembly, make charging wire 4 expose outside part shorter, and then assemble charging gun 5 on rack 7 can, avoid appearing charging wire 4 rolling unstable and lead to the phenomenon that drops.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a mobile energy storage station for new energy automobile, includes energy storage car (1), its characterized in that: the utility model discloses a battery charging device, including energy storage car (1), control panel (2) are equipped with in the front top of energy storage car (1), energy storage car (1) side is equipped with assembly groove (3), be equipped with in assembly groove (3) and receive and release mechanism, assembly groove (3) top one side is equipped with charging wire (4), charging wire (4) one end with electric intercommunication in energy storage car (1), the other end of charging wire (4) is equipped with rifle (5) that charges, charging wire (4) winding sets up receive and release mechanism in, the assembly groove (3) outside is equipped with apron (6), the one end of charging wire (4) runs through apron (6) and extends outside, be equipped with rack (7) on energy storage car (1) lateral wall, rifle (5) block that charges sets up on rack (7).

2. The mobile energy storage station for a new energy vehicle of claim 1, wherein: the winding and unwinding mechanisms comprise moving rollers (8) and sliding grooves (9), the sliding grooves (9) are arranged at the upper part and the lower part in the assembly groove (3), the moving rollers (8) are arranged in the sliding grooves (9) in a sliding mode, the moving rollers (8) are correspondingly arranged in the sliding grooves (9) in a reverse moving mode, the moving rollers (8) are arranged in a driving mode through driving mechanisms, and the charging wires (4) are wound on the moving rollers (8).

3. A mobile energy storage station for new energy vehicles according to claim 2, characterized in that: one end of the charging wire (4) is fixed above one side of the assembly groove (3), the other end is wound on two moving rollers (8) from top to bottom, a through groove (10) is formed in one side below the cover plate (6), and the lower end of the charging wire (4) penetrates through the through groove (10) and extends outwards.

4. A mobile energy storage station for new energy vehicles according to claim 3, characterized in that: the driving mechanism comprises a transverse plate (11) and a fixed roller (12), wherein the transverse plate (11) is provided with two transverse plates and is horizontally arranged, one end of the transverse plate (11) is assembled and connected with the center position of the outer end of the movable roller (8), the two opposite sides of the transverse plate (11) are respectively provided with a rack (13), the fixed roller (12) is meshed and arranged between the two transverse plates (11), the fixed roller (12) is rotationally connected with the cover plate (6), and the fixed roller (12) is driven and arranged through a motor (14).

5. The mobile energy storage station for a new energy vehicle of claim 4, wherein: and a bearing (15) is rotated at the center position of the outer side of the movable roller (8), and the outer side of the bearing (15) is arranged flush with the outer side of the movable roller (8).

6. A mobile energy storage station for new energy vehicles according to claim 3, characterized in that: the assembly groove (3) is internally provided with a clamping strip (16), the inner side surface of the cover plate (6) is provided with a clamping sleeve (17) which is matched with the clamping strip (16) in a clamping mode, and a plurality of clamping strips (16) and the clamping sleeve (17) are combined.

7. The mobile energy storage station for a new energy vehicle of claim 6, wherein: the inside surface of apron (6) with the inside distance of assembly groove (3) is less than the twice of charging wire (4) diameter, assembly groove (3) internal rotation is equipped with spacing roller (18), spacing roller (18) are equipped with two, two spacing roller (18) rotate and set up in being located the department of logical groove (10) charging wire (4) upper and lower both sides, the outer one end of spacing roller (18) with apron (6) medial surface block sets up.