CN219883690U - Power exchange station - Google Patents

Abstract

The utility model provides a power exchange station, which comprises: the battery-charging container device comprises a plurality of layers of battery-charging devices, and each layer of battery-charging device comprises a plurality of charging bits; the mobile equipment is arranged in the battery change container equipment; a floating bridge connected to the mobile device, the floating bridge picking up a vehicle battery; the controller is connected with the mobile equipment; the controller sends a first movement signal to the mobile device, and the mobile device drives the floating hanging bridge to move relative to the electricity changing container device. The battery replacement container equipment with the multi-layer battery replacement equipment is used, the vehicle battery is picked up through the floating hanging bridge, and the vehicle battery is moved through the mobile equipment, so that the capacity rate of the battery replacement station is improved, and the working efficiency is improved.

Description

Power exchange station

Technical Field

The utility model relates to the technical field of vehicle power conversion, in particular to a power conversion station.

Background

With the continuous popularization of electric vehicles, an electric vehicle power conversion link is an important problem to be solved by the electric vehicle industry, automatic power conversion is realized by utilizing special power conversion equipment, the technical development direction of an electric vehicle power conversion station is realized, and how to set a power conversion station with higher working efficiency is a problem to be solved urgently.

Disclosure of Invention

The utility model aims to provide a power exchange station so as to provide a power exchange station with higher working efficiency.

In order to solve the above technical problems, an embodiment of the present utility model provides a power exchange station, including:

the battery-charging container device comprises a plurality of layers of battery-charging devices, wherein each layer of battery-charging device comprises a plurality of charging bits;

the mobile equipment is arranged in the battery-operated container equipment;

a floating bridge connected to the mobile device, the floating bridge picking up a vehicle battery;

the controller is connected with the mobile equipment;

the controller sends a first movement signal to the mobile device, and the mobile device drives the floating crane to move relative to the electricity-exchanging container device.

Optionally, the power exchange station, wherein, be provided with the division board between the two-layer adjacent power exchange equipment, be provided with the breach on the division board, the floating bridge crane is passed through the breach is removed between the power exchange equipment of different layers.

Optionally, the power exchange station, wherein the mobile device includes:

the first rail is fixedly connected with a supporting plate arranged in the electricity changing container device;

and the moving mechanism is matched with the first track and moves along the first track, and the floating hanging bridge is arranged on the moving mechanism.

Optionally, the power exchange station includes a ground rail device, where the ground rail device is disposed corresponding to the gap;

the ground rail equipment is connected with the controller, receives a second movement signal sent by the controller, and moves the vehicle battery between the charging position and the position corresponding to the notch.

Optionally, the power exchange station, wherein the floating crane comprises a guide post, the mobile device further comprises a jack and a lifting device, wherein the floating crane is connected with the mobile device through the lifting device, and the guide post is inserted into the jack.

Optionally, the power exchanging station, wherein the lifting device comprises a motor, a roller and a steel wire rope;

wherein the roller is driven by the motor to rotate;

the steel wire rope is wound on the roller, and the floating hanging bridge is connected to one end, far away from the roller, of the steel wire rope.

Optionally, the power exchange station, wherein the floating bridge further comprises:

a rotating mechanism connected with the controller;

a lifting frame connected with the rotating mechanism;

the lifting bolt is arranged on the lifting frame;

the rotating mechanism rotates according to the received rotating signal sent by the controller, and the lifting lock tongue rotates relative to the lifting frame to lock the vehicle battery.

Optionally, the power exchange station further includes:

fire control buffer area includes: the fire control buffer box, the pulley, the slope and the fire control track;

the vehicle battery is placed in the fire-fighting buffer box, and the pulley is arranged in the fire-fighting buffer box;

the slope is arranged at the outer side of the fire-fighting buffer area, and the fire-fighting track is arranged at the fire-fighting buffer area and extends to the slope;

the fire control buffer tank is connected with the controller;

the pulley slides in the fire-fighting track according to the received push-out signal sent by the controller, and the fire-fighting buffer box leaves from the fire-fighting buffer area.

Optionally, the power exchange station further includes:

and the electric exchange vehicle parking area is arranged on one side of the electric exchange container equipment.

The technical scheme of the utility model has the following beneficial effects:

in the scheme, the multi-layer battery replacement equipment is arranged in the battery replacement container equipment, each layer is provided with a plurality of charging positions, the controller controls the mobile equipment to drive the floating crane to move in the battery replacement container equipment, wherein the floating crane picks up the vehicle battery, so that the vehicle battery can move in the multi-layer battery replacement equipment, the volume rate of the battery replacement station is improved, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic illustration of a power plant according to an embodiment of the present utility model;

FIG. 2 is a second schematic diagram of a power exchange station according to an embodiment of the present utility model;

FIG. 3 is a cross-sectional view of FIG. 2C-C;

FIG. 4 is a schematic diagram of a fire buffer area of a power exchange station according to an embodiment of the present utility model;

FIG. 5 is a second schematic diagram of a fire buffer of a power exchange station according to an embodiment of the present utility model;

FIG. 6 is a third schematic diagram of a power exchange station according to an embodiment of the present utility model;

FIG. 7 is a schematic illustration of a floating bridge of a power exchange station according to an embodiment of the present utility model;

FIG. 8 is a second schematic view of a floating bridge of a power exchange station according to an embodiment of the present utility model;

FIG. 9 is a schematic view of a mobile device and floating bridge crane of a power exchange station according to an embodiment of the present utility model;

FIG. 10 is a schematic diagram of a power exchange station according to an embodiment of the present utility model;

FIG. 11 is a schematic diagram of a power exchange station according to an embodiment of the present utility model.

Symbol description:

100-a battery-change container device; 110-charging potential; 120-dividing plates; 121-notch; 130-a support plate; 140-ground rail equipment; 200-a mobile device; 210-a jack; 220-lifting device; 230-first track; 300-floating suspension bridge; 310-guide posts; 320-a rotation mechanism; 330-lifting the frame; 340-hanging a lock tongue; 400-fire control buffer area; 410-a fire buffer box; 420-pulley; 430-ramp; 440-fire rail; 500-change car park.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a power exchange station with higher working efficiency.

As shown in fig. 1 and 2, an embodiment of the present utility model provides a power exchange station, which includes:

a battery pack device 100, the battery pack device 100 comprising a plurality of battery packs, each battery pack comprising a plurality of charging bits 110;

a mobile device 200, the mobile device 200 being arranged in the battery pack device 100;

a floating bridge 300 connected to the mobile device 200, the floating bridge 300 picking up a vehicle battery;

a controller connected to the mobile device 200;

the controller sends a first movement signal to the mobile device 200, and the mobile device 200 drives the floating crane 300 to move relative to the container device 100.

In this embodiment, a plurality of layers of battery-replacing devices are disposed in the battery-replacing container device 100, each layer is provided with a plurality of charging stations 110, the controller controls the mobile device 200 to drive the floating crane 300 to move in the battery-replacing container device 100, wherein the floating crane 300 picks up the vehicle battery, so that the vehicle battery can move in the plurality of layers of battery-replacing devices, the volume rate of the battery-replacing station is increased, the working efficiency is improved, and the construction cost is reduced.

As shown in fig. 3, optionally, a separation plate 120 is disposed between two adjacent layers of power conversion devices, a gap 121 is disposed on the separation plate 120, and the floating bridge 300 moves between the power conversion devices of different layers through the gap 121.

In this embodiment, the battery-replacing container device 100 takes a double-layer battery-replacing device as an example, the separation plate 120 is disposed between the upper and lower battery-replacing devices, two sides of the separation plate 120 are provided with a plurality of charging stations 110, the middle is provided with the notch 121, and the floating suspension bridge 300 enters the lower battery-replacing device through the notch 121 to move the vehicle battery.

As shown in fig. 6, optionally, the power exchange station, wherein the mobile device 200 includes:

a first rail 230, the first rail 230 being fixedly connected with a support plate 130 provided in the container device 100;

and a moving mechanism cooperating with the first rail 230 to move along the first rail 230, wherein the floating bridge 300 is disposed on the moving mechanism.

In this embodiment, the support plate 130 is disposed on the top of the container device 100, the first rail 230 is fixedly connected to the support plate 130, the moving mechanism is slidably matched with the first rail 230, the floating suspension bridge 300 is disposed on the moving mechanism and can move in the direction in which the first rail 230 is disposed, and the moving mechanism can move in the direction perpendicular to the first rail 230, and the floating suspension bridge 300 is implemented to move on the plane in which the first rail 230 and the moving mechanism are located, so that the vehicle battery can be picked up from different positions.

As shown in fig. 10 and 11, optionally, the power exchange station includes a ground rail device 140, where the ground rail device 140 is disposed corresponding to the gap 121;

the ground rail device 140 is connected to the controller, receives the second movement signal sent by the controller, and moves the vehicle battery between the charging position 110 and the position corresponding to the notch 121.

In this embodiment, the ground rail device 140 is disposed at the bottom layer of the converter container device 100, and is connected to the controller, and after receiving the second movement signal, moves the vehicle battery from the position corresponding to the notch 121 to the charging position 110, or moves the vehicle battery from the charging position 110 to the position corresponding to the notch 121, so that the floating bridge 300 can pick up the vehicle battery from the notch 121 conveniently.

As shown in fig. 7, 8 and 9, optionally, the power exchanging station further includes a guide post 310, the mobile device 200 further includes a jack 210 and a lifting device 220, wherein the floating bridge 300 is connected to the mobile device 200 through the lifting device 220, and the guide post 310 is inserted into the jack 210.

In this embodiment, the floating bridge 300 is lifted or lowered to a proper position by the lifting device 220 to pick up the vehicle battery, the floating bridge 300 is lifted to a limit position, the guide post 310 on the floating bridge 300 is inserted into the insertion hole 210 on the mobile device 200, and in the case that the mobile device 200 moves, the insertion hole 210 limits the guide post 310, so that the shaking amount of the vehicle battery is reduced, the stability is improved, and the loss is reduced.

Optionally, the power exchanging station, wherein the lifting device 220 includes a motor, a roller, and a wire rope;

wherein the roller is driven by the motor to rotate;

the steel wire rope is wound on the roller, and the floating suspension bridge 300 is connected to one end of the steel wire rope, which is far away from the roller.

In this embodiment, the motor is integrated with the speed reducer, so as to drive the roller, and the steel wire rope pulls the floating suspension bridge 300 to ascend or descend through the rotation of the roller in the forward and reverse directions, so as to drive the vehicle battery to ascend or descend.

Optionally, the power exchange station, wherein the floating bridge 300 further includes:

a rotation mechanism 320 connected to the controller;

a lifting frame 330 connected to the rotation mechanism 320;

a lifting bolt 340, wherein the lifting bolt 340 is arranged on the lifting frame 330;

the rotation mechanism 320 rotates according to the received rotation signal sent by the controller, and the lifting bolt 340 rotates relative to the lifting frame 330, so as to lock the vehicle battery.

In this embodiment, the rotating mechanism 320 is used when the vehicle battery is placed at different angles, and the floating suspension bridge 300 and the vehicle battery are set at the same angle, so that the vehicle battery is picked up smoothly, and the accuracy of power conversion is improved.

As shown in fig. 1, 4 and 5, optionally, the power exchange station further includes:

fire buffer 400 includes: fire buffer bin 410, pulley 420, ramp 430, and fire rail 440;

wherein the vehicle battery is placed in the fire-fighting buffer tank 410, and the pulley 420 is disposed in the fire-fighting buffer tank 410;

the slope 430 is disposed outside the fire protection buffer zone 400, and the fire protection track 440 is disposed in the fire protection buffer zone 400 and extends to the slope 430;

the fire control buffer tank 410 is connected with the controller;

the pulley 420 slides in the fire-fighting rail 440 according to the received push-out signal sent by the controller, and the fire-fighting buffer tank 410 leaves from the fire-fighting buffer zone 400.

In this embodiment, when an emergency occurs in the vehicle battery, the controller controls the floating bridge 300 to be above the fire-fighting buffer area 400, places the vehicle battery into the fire-fighting buffer box, and the pulley 420 rotates in the fire-fighting rail 440 according to the push-out signal to push out the fire-fighting buffer box 410, so as to avoid affecting other vehicle batteries in the electricity-exchanging container device 100, thereby reducing the probability of accident.

It should be noted that, the fire control track inclines a certain angle together with the slope surface in the fire control buffer zone outside, and the fire control buffer box continues to roll out the fire control buffer zone by the dead weight, changes the slope into the platform, and drive pulley rotates until the fire control buffer box roll out the fire control buffer zone also can reach the same effect.

Optionally, the power exchange station further includes:

a battery exchange vehicle parking area 500, said battery exchange vehicle parking area 500 being arranged at one side of said battery exchange container device 100.

In this embodiment, the electric replacement vehicle parking area 500 is disposed on one side of the electric replacement container apparatus 100, the electric replacement vehicle is parked in the electric replacement vehicle parking area 500, the mobile apparatus 200 and the floating crane 300 detach the battery with insufficient power for the electric replacement vehicle under the control of the controller, and place the battery with sufficient power on the electric replacement vehicle, so as to complete the electric replacement.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (9)

1. A power exchange station, comprising:

a battery-change container device (100), the battery-change container device (100) comprising a plurality of layers of battery-change devices, each layer of battery-change device comprising a plurality of charging bits (110);

-a mobile device (200), the mobile device (200) being arranged in the battery pack device (100);

-a floating suspension bridge (300) connected to the mobile device (200), the floating suspension bridge (300) picking up a vehicle battery;

a controller connected to the mobile device (200);

the controller sends a first movement signal to the mobile device (200), and the mobile device (200) drives the floating crane (300) to move relative to the electricity-change container device (100).

2. The power exchange station according to claim 1, characterized in that a separation plate (120) is arranged between two adjacent layers of power exchange equipment, a gap (121) is arranged on the separation plate (120), and the floating suspension bridge (300) moves between the power exchange equipment of different layers through the gap (121).

3. The power exchange station according to claim 1 or 2, characterized in that the mobile device (200) comprises:

a first rail (230), the first rail (230) being fixedly connected to a support plate (130) arranged in the electricity changing container device (100);

and the moving mechanism is matched with the first track (230), moves along the first track (230), and the floating hanging bridge (300) is arranged on the moving mechanism.

4. The power exchange station according to claim 2, characterized in that the bottommost power exchange device comprises a ground rail device (140), the ground rail device (140) being arranged in correspondence of the gap (121);

the ground rail equipment (140) is connected with the controller, receives a second movement signal sent by the controller, and moves the vehicle battery between the charging position (110) and the position corresponding to the notch (121).

5. The power exchange station according to claim 1, wherein the floating bridge (300) comprises a guiding stud (310), the mobile device (200) further comprising a jack (210) and a lifting device (220), wherein the floating bridge (300) is connected to the mobile device (200) by means of the lifting device (220), the guiding stud (310) being inserted into the jack (210).

6. The plant according to claim 5, characterized in that the lifting device (220) comprises a motor, rollers and a wire rope;

wherein the roller is driven by the motor to rotate;

the steel wire rope is wound on the roller, and the floating suspension bridge (300) is connected to one end, far away from the roller, of the steel wire rope.

7. The power exchange station of claim 6, wherein said floating suspension bridge (300) further comprises:

a rotation mechanism (320) connected to the controller;

a lifting frame (330) connected to the rotation mechanism (320);

the hanging lock tongue (340), wherein the hanging lock tongue (340) is arranged on the hanging frame (330);

the rotating mechanism (320) rotates according to the received rotating signal sent by the controller, and the lifting lock tongue (340) rotates relative to the lifting frame (330) to lock the vehicle battery.

8. The power exchange station of claim 1, further comprising:

fire buffer (400), comprising: the fire control buffer box (410), the pulley (420), the slope (430) and the fire control track (440);

wherein the vehicle battery is placed in the fire-fighting buffer box (410), and the pulley (420) is arranged in the fire-fighting buffer box (410);

the slope (430) is arranged outside the fire-fighting buffer area (400), and the fire-fighting track (440) is arranged in the fire-fighting buffer area (400) and extends to the slope (430);

the fire control buffer tank (410) is connected with the controller;

the pulley (420) slides in the fire-fighting track (440) according to the received push-out signal sent by the controller, and the fire-fighting buffer tank (410) leaves from the fire-fighting buffer zone (400).

9. The power exchange station of claim 1, further comprising:

-a battery change vehicle parking area (500), said battery change vehicle parking area (500) being arranged at one side of said battery change container device (100).