CN219651027U

CN219651027U - Solar charging cabinet

Info

Publication number: CN219651027U
Application number: CN202321150557.4U
Authority: CN
Inventors: 靳越飞; 郭冬芹; 王翔
Original assignee: Hubei Yidian Electric Co ltd
Current assignee: State Grid Electric Vehicle Service Hubei Co ltd
Priority date: 2023-05-11
Filing date: 2023-05-11
Publication date: 2023-09-08
Anticipated expiration: 2033-05-11

Abstract

The utility model discloses a solar charging cabinet, which relates to the technical field of charging cabinets and particularly comprises a power storage chamber, wherein a servo motor and a storage battery are fixedly connected to the inner bottom wall of the power storage chamber, and a gear I is fixedly arranged at the output end of the servo motor.

Description

Solar charging cabinet

Technical Field

The utility model relates to the technical field of charging cabinets, in particular to a solar charging cabinet.

Background

The charging post is a device for charging the battery car, and functions similar to an oiling machine in a gas station, so that the charging post is arranged in a charging station, and a driver can charge the battery car by using the charging post in the charging station.

Through retrieving, a multifunctional shared storage battery charging station is disclosed in China patent with publication number of 212012215U, and the technical key points of the multifunctional shared storage battery charging station are as follows: the utility model discloses a multifunctional shared storage battery charging station which comprises a cabinet body which is arranged in a hollow mode and is provided with an opening at the bottom, and a charging pile body which is arranged at the inner top of the cabinet body, wherein an auxiliary power supply mechanism is arranged at the top of the cabinet body, and a plurality of storage boxes which are obliquely arranged are fixedly connected to the inner side wall of the cabinet body. According to the utility model, the storage box is obliquely arranged, so that the storage battery placed in the storage box is in an oblique state, and the charging connector on the storage battery is stably contacted with the charging connector on the storage box by utilizing the self gravity of the storage battery, so that the condition of poor contact of the charging connector in the charging process is avoided; the water flow port is arranged at the inner bottom of the storage box, so that water stains adhered to the surface of the storage battery can flow out through the water flow port, and the storage box is prevented from being piled up to be placed for safety accidents; through set up solar cell panel at the top of the cabinet body, turn into electric energy with solar energy and charge the stake and supply power.

In the scheme, although the storage battery of the existing shared storage battery charging station is charged in a horizontally placed mode, the situation that the charging interface of the storage battery charging connector and the shared storage battery charging station is in poor contact easily occurs, and the charging efficiency of the storage battery is affected, when the storage battery is charged, a higher charging port needs to lift the storage battery to prevent, the storage battery needing to be charged is large in general weight, the lifting of the storage battery is laborious, and if the storage battery is unstable, the situation that a user is injured by smashing due to falling easily occurs.

There is therefore a need to propose a new solution to this problem.

Disclosure of Invention

To among the above-mentioned prior art to have higher charge mouthful need to hold up the storage battery and prevent, the general weight ratio of storage battery that needs to charge is great, holds up the storage battery more laboriously, and if the storage battery takes unstably, appears dropping easily and smash the condition of injuring the person of charging.

The utility model discloses a solar charging cabinet which comprises a power storage chamber, wherein a servo motor and a storage battery are fixedly connected to the inner bottom wall of the power storage chamber, a first gear is fixedly connected to the output end of the servo motor, sliding columns are fixedly connected to the two sides of the power storage chamber, connecting holes are formed in the inner part of the sliding column on the left side of the power storage chamber and the inner part of the power storage chamber, a screw rod is arranged in the sliding column on the left side of the power storage chamber, the two ends of the screw rod are rotationally connected with the inner wall of the corresponding sliding column, a second gear is fixedly connected to the outer surface of the screw rod, the first gear and the second gear are in transmission connection through a gear belt, a fixed plate is fixedly connected to the inner wall of each sliding column, two sliding rods are fixedly connected to the bottom surface of each fixed plate, sliding blocks are arranged in the inner part of each sliding column, the outer surface of each sliding rod is in sliding connection with the corresponding sliding block, the outer surface of the screw rod is in threaded connection with the corresponding sliding block, a transverse plate is arranged in front of the power storage chamber, and the transverse plate is connected with the upper surface of the storage battery.

Further, the bottom surface fixedly connected with storage battery charging device of electricity storage room, operating panel is installed to storage battery charging device's front dead lever, storage battery charging device's bottom surface fixedly connected with base.

Further, the upper surface of the electricity storage chamber is fixedly connected with a support, the solar panel is fixedly installed on the upper surface of the support, and the loudspeaker is fixedly installed on the front surface of the electricity storage chamber.

Further, the inside rotation of board is placed to the storage battery is connected with the gyro wheel that the equidistance was arranged, the bottom surface fixedly connected with four fixed columns of board are placed to the storage battery.

Further, the sliding grooves are formed in two side faces of the transverse plate, the bottom face of the transverse plate is connected with the sliding plate in a sliding mode, and the upper surface of the sliding plate is fixedly connected with each fixing column.

Further, the outer surfaces of the two fixed columns on the front face of the transverse plate are rotationally connected with driving wheels, the outer surface of each driving wheel is in contact with the corresponding sliding groove, the outer surfaces of the two fixed columns on the inner face of the transverse plate are rotationally connected with driven wheels, and the outer surface of each driven wheel is in contact with the corresponding sliding groove.

Further, the ground of the sliding plate is fixedly provided with a stepping motor, the output end of the stepping motor is fixedly connected with a rotating wheel, and the outer surface of the rotating wheel is in contact with each driving wheel.

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

1. when the device is used, the servo motor is controlled to start, the first gear is driven to rotate when the servo motor starts, the second gear is driven to rotate together through the gear belt, the screw rod is driven to rotate when the second gear rotates, the sliding block is driven to move along the sliding rod through the rotation of the screw rod, the transverse plate and the storage battery placing plate are driven to move up and down when the sliding block moves, the storage battery to be charged can be placed on the storage battery placing plate after the storage battery placing plate descends, and then the storage battery placing plate is lifted through controlling the servo motor, so that the device can drive the storage battery to ascend and descend according to requirements.

2. When the device is used, after the storage battery is placed on the storage battery placing plate, the stepping motor is controlled to be started, the rotating wheel is driven to rotate when the motor of the component is started, and the two driving wheels are driven to rotate when the rotating wheel rotates, so that the storage battery placing plate and the sliding plate transversely move through the contact of the driving wheels and the sliding grooves, and the effect that the device can transversely move the storage battery according to requirements is achieved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic view of the overall three-dimensional structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of a stepper motor according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure A in FIG. 2 according to the present utility model;

FIG. 4 is a schematic view of the internal structure of the power storage chamber of the present utility model;

fig. 5 is an enlarged schematic view of the structure B in fig. 4 according to the present utility model.

In the figure: 1. a power storage chamber; 2. a servo motor; 3. a first gear; 4. a sliding column; 5. a connection hole; 6. a screw rod; 7. a second gear; 8. a gear belt; 9. a slide block; 10. a cross plate; 11. a fixing plate; 12. a slide bar; 13. fixing the column; 14. a sliding plate; 15. a stepping motor; 16. a rotating wheel; 17. driven wheel; 18. a sliding groove; 19. a bracket; 20. a solar panel; 21. a storage battery; 22. a battery charging device; 23. an operation panel; 24. a storage battery placing plate; 25. a roller; 26. a horn; 27. a base; 28. a driving wheel.

Detailed Description

Various embodiments of the present utility model are disclosed in the following drawings, which are presented in sufficient detail to provide a thorough understanding of the present utility model. However, it should be understood that these physical details should not be used to limit the utility model. That is, in some embodiments of the present utility model, these physical details are not necessary. Moreover, for the sake of simplicity of illustration, some well-known and conventional structures and components are shown in the drawings in a simplified schematic manner.

Referring to fig. 1-5, a solar charging cabinet of the present utility model comprises a power storage chamber 1, wherein a servo motor 2 and a storage battery 21 are fixedly connected to an inner bottom wall of the power storage chamber 1, a gear one 3 is fixedly connected to an output end of the servo motor 2, sliding columns 4 are fixedly connected to two sides of the power storage chamber 1, connecting holes 5 are formed in the inner part of the sliding column 4 at the left side of the power storage chamber 1 and the inner part of the power storage chamber 1, a screw rod 6 is arranged in the sliding column 4 at the left side of the power storage chamber 1, two ends of the screw rod 6 are rotatably connected with inner walls of the corresponding sliding columns 4, a gear two 7 is fixedly connected to an outer surface of the screw rod 6, the gear one 3 and the gear two 7 are in transmission connection through a gear belt 8, a fixed plate 11 is fixedly connected to an inner wall of each sliding column 4, two sliding rods 12 are fixedly connected to a bottom surface of each fixed plate 11, lower ends of each sliding rod 12 are fixedly connected with the corresponding sliding column 4, the inside of each sliding column 4 is provided with a sliding block 9, the outer surface of each sliding rod 12 is in sliding connection with the corresponding sliding block 9, the outer surface of the screw rod 6 is in threaded connection with the corresponding sliding block 9, the front of the electricity storage chamber 1 is provided with a transverse plate 10, the upper surface of the transverse plate 10 is in sliding connection with a storage battery placing plate 24, when the device is used, the device is started by controlling a starting servo motor, when the servo motor is started, a gear I is driven to rotate, the gear II rotates together through a gear belt, the screw rod is driven to rotate when the gear II rotates, the sliding block is driven to move along the sliding rod through the rotation of the screw rod, the transverse plate and the storage battery placing plate are driven to move up and down when the sliding block moves, after the storage battery placing plate descends, the storage battery needing to be charged can be placed on the storage battery placing plate, then the storage battery placing plate is lifted by controlling the servo motor, so that the effect that the storage battery can be driven to ascend and descend according to the requirements is achieved.

Referring to fig. 1, a battery charging device 22 is fixedly connected to the bottom surface of a power storage room 1, an operation panel 23 is mounted on a front fixing rod of the battery charging device 22, a base 27 is fixedly connected to the bottom surface of the battery charging device 22, the battery can be charged through the set battery charging device 22, operations such as payment can be performed through the set operation panel 23, and a charging cabinet is fixed through the set base 27.

Referring to fig. 1, 2 and 4, a support 19 is fixedly connected to the upper surface of the electricity storage chamber 1, a solar panel 20 is fixedly installed on the upper surface of the support 19, a speaker 26 is fixedly installed on the front surface of the electricity storage chamber 1, the solar panel 20 is fixedly supported by the support 19, electric energy is converted and stored by the solar panel 20, and a user is reminded of keeping a distance from the charging cabinet when the equipment runs by the speaker 26.

Referring to fig. 1, the battery placing plate 24 is rotatably connected with rollers 25 arranged at equal intervals, the bottom surface of the battery placing plate 24 is fixedly connected with four fixing columns 13, the battery can enter the battery charging device 22 more conveniently through the rollers 25, and the battery placing plate 24 is connected with the sliding plate 14 through the fixing columns 13.

Referring to fig. 3, both side surfaces of the transverse plate 10 are provided with sliding grooves 18, the bottom surface of the transverse plate 10 is slidably connected with a sliding plate 14, the upper surface of the sliding plate 14 is fixedly connected with each fixed column 13, the driving wheel 28 and the driven wheel 17 can rotate inside through the sliding grooves 18, and the stepping motor 15 is fixed through the sliding plate 14.

Referring to fig. 2 and 3, the outer surfaces of the two fixed columns 13 on the front surface of the transverse plate 10 are rotatably connected with driving wheels 28, the outer surface of each driving wheel 28 contacts with the corresponding sliding groove 18, the outer surfaces of the two fixed columns 13 on the inner surface of the transverse plate 10 are rotatably connected with driven wheels 17, the outer surface of each driven wheel 17 contacts with the corresponding sliding groove 18, and the transverse plate 10 is driven to move in the sliding groove 18 by the rotation of the two driven wheels 28.

Referring to fig. 2 and 3, a stepping motor 15 is fixedly mounted on the ground of the sliding plate 14, an output end of the stepping motor 15 is fixedly connected with a rotating wheel 16, an outer surface of the rotating wheel 16 is in contact with each driving wheel 28, the rotating wheel 16 is driven to rotate by the arranged stepping motor 15, and the driving wheels 28 are driven to rotate by the rotation of the rotating wheel 16.

When the utility model is used: through control start servo motor 2 start, when servo motor 2 starts, can drive gear one 3 and rotate, gear one 3 can make gear two 7 rotate together through gear belt 8, can drive lead screw 6 and rotate when gear two 7 rotate, it moves along slide bar 12 to drive slider 9 through the rotation of lead screw 6, can drive diaphragm 10 and storage battery place the board 24 and reciprocate when slider 9 moves, after the board 24 descends is placed to the storage battery that can need charge on board 24, then rise storage battery place the board 24 through control servo motor 2, through control start step motor 15, can drive runner 16 and rotate when step motor 15 starts, can drive two action wheels 28 and rotate when runner 16 rotates, make storage battery place board 24 and sliding plate 14 carry out lateral shifting through the contact of action wheel 28 and sliding tray 18, it can drive the storage battery to move according to the demand to reach the device.

The foregoing description is only illustrative of the utility model and is not to be construed as limiting the utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, or the like, which is within the spirit and principle of the present utility model, should be included in the scope of the claims of the present utility model.

Claims

1. The utility model provides a solar charging cabinet, includes electric room (1), its characterized in that: the inner bottom wall of the electricity storage chamber (1) is fixedly connected with a servo motor (2) and a storage battery (21), the output end of the servo motor (2) is fixedly connected with a gear I (3), two sides of the electricity storage chamber (1) are fixedly connected with sliding columns (4), connecting holes (5) are formed in the inner part of the sliding columns (4) on the left side of the electricity storage chamber (1) and the inner part of the electricity storage chamber (1), screw rods (6) are arranged in the sliding columns (4) on the left side of the electricity storage chamber (1), two ends of each screw rod (6) are rotatably connected with the inner wall of the corresponding sliding column (4), the outer surface of each screw rod (6) is fixedly connected with a gear II (7), the gear I (3) and the gear II (7) are in transmission connection through a gear belt (8), two fixing plates (11) are fixedly connected to the inner wall of each sliding column (4), two sliding rods (12) are fixedly connected to the bottom surface of each fixing plate (11), the lower end of each sliding rod (12) is fixedly connected with the inner sliding column (4), each sliding rod (9) is fixedly connected with the corresponding sliding column (9), the outer surface of each sliding column (9) is correspondingly connected with the outer surface of the corresponding sliding column (9), the front of the electricity storage chamber (1) is provided with a transverse plate (10), and the upper surface of the transverse plate (10) is connected with a storage battery placing plate (24) in a sliding manner.

2. A solar charging cabinet according to claim 1, wherein: the battery charging device (22) is fixedly connected to the bottom surface of the battery storage chamber (1), an operation panel (23) is installed on a front fixing rod of the battery charging device (22), and a base (27) is fixedly connected to the bottom surface of the battery charging device (22).

3. A solar charging cabinet according to claim 1, wherein: the solar energy storage device is characterized in that a support (19) is fixedly connected to the upper surface of the electricity storage chamber (1), a solar panel (20) is fixedly installed on the upper surface of the support (19), and a loudspeaker (26) is fixedly installed on the front surface of the electricity storage chamber (1).

4. A solar charging cabinet according to claim 1, wherein: the inside rotation of board (24) is placed to the storage battery is connected with gyro wheel (25) that the equidistance was arranged, the bottom surface fixedly connected with four fixed columns (13) of board (24) are placed to the storage battery.

5. A solar charging cabinet according to claim 1, wherein: both sides face of diaphragm (10) has all seted up sliding tray (18), the bottom surface sliding connection of diaphragm (10) has sliding plate (14), the upper surface and the equal fixed connection of every fixed column (13) of sliding plate (14).

6. A solar charging cabinet according to claim 1, wherein: the outer surfaces of the two fixed columns (13) on the front face of the transverse plate (10) are rotationally connected with driving wheels (28), the outer surface of each driving wheel (28) is in contact with a corresponding sliding groove (18), the outer surfaces of the two fixed columns (13) on the inner face of the transverse plate (10) are rotationally connected with driven wheels (17), and the outer surface of each driven wheel (17) is in contact with a corresponding sliding groove (18).

7. A solar charging cabinet according to claim 5, wherein: the ground of sliding plate (14) fixed mounting has step motor (15), the output fixedly connected with runner (16) of step motor (15), the surface and the homoenergetic contact of every action wheel (28) of runner (16).