CN212921205U - Battery changing platform and battery changing station - Google Patents

Abstract

The application provides a battery replacing platform and a battery replacing station, wherein the battery replacing platform comprises a parking mechanism for parking a vehicle; the accommodating mechanism is positioned below the parking mechanism and provided with an opening; the opening and closing mechanism is used for opening or closing the opening of the accommodating mechanism; and the battery disassembling and assembling mechanism is arranged in the accommodating mechanism and can lift relative to the accommodating mechanism, when the opening and closing mechanism opens the opening of the accommodating mechanism, the battery disassembling and assembling mechanism can lift relative to the accommodating mechanism so as to extend out of the accommodating mechanism through the opening, and the vehicle is subjected to battery disassembling and assembling operation. The battery swapping platform, the battery swapping station and the battery swapping method can improve the safety of the battery swapping operation of the vehicle, reduce the time consumption of the battery swapping operation of the vehicle and improve the battery swapping experience of the vehicle owner.

Description

Battery changing platform and battery changing station

Technical Field

The embodiment of the application relates to a vehicle battery replacing technology, in particular to a battery replacing platform and a battery replacing station.

Background

The development of automobile technology makes new energy automobiles become the mainstream development trend of the automobile industry. The battery replacement station is automatic equipment for replacing batteries of electric automobiles.

As shown in fig. 1, the conventional battery replacement platform 1 mainly includes a parking platform 11, a Vehicle lifting machine 12, a wheel alignment mechanism 13, and a Rail Guided Vehicle (RGV) 14.

The parking platform 11 is used for parking a vehicle, the wheel positioning mechanism 13 is used for positioning the vehicle at a designated position of the parking platform 11, the vehicle lifter 12 is used for lifting the vehicle parked on the parking platform 11 to a set height, and the rail guide trolley 14 is used for realizing horizontal operation of the battery, height lifting of the battery and dismounting and mounting operations of the battery.

Then, in the prior art, since the rail guide trolley 14 directly travels on the parking platform 11, when the battery dismounting operation is performed on the vehicle on the parking platform 11, the vehicle lifter 12 must be lifted to a large extent for the vehicle, and a moving space is reserved for the rail guide trolley 14, so that when the vehicle is replaced, a driver and a passenger must leave the vehicle, not only is the total power consumption of the vehicle replaced increased, but also the battery replacement experience of a vehicle owner is poor, and the vehicle still has a risk of falling in the process of being lifted to a large extent.

Moreover, in the prior art, the battery is completely exposed in a visible range in the transmission process, so that the risk of contamination caused by the rubbing of personnel and the invasion of foreign matters on the battery is easily caused, and potential safety hazards exist.

Disclosure of Invention

In view of the above problems, the present application provides a power swapping platform, a power swapping station, and a power swapping method to overcome the above problems or at least partially solve the above problems.

A first aspect of the present application provides a swap platform, which includes:

a parking mechanism for parking the vehicle;

an accommodating mechanism provided below the vehicle parked at the parking mechanism and having an opening;

the opening and closing mechanism is arranged on the accommodating mechanism and can move relative to the accommodating mechanism to open or close the opening of the accommodating mechanism;

the battery disassembling and assembling mechanism is arranged in the accommodating mechanism and can lift relative to the accommodating mechanism; when the opening and closing mechanism opens the opening of the accommodating mechanism, the battery disassembling and assembling mechanism can be lifted relative to the accommodating mechanism so as to extend out of the accommodating mechanism through the opening, and battery disassembling and assembling operations are carried out on the vehicle parked on the parking mechanism.

Optionally, the opening and closing mechanism includes one of a bidirectional door opening structure and a single-side door opening structure.

Optionally, the opening and closing mechanism includes one of a single-layer bin gate structure and a multi-layer linkage layer gate structure.

Optionally, the battery removing mechanism may be raised or lowered relative to the accommodating mechanism to switch between an operating state and a non-operating state, wherein when the battery removing mechanism is in the operating state, the battery removing mechanism may protrude out of the accommodating mechanism through the opening, and when the battery removing mechanism is in the non-operating state, the battery removing mechanism is integrally accommodated in the accommodating mechanism.

Optionally, when the opening and closing mechanism closes the opening of the accommodating mechanism, the vehicle can be driven into or out of the parking mechanism.

Optionally, the parking mechanism further comprises a wheel positioning device for positioning the wheel of the vehicle to park the vehicle on the parking mechanism.

Optionally, the battery replacement platform further comprises a vehicle lifting mechanism, which is arranged in the accommodating mechanism and used for slightly lifting the vehicle parked on the parking mechanism, so that the vehicle is horizontally arranged in parallel.

Optionally, the battery replacement platform further comprises a vehicle lifting mechanism, which is arranged on the parking mechanism and used for slightly lifting and parking the vehicle on the parking mechanism, so that the vehicle is horizontally arranged in parallel.

Optionally, the vehicle lifting mechanism slightly lifts the wheel alignment device to enable the vehicle to be horizontally arranged in parallel.

Optionally, the vehicle lifting mechanism comprises one of a scissor lift, a screw lift, and a hydraulic jack lift.

Optionally, the parking mechanism includes a first parking sub-mechanism and a second parking sub-mechanism, and the accommodating mechanism is formed naturally by the first parking sub-mechanism and the second parking sub-mechanism which are independently arranged.

Optionally, the battery removal mechanism comprises a rail guided trolley.

A second aspect of the present application provides a power swapping station, including:

the battery replacement platform of the first aspect is used for installing or detaching a battery on or from a vehicle;

a battery storage mechanism for storing a battery;

and the battery connection mechanism is connected with the battery replacing platform and the battery storage mechanism and is used for transmitting batteries between the battery replacing platform and the battery storage mechanism.

Optionally, the battery storage mechanism includes two battery storage racks and a lifting device disposed between the two battery storage racks.

Optionally, the battery storage rack includes a plurality of battery compartments arranged in a stacked manner, and the lifting device can be lifted along a vertical direction of the battery storage rack to be in butt joint with one of the plurality of battery compartments.

Optionally, the battery replacement station further includes a charging device separately disposed in each battery compartment, and configured to electrically connect the battery stored in each battery compartment for charging.

Optionally, the battery storage mechanism includes a lifting device and a plurality of battery storage racks arranged side by side on a single side of the lifting device, and the lifting device is movable along a horizontal direction of the battery storage racks to be in butt joint with one of the plurality of battery storage racks.

A third aspect of the present application provides a battery swapping method, which is applied to the battery swapping platform of the first aspect, and the method includes: controlling the opening and closing mechanism to close the opening of the accommodating mechanism so that the vehicle can drive into the parking mechanism; after the vehicle is parked on the parking mechanism, the opening and closing mechanism is controlled to open the opening of the accommodating mechanism; controlling the battery mounting and dismounting mechanism to be switched from a non-operation state to an operation state so as to protrude from the accommodating mechanism through the opening, and performing battery mounting and dismounting operation on the vehicle; after the battery detaching mechanism completes the battery detaching operation for the vehicle, controlling the battery detaching mechanism to switch from the operating state to the non-operating state to be completely housed in the housing mechanism; and controlling the opening and closing mechanism to close the opening of the accommodating mechanism so that the vehicle can drive away from the parking mechanism.

Optionally, after the vehicle is parked on the parking mechanism and before the opening and closing mechanism is controlled to open the opening of the accommodating mechanism, the method further comprises controlling a wheel alignment device to align wheels of the vehicle so that the vehicle is aligned on the parking mechanism.

Optionally, after the vehicle is parked on the parking mechanism and before the battery dismounting mechanism performs the battery dismounting operation on the vehicle, the method further comprises controlling a vehicle lifting mechanism to slightly lift the vehicle positioned on the parking mechanism so as to enable the vehicle to be horizontally arranged in parallel.

It can be seen from the above technical solution that, the battery replacing platform provided in the embodiment of the present application shifts the battery disassembling and assembling mechanism to the accommodating mechanism below the parking mechanism, and the battery disassembling and assembling mechanism can be lifted relative to the accommodating mechanism to extend out of the accommodating structure to perform the battery disassembling and assembling operation on the vehicle on the parking platform, after the battery disassembling and assembling operation is completed, the battery disassembling and assembling mechanism can be lowered relative to the accommodating mechanism to be integrally accommodated in the accommodating mechanism, so that an operation space does not need to be reserved for the battery disassembling and assembling mechanism, when the battery disassembling and assembling operation is performed on the vehicle, the vehicle lifting mechanism only needs to slightly lift the vehicle to be in a horizontal parallel state, a driver and a passenger do not need to leave the vehicle, the battery replacing experience of a vehicle owner can be improved, the total consumption of the battery replacing operation of the vehicle is reduced, and the safety of the battery replacing operation.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the embodiments of the present application, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic diagram of an overall architecture of a conventional battery swapping platform;

fig. 2 is a schematic overall architecture diagram of a power swapping platform according to a first embodiment of the present application;

fig. 3 is an exploded schematic view of a swapping platform according to a first embodiment of the present application;

fig. 4A to 4D are schematic diagrams illustrating an embodiment of the opening and closing mechanism for opening and closing the opening of the accommodating mechanism according to the first embodiment of the present application;

FIGS. 5A and 5B are schematic diagrams of an embodiment of a vehicle lifting mechanism according to a first embodiment of the present disclosure;

FIG. 6 is a schematic view of another embodiment of a vehicle lift mechanism according to the first embodiment of the present application;

fig. 7A to 7C are schematic diagrams of different embodiments of a swapping station according to a second embodiment of the present application;

fig. 8A and 8B are schematic diagrams illustrating a power swapping method according to a third embodiment of the present application;

fig. 9 is a flowchart illustrating a battery swapping method according to a third embodiment of the present application.

Element number

1: a battery replacement platform; 11: a parking platform; 12: a vehicle lift; 13: a wheel alignment mechanism; 14: a rail guide trolley; 2: a battery replacement platform; 21: a parking mechanism; 21A, a first parking sub-mechanism; 21B: a second parking sub mechanism; 211: a wheel alignment device; 22: an accommodating mechanism; 221: an opening; 23: an opening and closing mechanism; 231. 232: a bin gate; 24: a battery mounting and dismounting mechanism; 25: a vehicle lifting mechanism; 3: a power change station; 31: an electrical room; 32: a control room; 4: a battery storage mechanism; 41A, 41B: a battery storage rack; 411: a battery compartment; 42: a lifting device; 5: a battery connection mechanism; 6: vehicle with a steering wheel

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the embodiments of the present application, the technical solutions in the embodiments of the present application will be described clearly and completely below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application shall fall within the scope of the protection of the embodiments in the present application.

The following further describes a specific implementation of the embodiments of the present application with reference to the drawings of the embodiments of the present application.

First embodiment

As shown in fig. 2 and 3, a first embodiment of the present application provides a battery replacement platform 2, which mainly includes a parking mechanism 21, a receiving mechanism 22, an opening and closing mechanism 23, and a battery disassembling and assembling mechanism 24.

The parking mechanism 21 is used to park the vehicle.

Optionally, the parking mechanism 21 further has a wheel alignment device 211 for aligning the wheels of the vehicle so that the vehicle can be stably parked on the parking mechanism 21.

The housing mechanism 22 is provided below the vehicle parked in the parking mechanism 21 and has an opening 211.

In the present embodiment, the parking mechanism 21 includes a first parking sub-mechanism 21A and a second parking sub-mechanism 21B, and the accommodating mechanism 22 is formed naturally by the first parking sub-mechanism 21A and the second parking sub-mechanism 21B which are independently provided.

The opening and closing mechanism 23 is disposed on the accommodating mechanism 22 and can move relative to the accommodating mechanism 22 to open or close the opening 221 of the accommodating mechanism 22.

Optionally, the opening and closing mechanism 23 may include at least one door, and the opening and closing mechanism 23 may slide relative to the accommodating mechanism 22 to open or close the opening of the accommodating mechanism 22.

Referring to fig. 4A and 4B, in the present embodiment, the opening and closing mechanism 23 may be a two-way opening structure formed by two doors 231 and 232, or may be designed as a one-side opening structure.

In another embodiment, the opening and closing mechanism 23 may be designed as a single-layer door structure including a single-layer panel (i.e., the embodiment shown in fig. 4A and 4B), or the opening and closing mechanism 23 may be designed as a multi-layer linkage door structure including a plurality of layers of panels (e.g., the embodiment shown in fig. 4C and 4D), wherein the single-layer door structure is simple in design and can reduce the manufacturing cost, and the multi-layer linkage door structure can reduce the occupied space of the opening and closing mechanism 23 in the open state.

In addition, the material requirements of the doors 231 and 232 in the opening and closing mechanism 23 are not limited in this application, and may be made of a material with sufficient hardness, or may be designed as a soft material door (e.g., a retractable door, a roller shutter door, etc.).

In the present embodiment, when the opening/closing mechanism 23 opens the opening 221 of the accommodating mechanism 22, the accommodating mechanism 22 and the parking mechanism 21 located above the accommodating mechanism 22 can be communicated with each other; when the opening/closing mechanism 23 closes the opening 221 of the accommodating mechanism 22, the accommodating mechanism 22 and the parking mechanism 21 are isolated from each other by the opening/closing mechanism 23.

The battery detaching mechanism 24 is provided in the accommodating mechanism 22 and is liftable relative to the accommodating mechanism 22.

Optionally, the battery disassembly and assembly mechanism 24 includes a rail guided vehicle.

In the present embodiment, when the opening/closing mechanism 23 opens the opening 221 of the accommodating mechanism 22, the battery detaching mechanism 24 can be lifted relative to the accommodating mechanism 22 to protrude from the accommodating mechanism 22 through the opening 221, and perform a battery detaching operation for a vehicle parked on the parking mechanism 21.

Specifically, the battery detaching mechanism 24 is movable up and down with respect to the accommodating mechanism 22 to switch between an operating state and a non-operating state, wherein when the opening/closing mechanism 23 opens the opening 221 of the accommodating mechanism 22, the battery detaching mechanism 24 is movable up with respect to the accommodating mechanism 22 to switch to the operating state, in which at least a part of the battery detaching mechanism 24 is allowed to protrude out of the accommodating mechanism 22 through the opening 221, thereby performing a battery detaching operation with respect to a vehicle parked on the parking mechanism 21.

In another embodiment, when the opening/closing mechanism 23 closes the opening 221 of the accommodating mechanism 22, the battery disassembling/assembling mechanism 24 can be in a non-operating state, in which the battery disassembling/assembling mechanism 24 is integrally accommodated in the accommodating mechanism 22.

In the present embodiment, when the opening/closing mechanism 23 closes the opening 221 of the accommodating mechanism 22, the vehicle can be driven into or out of the parking mechanism 21.

In another embodiment, the battery swapping platform 2 further includes a vehicle lifting mechanism 25.

As shown in fig. 5A and 5B, in an embodiment, the vehicle lifting mechanism 25 is disposed in the accommodating mechanism 22 and can be lifted and lowered relative to the accommodating mechanism 22.

As shown in fig. 5A, when the opening/closing mechanism 23 closes the opening 221 of the housing mechanism 22, the vehicle lift mechanism 25 is entirely housed in the housing mechanism 22.

As shown in fig. 5B, when the opening/closing mechanism 23 opens the opening 221 of the accommodating mechanism 22, the vehicle lifting mechanism 25 can be lifted relative to the accommodating mechanism 22 to extend out of the accommodating mechanism 22 through the opening 221 and slightly lift the vehicle 6 parked on the parking mechanism 21, so that the vehicles 6 are horizontally arranged in parallel.

As shown in fig. 6, in another embodiment, a vehicle lifting mechanism 25 may also be disposed on the parking mechanism 21 for slightly lifting the vehicle 6 parked on the parking mechanism 21, so that the vehicles 6 are horizontally arranged in parallel.

In other embodiments, the vehicle lifting mechanism 25 can also slightly lift the wheel alignment device 211 to make the vehicle in a horizontal parallel arrangement.

In the embodiment, the vehicle lifting mechanism 25 may be a scissor lift, a screw lift, a hydraulic jack lift, etc., but not limited thereto, and other mechanical arrangements for lifting the vehicle may be applicable, and the application is not limited thereto.

Second embodiment

The second embodiment of the present application provides a swapping station 3.

As shown in fig. 7A to 7C, the battery swapping station 3 according to the embodiment of the present application mainly includes the battery swapping platform 2, the battery storage mechanism 4, and the battery docking structure 5 according to the first embodiment.

In this embodiment, the battery replacing platform 2 is used for installing or detaching a battery on or from the vehicle 6, the battery storage mechanism 4 is used for storing the battery, and the battery docking mechanism 5 is connected with the battery replacing platform 2 and the battery storage mechanism 4 and used for transferring the battery between the battery replacing platform 2 and the battery storage mechanism 4.

In this embodiment, the battery storage mechanism 4 may include two battery storage shelves 41A,41B and a lifting device 42 disposed between the two battery storage shelves 41A, 41B.

Alternatively, each of the battery storage shelves 41A and 41B includes a plurality of battery compartments 411 arranged in a stacked manner, and the lifting device 42 can be lifted and lowered in the vertical direction of the battery storage shelves 41A and 41B to be abutted against one of the plurality of battery compartments 411.

Alternatively, a plurality of battery storage shelves 41A,41B may be arranged side by side on a single side of the elevating device 42, and the elevating device 42 may be moved in the horizontal direction of the battery storage shelves 41A,41B to be docked with one of the plurality of battery storage shelves 41A, 41B.

For example, a guide rail may be additionally installed below the lifting device 42, so that the lifting device 42 can move between the plurality of battery storage racks 41A and 41B arranged side by side along the guide rail, thereby expanding the capacity of the battery compartment 411.

The battery docking mechanism 5 may be implemented by various structural designs, for example, the battery docking mechanism 5 may be a roller transmission line, a chain transmission line, a belt transmission line, or other transmission mechanisms, but not limited thereto, and the battery docking mechanism 5 may also be shown by a way of matching a guide rail with a docking car, which is not limited in this application.

In another embodiment, the battery replacing station 3 may further include a charging device (not shown) separately disposed in each battery compartment 411 for electrically connecting the batteries stored in each battery compartment 411 for charging.

Referring to fig. 7A and 7B, in another embodiment, the charging station 3 may further be configured with an electrical room 31 and a control room 32, wherein the electrical room 31 is responsible for charging control and management of each charging device, and the control room 32 is responsible for motion logic control of each component in the entire charging station 3.

Third embodiment

Fig. 9 shows main steps of a battery swapping method according to a third embodiment of the present application, where the battery swapping method provided in the embodiment of the present application is implemented by the battery swapping platform 2 according to the first embodiment, and mainly includes the following steps:

in the present embodiment, the vehicle lifting mechanism 25 is disposed in the accommodating mechanism 22 as an example.

In step S91, the opening and closing mechanism 23 of the battery changing platform 2 is controlled to close the opening 221 of the accommodating mechanism 22, so that the vehicle 6 can enter and stop on the parking mechanism 21.

In the present embodiment, the wheel alignment device 211 can be used to align the wheels of the vehicle 6, so that the vehicle 6 is positioned at the designated position of the parking mechanism 21.

In step S92, after the vehicle 6 is positioned on the parking mechanism 21, the opening/closing mechanism 23 of the battery replacement platform 11 is controlled to open the opening 221 of the accommodating mechanism 22.

In step S93, the vehicle lifting mechanism 25 is controlled to lift relative to the accommodating mechanism 22 to slightly lift the vehicle 6 on the parking mechanism 21, so that the vehicle 6 is horizontally arranged in parallel (as shown in fig. 8A).

In step S94, after the vehicle reaches the horizontally parallel arrangement state, the battery attachment/detachment mechanism 24 is controlled to be lifted relative to the housing mechanism 22, switched from the non-operation state to the operation state to protrude from the housing mechanism 22 via the opening 221, and the battery attachment/detachment operation is performed with respect to the vehicle 6 (the state shown in fig. 8B).

In step S95, after the battery mounting/dismounting operation is completed for the vehicle 6, the battery mounting/dismounting mechanism 24 is first controlled to descend relative to the accommodating mechanism 22 to switch from the operating state to the non-operating state, and the vehicle lifting mechanism 25 is then controlled to descend relative to the accommodating mechanism 22 so that the vehicle 6 is lowered back onto the parking mechanism 21.

In step S96, the opening/closing mechanism 23 is controlled to close the opening 221 of the accommodating mechanism 22, so that the vehicle 6 can drive away from the parking mechanism 21.

To sum up, the electricity changing platform that this application embodiment provided through set up the receiving mechanism in parking mechanism below to shift battery dismouting mechanism to the below of parking mechanism, when receiving mechanism is in the closed condition, can provide the vehicle and drive in or drive away from parking mechanism, when the vehicle stops on parking mechanism, the accessible opens receiving mechanism, so that battery dismouting mechanism stretches out and carries out the battery dismouting operation to the vehicle from receiving mechanism. Borrow this, this application need not to reserve the removal space for battery dismouting mechanism on parking mechanism (parking platform), make when carrying out battery dismouting operation, only need slightly lift the vehicle, make the vehicle be horizontal parallel arrangement state can, therefore, driver and crew need not to leave the vehicle and can accomplish the battery and change, can improve car owner's the experience of trading, and compare in prior art need lift the vehicle by a wide margin to predetermineeing the height, the unexpected tenesmic risk of vehicle can be showing to reduce this application embodiment, the security of trading electric operation has been improved, and can reduce the total consuming time of vehicle trade electric operation.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the embodiments of the present application, and are not limited thereto; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (17)

1. The utility model provides a trade electric platform which characterized in that includes:

a parking mechanism for parking the vehicle;

an accommodating mechanism provided below the vehicle parked at the parking mechanism and having an opening;

the opening and closing mechanism is arranged on the accommodating mechanism and can move relative to the accommodating mechanism to open or close the opening of the accommodating mechanism; and

the battery disassembling and assembling mechanism is arranged in the accommodating mechanism and can lift relative to the accommodating mechanism;

when the opening and closing mechanism opens the opening of the accommodating mechanism, the battery disassembling and assembling mechanism can be lifted relative to the accommodating mechanism so as to extend out of the accommodating mechanism through the opening, and battery disassembling and assembling operations are carried out on the vehicle.

2. The swapping platform of claim 1, wherein the opening and closing mechanism comprises one of a two-way door opening structure and a one-sided door opening structure.

3. The battery swapping platform of claim 1, wherein the opening and closing mechanism comprises one of a single-layer bin gate structure and a multi-layer linkage layer gate structure.

4. The swapping platform of claim 1, wherein the battery removal mechanism is raised or lowered relative to the receptacle mechanism to switch between an operational state and a non-operational state, wherein the battery removal mechanism is extendable out of the receptacle mechanism through the opening when the battery removal mechanism is in the operational state, and wherein the battery removal mechanism is entirely housed in the receptacle mechanism when the battery removal mechanism is in the non-operational state.

5. The battery replacement platform according to claim 4, wherein when the opening and closing mechanism closes the opening of the accommodating mechanism, the vehicle can be driven into or out of the parking mechanism.

6. The swapping platform of claim 1, wherein the parking mechanism further comprises:

a wheel alignment device for aligning a wheel of the vehicle to park the vehicle on the parking mechanism.

7. The battery replacement platform according to claim 6, further comprising a vehicle lifting mechanism disposed in the accommodating mechanism for slightly lifting the vehicle parked on the parking mechanism so as to horizontally and parallelly arrange the vehicles.

8. The battery swapping platform of claim 6, further comprising a vehicle lifting mechanism disposed on the parking mechanism for slightly lifting the vehicle parked on the parking mechanism so as to enable the vehicle to be horizontally arranged in parallel.

9. The battery swapping platform of claim 8, wherein the vehicle lifting mechanism slightly lifts the wheel positioning device to horizontally and parallelly arrange the vehicle.

10. The swapping platform of any of claims 7-9, wherein the vehicle lifting mechanism comprises one of a scissor lift, a screw lift, a hydraulic jack lift.

11. The battery replacement platform as claimed in claim 1, wherein the parking mechanism comprises a first parking sub-mechanism and a second parking sub-mechanism, and the accommodating mechanism is formed naturally by the first parking sub-mechanism and the second parking sub-mechanism which are independently arranged.

12. The swapping platform of claim 1, wherein the battery removal mechanism comprises a rail guided cart.

13. A power swapping station, comprising:

the swapping platform of any of claims 1-12, to provide for the installation or removal of a battery on a vehicle;

a battery storage mechanism for storing a battery; and

and the battery connection mechanism is connected with the battery replacing platform and the battery storage mechanism and is used for transmitting batteries between the battery replacing platform and the battery storage mechanism.

14. The power station of claim 13, wherein the battery storage mechanism comprises two battery storage racks and a lifting device disposed between the two battery storage racks.

15. The power station of claim 13, wherein the battery storage mechanism comprises a plurality of battery storage racks arranged side by side on a single side of the lifting device and a lifting device movable in a horizontal direction of the battery storage racks to interface with one of the plurality of battery storage racks.

16. The battery changing station as recited in any one of claims 14 or 15, wherein the battery storage rack comprises a plurality of battery compartments arranged in a stacked arrangement, and the lifting device is liftable in a vertical direction of the battery storage rack to interface with one of the plurality of battery compartments.

17. The battery swapping station of claim 16, further comprising a charging device separately disposed in each battery compartment for electrically connecting the batteries stored in each battery compartment for charging.

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