CN217048243U - Storage battery hooking and releasing assembly and vehicle - Google Patents

Abstract

The utility model discloses a storage battery hooking and placing assembly and a vehicle, wherein the storage battery hooking and placing assembly comprises a hooking and placing frame, at least one tipping driving structure, a circuit breaker and a containing box, the hooking and placing frame is arranged between a bearing frame and a storage battery, and the hooking and placing frame is rotatably connected with the bearing frame; the side, facing the storage battery, of the hooking frame is provided with a first connecting part, and the side, facing the bearing frame, of the hooking frame is provided with a mortise lock mechanism; the two opposite ends of the tipping driving structure are respectively hinged to the hooking frame and the bearing frame, and the tipping driving structure can push and pull the hooking frame to be far away from or close to the bearing frame; the circuit breaker is used for communicating the storage battery and a main cable of the vehicle body for connection; the accommodating box is provided with a first cavity and a second cavity which are used for accommodating the storage battery and the circuit breaker respectively, the upper portion of the accommodating box is provided with a second connecting portion which is detachably connected with the first connecting portion, and the lower portion of the accommodating box is provided with a mortise hole matched with the mortise lock mechanism for use. The utility model discloses a battery colludes puts assembly and vehicle solves the problem of battery dismouting difficulty.

Description

Storage battery hooking and releasing assembly and vehicle

Technical Field

The utility model relates to a colliery is transportation equipment technical field in the pit, more specifically relates to a battery colludes puts assembly and vehicle.

Background

The frame type support carrier is used for carrying hydraulic supports of a fully mechanized coal mining face in a coal mine, takes a storage battery as a power source, can solve the problem of air pollution, and is limited in heavy-load running distance due to the capacity of the storage battery. After the storage battery is in power shortage, the storage battery needs to be stopped and charged on the ground, for example, an explosion-proof special lead-acid storage battery is 10 tons in weight, and the storage battery needs 12 hours when being fully charged, so that the running efficiency of a vehicle is seriously influenced.

The plurality of storage batteries are used in turn, so that the influence on the running efficiency of the vehicle can be avoided. The battery is mounted on the vehicle's carrier, however, the battery is very heavy and is not easily mounted and dismounted.

Therefore, a battery hooking assembly and a vehicle are needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a battery hooking assembly and a vehicle, so as to solve the problem of difficulty in assembling and disassembling the battery.

Based on above-mentioned purpose the utility model provides a pair of battery colludes puts assembly, include:

the hooking frame is arranged between the bearing frame and the storage battery and is rotatably connected with the bearing frame; the side, facing the storage battery, of the hooking frame is provided with a first connecting part, and the side, facing the bearing frame, of the hooking frame is provided with a mortise lock mechanism;

the two opposite ends of the tipping driving structure are respectively hinged to the hooking frame and the bearing frame, and the tipping driving structure can push and pull the hooking frame to be far away from or close to the bearing frame;

the circuit breaker is used for communicating the storage battery and a main cable of the vehicle body for connection;

the storage battery box comprises a storage box body, a storage battery and a circuit breaker, and is characterized by further comprising a containing box, wherein the containing box is provided with a first cavity and a second cavity which are used for containing the storage battery and the circuit breaker respectively, the upper portion of the containing box is provided with a second connecting portion which can be detachably connected with the first connecting portion, and the lower portion of the containing box is provided with a mortise hole matched with the mortise lock mechanism for use.

Optionally, the mortise lock mechanism includes a movable lock rod and a lock rod driving structure, the movable lock rod and the lock rod driving structure are both disposed on the hooking frame, the lock rod driving structure is connected with the movable lock rod, and can drive the movable lock rod to enter or exit the mortise lock hole.

Optionally, the movable lock rod comprises a guide sleeve and a lock rod movably connected to the guide sleeve, the guide sleeve is arranged on the hooking frame, and the lock rod is connected with the lock rod driving structure.

Optionally, two opposite ends of the locking rod driving structure are respectively hinged to the hooking frame and the locking rod.

Optionally, an indication rod is arranged on the lock rod, a guide hole is arranged on the first connecting portion, and the indication rod penetrates through the guide hole.

Optionally, the circuit breaker and the car body main cable are both provided with cable connectors, and a cable is detachably connected between the two cable connectors.

Optionally, the hooking and placing frame comprises a butt plate and connecting plates respectively extending from two opposite sides of the butt plate, the first connecting portion and the mortise lock mechanism are both arranged on the butt plate, a first hinge portion is arranged at the upper portion of the connecting plate, the first hinge portion is hinged to the tipping drive structure, a second hinge portion is arranged at the lower portion of the connecting plate, and the second hinge portion is hinged to the bearing frame.

Optionally, a support plate extends from the abutting plate, and the support plate is used for supporting the accommodating box.

In addition, optionally, the first connecting portion is a hook rod, the second connecting portion is a nesting hole, and the hook rod can enter or exit the nesting hole.

The utility model discloses still provide a vehicle, the vehicle includes that above-mentioned battery colludes puts the assembly.

From the foregoing, the utility model provides a battery colludes puts assembly and vehicle compares with prior art, has following advantage: by adopting the storage battery hooking and releasing assembly, the storage battery is accommodated in the accommodating box, then the accommodating box is connected with the bearing frame through the hooking and releasing frame, the accommodating box can be extracted to be separated from the ground by utilizing the driving of the tilting driving structure, or the accommodating box is released to be contacted with the ground, so that the difficulty in taking and releasing the storage battery is reduced; adopt mortise lock mechanism and mortise lock hole cooperation simultaneously, can realize holding the case and colluding the lock solid and the contact lock solid of putting the frame, and then improve the connection stability who holds the case. The storage batteries are placed in different containing boxes by preparing a plurality of groups of storage batteries, the storage battery containing boxes filled with full electricity are hooked, and the storage battery containing boxes lacking electricity are released, so that the vehicle body can continuously obtain power supply.

Drawings

The above features and technical advantages of the present invention will become more apparent and readily appreciated from the following description of the embodiments thereof taken in conjunction with the accompanying drawings.

Fig. 1 is a schematic view of a usage status of a battery hooking and releasing assembly adopted in an embodiment of the present invention.

Fig. 2 is another schematic diagram of the battery hooking assembly shown in fig. 1 in another use state.

Fig. 3 is a schematic view of the hooking bracket of the battery hooking assembly shown in fig. 1.

Fig. 4 is a side view of the hooking bracket shown in fig. 3.

Fig. 5 is a schematic view of the receiving box of the battery hooking bracket shown in fig. 1.

Fig. 6 is a side view of the receiving box shown in fig. 5.

Fig. 7 is a schematic view of a cable connector of the battery hooking assembly shown in fig. 1.

Wherein the reference numbers:

1. an accommodating box; 2. a first cable connector; 3. a cable; 4. a second cable connector; 5. a latch hole; 6. embedding a sleeve hole; 7. a butt joint plate; 8. a circuit breaker; 9. a tip-over drive structure; 10. a lock bar driving structure; 11. a mortise lock mechanism; 12. a lower pin hole; 13. an upper pin hole; 14. an indication lever; 15. a hooking rod; 16. a carrier; 17. a guide sleeve; 18. hooking the frame; 19. a vehicle body main cable; 20. and (4) a storage battery.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings. The terms "inner" and "outer" are used to refer to directions toward and away from, respectively, the geometric center of a particular component.

Fig. 1 is a schematic view of a usage status of the battery hooking assembly adopted in the embodiment of the present invention. Fig. 2 is another schematic usage state diagram of the battery hooking assembly shown in fig. 1. Fig. 3 is a schematic view of a hooking bracket of the battery hooking assembly shown in fig. 1. Fig. 4 is a side view of the hooking bracket shown in fig. 3. Fig. 5 is a schematic view of the receiving box of the battery hooking bracket shown in fig. 1. Fig. 6 is a side view of the receiving box shown in fig. 5. As shown in fig. 1 to 6, the battery hooking assembly includes a hooking bracket 18, at least one tilt driving structure 9, a circuit breaker 8, and a receiving box 1.

The hooking frame 18 is arranged between the bearing frame 16 and the storage battery 20, and the hooking frame 18 is rotatably connected with the bearing frame 16; the hooking frame 18 is provided with a first connecting part facing the side of the storage battery 20, and the hooking frame 18 is provided with a mortise lock mechanism 11 facing the side of the bearing frame 16;

opposite ends of the tipping drive structure 9 are respectively hinged to the hooking frame 18 and the bearing frame 16, and the tipping drive structure 9 can push the hooking frame 18 to be far away from or close to the bearing frame 16;

the breaker 8 is used for communicating the storage battery 20 with a main cable of the vehicle body;

the accommodating box 1 is provided with a first cavity and a second cavity which are used for accommodating the storage battery 20 and the circuit breaker 8 respectively, the upper portion of the accommodating box 1 is provided with a second connecting portion detachably connected with the first connecting portion, and the lower portion of the accommodating box 1 is provided with a mortise hole 5 matched with the mortise lock mechanism 11 for use.

The charged storage battery 20 and the charged circuit breaker 8 are respectively placed in a first cavity and a second cavity of the containing box 1; the hooking frame 18 is placed between the accommodating box 1 and the bearing frame 16, the bottom of the hooking frame 18 is rotatably connected with the bottom of the bearing frame 16, and two ends of the tipping driving structure 9 are respectively hinged to the top of the hooking frame 18 and the top of the bearing frame 16; the extraction process of the storage battery 20: the circuit breaker 8 is connected with a main cable of the vehicle body and supplies power to the vehicle body, the tilting driving structure 9 extends to push the top of the hooking frame 18 to be far away from the bearing frame 16, so that a first connecting part on the hooking frame 18 is connected with a second connecting part on the accommodating box 1, then the tilting driving structure 9 is shortened, the top of the hooking frame 18 is close to the bearing frame 16, and the accommodating box 1, the storage battery 20 in the accommodating box 1 and the circuit breaker 8 are carried to be lifted off the ground; then, the mortise lock mechanism 11 is driven to enter the mortise lock hole 5, so that the storage box 1 and the hooking frame 18 are locked, and the storage battery 20 is hooked. Battery 20 detachment process: the mortise lock mechanism 11 is driven to withdraw from the mortise hole 5, the locking of the accommodating box 1 and the hooking frame 18 is released, the tilting driving structure 9 extends, the top of the hooking frame 18 is pushed to be away from the bearing frame 16, the accommodating box 1 and the storage battery 20 and the circuit breaker 8 in the accommodating box 1 are carried to be in contact with the ground, the first connecting part and the second connecting part on the hooking frame 18 are separated, and the circuit breaker 8 is separated from a main cable of the vehicle body. The storage battery 20 is charged, and the hooking and releasing frame 18 and other containing boxes 1 which are provided with the charged storage battery 20 continue to operate after the extraction process is finished.

By adopting the storage battery 20 hooking and releasing assembly, the storage battery 20 is accommodated in the accommodating box 1, then the accommodating box 1 is connected with the bearing frame 16 through the hooking frame 18, and the hooking frame 18 can extract the accommodating box 1 to be separated from the ground or release the accommodating box 1 to be contacted with the ground by using the driving of the tipping driving structure 9, so that the difficulty in taking and placing the storage battery 20 is reduced; meanwhile, the mortise lock mechanism 11 is matched with the mortise lock hole 5, so that the locking and contact locking of the accommodating box 1 and the hooking frame 18 can be realized, and the connection stability of the accommodating box 1 is further improved. By preparing a plurality of sets of storage batteries 20 to be placed in different accommodating boxes 1, the accommodating box 1 containing the storage battery 20 with power shortage is released by hooking the accommodating box 1 containing the storage battery 20 with power shortage, so that the vehicle body can be continuously supplied with power.

In this embodiment, the number of the tilting drive structures 9 is two, two tilting drive structures 9 are both disposed on the hooking frame 18 and located between the first connecting portion and the mortise lock mechanism 11, and the two tilting drive structures 9 are distributed oppositely in the width direction of the hooking frame 18 and extend and retract synchronously.

In this embodiment, the tilt driving mechanism 9 may be a telescopic cylinder, and two ends of the telescopic cylinder are respectively hinged to the bearing frame 16 and the hooking frame 18.

In this embodiment, hold case 1 for opening the structure, first cavity and second cavity are relatively independent space, and the second cavity can set up along the direction of height slope of first cavity, when holding case 1 and lifting or falling down, can avoid circuit breaker 8 to follow the internal slippage of second cavity.

Optionally, the hooking and releasing frame 18 comprises a butt plate 7 and connecting plates respectively extending from two opposite sides of the butt plate 7, the first connecting part and the mortise lock mechanism 11 are both disposed on the butt plate 7, the upper part of the connecting plate is provided with a first hinge part, the first hinge part is hinged to the tipping drive structure 9, the lower part of the connecting plate is provided with a second hinge part, and the second hinge part is hinged to the bearing frame 16.

In this embodiment, the upper portion of the connecting plate is provided with an upper pin hole 13, at least one set of upper ear seats is arranged between the two upper pin holes 13, and the tilting driving structure 9 is hinged with the upper ear seats.

In this embodiment, the lower portion of the connecting plate is provided with lower pin holes 12, at least two sets of lower lug seats which are opposite and spaced apart from each other are disposed between the two lower pin holes 12, and the bearing frame 16 is provided with a hinge rod, and the hinge rod penetrates through the lower pin holes 12 and the lower lug seats, so as to rotatably connect the hooking frame 18 and the bearing frame 16. When the tilt drive mechanism 9 is extended, the hooking bracket 18 is pivoted about the bearing bracket 16 within a certain range about the hinge rod.

Optionally, a support plate extends from the abutment plate 7 and supports the container 1. When the first connecting portion and the second connecting portion are connected, the supporting plate can provide a supporting function for the accommodating box 1, so that the accommodating box 1 and the hooking frame 18 can be stably connected together.

In this embodiment, the supporting plate is far away from the abutting plate 7 and is set as a guiding end, so that the supporting plate can be conveniently taken out or released to accommodate the box 1.

Optionally, the first connecting part is a hook rod 15, the second connecting part is a nesting hole 6, and the hook rod 15 can enter or exit the nesting hole 6. The hooking rod 15 can enter the embedding hole 6 to realize the connection between the hooking frame 18 and the accommodating box 1; the hook rod 15 can also be withdrawn from the nesting hole 6, so as to realize the separation of the hooking frame 18 and the containing box 1. The first connecting portion and the second connecting portion can be quickly connected or separated, and when the two are connected together, a stable connection state can be maintained.

In the embodiment, the hooking rod 15 is arranged on the top of the hooking frame 18, the nesting hole 6 is arranged on one side of the accommodating box 1 facing the hooking frame 18, and the nesting hole 6 is arranged on the top of the accommodating box 1.

Alternatively, the mortise lock mechanism 11 includes a moving lock bar and lock bar driving mechanism 10, the moving lock bar and lock bar driving mechanism 10 are both disposed on the hooking frame 18, and the lock bar driving mechanism 10 is connected to the moving lock bar and can drive the moving lock bar into or out of the mortise lock hole 5. The lock rod driving structure 10 drives the movable lock rod to move downwards, so that the movable lock rod enters the mortise hole 5, and the containing box 1 and the hooking frame 18 are locked; the locking rod driving mechanism 10 drives the movable locking rod to reset, so that the movable locking rod exits from the latch hole 5, and the locking between the accommodating box 1 and the hooking frame 18 is released. The mortise lock mechanism 11 has a simple structure, is easy to operate, and is convenient to switch the connection state.

In the present embodiment, the latch mechanism 11 is located between the two tilt driving mechanisms 9, and the latch mechanism 11 is disposed at the middle upper portion of the hooking frame 18, wherein the lock lever driving mechanism 10 is located relatively above, the moving lock lever is located relatively below, and the latch hole 5 is located at a position near the bottom of the accommodating case 1. The position of the containing box 1 close to the bottom extends to form a mounting plate, a mortise hole 5 is formed in the mounting plate, and the mounting plate passes through the bottom of the hooking frame 18, so that the movable lock rod is opposite to the mortise hole 5.

Alternatively, the movable locking bar includes a guide sleeve 17 and a locking bar movably connected to the guide sleeve 17, the guide sleeve 17 is disposed on the hooking bracket 18, and the locking bar is connected to the locking bar driving structure 10. The lock rod can move back and forth along the guide sleeve 17, and the lock rod driving structure 10 drives the lock rod to move down along the guide sleeve 17 so as to enter the mortise hole 5; the lock lever driving mechanism 10 drives the lock lever to be reset along the guide sleeve 17 to exit the latch hole 5. The movable lock rod is simple in structure, easy to operate and convenient to switch connection states.

Alternatively, the opposite ends of the locking rod driving mechanism 10 are hingedly connected to the hooking bracket 18 and the locking rod, respectively. The hinged connection is adopted, so that the locking rod driving structure 10 can conveniently drive and operate the locking rod.

In this embodiment, the locking rod driving mechanism 10 may employ a telescopic cylinder, and two ends of the telescopic cylinder are respectively connected to the hooking frame 18 and the locking rod in a hinged manner.

Optionally, the lock rod is provided with an indication rod 14, the first connecting portion is provided with a guide hole, and the indication rod 14 penetrates through the guide hole. The indication rod 14 penetrates through a guide hole, and the indication rod 14 is used for indicating whether the lock rod enters the insertion lock rod or not, so that a driver can know the locking effect at a driving position.

Fig. 7 is a schematic view of a cable connector of the battery 20 hook assembly shown in fig. 1. As shown in fig. 7, a cable connector is connected to the breaker 8.

Optionally, cable connectors are arranged on the circuit breaker 8 and the vehicle body main cable 19, and the cable 3 is detachably connected between the two cable connectors. The cable connectors are detachably connected to the cables 3, and different lengths of the cables 3 can be selected to be installed between the cable connectors to accommodate the distance between the accommodating case 1 and the vehicle body main cable 19.

In the present embodiment, the first cable connector 2 is connected to the left side of the cable 3, and is connected to the circuit breaker 8 through the first cable connector 2; the second cable connector 4 is connected to the right side of the cable, and is connected to the vehicle body main cable 19 through the second cable connector 4.

The use of the battery 20 hook assembly is described further below.

The storage battery 20 hooking assembly comprises a containing box 1, a hooking frame 18, a tipping driving mechanism, a mortise lock mechanism 11, a cable connector and a cable. The hooking bracket 18 is used for connecting the accommodating box 1 and the bearing bracket 16.

The charged storage battery 20 and the charged circuit breaker 8 are respectively placed in a first cavity and a second cavity of the containing box 1; the hooking frame 18 is placed between the accommodating box 1 and the bearing frame 16, the bottom of the hooking frame 18 is rotatably connected with the bottom of the bearing frame 16, and two ends of the tipping driving structure 9 are respectively hinged to the top of the hooking frame 18 and the top of the bearing frame 16; the extraction process of the storage battery 20: the circuit breaker 8 is connected with a main cable of the vehicle body and supplies power to the vehicle body, the tipping driving structure 9 extends to push the top of the hooking frame 18 to be far away from the bearing frame 16, so that the hooking rod 15 on the hooking frame 18 is connected with the nesting hole 6, then the tipping driving structure 9 is shortened, the top of the hooking frame 18 is close to the bearing frame 16, and the containing box 1, the storage battery 20 in the containing box 1 and the circuit breaker 8 are simultaneously carried to be lifted off the ground; then, the lock lever driving mechanism 10 drives the lock lever to move down along the guide sleeve 17 and enter the mortise lock hole 5, and the indication rod 14 extending from the guide hole can help a person in the cab to observe whether the mortise lock is in place. The locking of the containing box 1 and the hooking frame 18 is completed, that is, the hooking of the storage battery 20 is completed. Battery 20 detachment process: the lock rod driving structure 10 drives the lock rod to reset along the guide sleeve 17 so as to withdraw from the mortise hole 5, lock and fix of the accommodating box 1 and the hooking frame 18 are released, the tilting driving structure 9 extends, the top of the hooking frame 18 is pushed to be far away from the bearing frame 16, the accommodating box 1, the storage battery 20 in the accommodating box 1 and the circuit breaker 8 are carried to be in contact with the ground, the hook rod 15 on the hooking frame 18 is separated from the nesting hole 6, and the circuit breaker 8 is separated from a main cable of the vehicle body. The storage battery 20 is charged, and the hooking and releasing frame 18 and other containing boxes 1 which are provided with the charged storage battery 20 continue to operate after the extraction process is finished.

The utility model discloses still provide a vehicle, the vehicle includes like this battery colludes puts the assembly. The vehicle comprises a bearing frame, a storage battery and a storage battery hooking assembly.

From the above description and practice, the present invention provides a battery hooking assembly and a vehicle, which have the following advantages compared with the prior art: by adopting the storage battery hooking and releasing assembly, the storage battery is accommodated in the accommodating box, then the accommodating box is connected with the bearing frame through the hooking and releasing frame, the accommodating box can be extracted to be separated from the ground by utilizing the driving of the tilting driving structure, or the accommodating box is released to be contacted with the ground, so that the difficulty in taking and releasing the storage battery is reduced; adopt mortise lock mechanism and mortise lock hole cooperation simultaneously, can realize holding the case and colluding the lock solid and the contact lock solid of putting the frame, and then improve the connection stability who holds the case. Through preparing that the multiunit battery is placed in the container of difference, through colluding the battery container that is equipped with full electricity, the battery container that lacks the electricity is equipped with in the release for the automobile body can obtain the power supply in succession.

Those of ordinary skill in the art will understand that: the above description is only for the specific embodiments of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An assembly is put with colluding to battery, its characterized in that includes:

the hooking frame is arranged between the bearing frame and the storage battery and is rotatably connected with the bearing frame; the side, facing the storage battery, of the hooking frame is provided with a first connecting part, and the side, facing the bearing frame, of the hooking frame is provided with a mortise lock mechanism;

the two opposite ends of the tipping driving structure are respectively hinged to the hooking frame and the bearing frame, and the tipping driving structure can push and pull the hooking frame to be far away from or close to the bearing frame;

the circuit breaker is used for communicating the storage battery and a main cable of the vehicle body for connection;

the containing box is of an open structure, the containing box is provided with a first cavity and a second cavity which are used for containing the storage battery and the circuit breaker respectively, the first cavity and the second cavity are relatively independent spaces, the second cavity is arranged along the height direction of the first cavity in an inclined mode, the upper portion of the containing box is provided with a second connecting portion which is detachably connected with the first connecting portion, and the lower portion of the containing box is provided with a mortise hole matched with the mortise lock mechanism for use.

2. The battery hooking assembly of claim 1, wherein:

the mortise lock mechanism comprises a movable lock rod and a lock rod driving structure, the movable lock rod and the lock rod driving structure are arranged on the hooking frame, the lock rod driving structure is connected with the movable lock rod and can drive the movable lock rod to enter or exit the mortise lock hole.

3. The battery hooking assembly of claim 2, wherein:

the movable lock rod comprises a guide sleeve and a lock rod movably connected to the guide sleeve, the guide sleeve is arranged on the hooking frame, and the lock rod is connected with the lock rod driving structure.

4. The battery hooking assembly of claim 3, wherein:

the two opposite ends of the locking rod driving structure are respectively hinged with the hooking frame and the locking rod.

5. The battery hooking assembly according to any one of claims 2 to 4, wherein:

the lock rod is provided with an indicating rod, the first connecting portion is provided with a guide hole, and the indicating rod penetrates through the guide hole.

6. The battery hooking assembly according to any one of claims 1 to 4, wherein:

and cable connectors are arranged on the circuit breaker and the main cable of the vehicle body, and a cable is detachably connected between the two cable connectors.

7. The battery hooking assembly according to any one of claims 1 to 4, wherein:

the hooking and placing frame comprises a butt joint plate and connecting plates extending from two opposite sides of the butt joint plate respectively, the first connecting portion and the mortise lock mechanism are arranged on the butt joint plate, a first hinge portion is arranged on the upper portion of each connecting plate and is hinged with the tipping drive structure, a second hinge portion is arranged on the lower portion of each connecting plate and is hinged with the bearing frame.

8. The battery hooking assembly of claim 7, wherein:

a supporting plate extends out of the abutting plate and is used for supporting the accommodating box.

9. The battery hooking assembly of claim 8, wherein:

the first connecting portion are hook rods, the second connecting portion are nesting holes, and the hook rods can enter or exit the nesting holes.

10. A vehicle, characterized in that: the vehicle includes the battery hooking assembly of any one of claims 1 to 9.

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