CN113410568B

CN113410568B - Battery installing support and battery pack of intelligence location

Info

Publication number: CN113410568B
Application number: CN202110951593.XA
Authority: CN
Inventors: 张彬; 秦鑫; 申杰奋; 毕彦平; 高雪; 霍天赐
Original assignee: Xinxiang Medical University
Current assignee: Xinxiang Medical University
Priority date: 2021-08-19
Filing date: 2021-08-19
Publication date: 2021-12-14
Anticipated expiration: 2041-08-19
Also published as: CN113410568A

Abstract

The invention relates to the technical field of battery mounting brackets, in particular to an intelligent positioning battery mounting bracket and a battery assembly. A battery pack comprises a battery and an intelligently positioned battery mounting bracket, wherein the intelligently positioned battery mounting bracket comprises a base, a support shaft, a support spring, a swing arm, a swing shaft, a transmission belt, a transmission wheel and a lifting mechanism. The lifting mechanism comprises a sleeve, an adjusting piece, a lifting spring and a ratchet mechanism. According to the battery assembly, the battery is supported by the battery mounting bracket with the intelligent positioning function, the battery is mounted at the upper end of the swing arm, and the swing arm can be finally kept at a position closer to the vertical position, so that the final state of the swing arm is not influenced even if the base is mounted on the inclined ground, the overturning moment of the battery on the swing arm is small, and the battery is more stably mounted.

Description

Battery installing support and battery pack of intelligence location

Technical Field

The invention relates to the technical field of battery mounting brackets, in particular to an intelligent positioning battery mounting bracket and a battery assembly.

Background

The types of batteries are quite rich, and the batteries are generally divided into dry batteries, lead storage batteries and lithium batteries, the types of the batteries are selected according to different requirements, and for the lead-acid storage batteries, the lead-acid storage batteries are the storage batteries of which the electrodes are mainly made of lead and oxides thereof, and the electrolyte is sulfuric acid solution. In the discharge state of the lead-acid battery, the main component of the positive electrode is lead dioxide, and the main component of the negative electrode is lead; in a charged state, the main components of the positive electrode and the negative electrode are lead sulfate. Conventional lead acid batteries are susceptible to chemical reactions, elongation and combustion. However, most lead-acid batteries are heavy, and need to be supported by the mounting rack during the use of the lead-acid batteries, if the mounting rack is mounted on an inclined ground or other objects, the supporting surface of the mounting rack can be inclined, so that the batteries cannot be kept in a horizontal state, the inclination of the batteries can generate overturning moment on the mounting rack, the connection part of the batteries and the mounting rack is subjected to additional shearing force, the connection part of the mounting rack and the batteries is easy to damage, and the batteries are loosened.

Disclosure of Invention

The invention provides an intelligently positioned battery mounting bracket and a battery assembly, which aim to solve the problem that the existing battery mounting bracket can not keep a battery horizontal on an inclined ground.

The invention discloses an intelligent positioning battery mounting bracket and a battery assembly, which adopt the following technical scheme:

a battery component comprises a battery and an intelligently positioned battery mounting bracket, wherein the intelligently positioned battery mounting bracket comprises a base, a support shaft, a support spring, a swing arm, a swing shaft, a transmission belt, a transmission wheel and a lifting mechanism; the upper part of the base is provided with a strip-shaped sliding groove; the supporting shaft is arranged along the front-back direction, and the rear end of the supporting shaft is inserted into the sliding groove and is in sliding fit with the groove wall of the sliding groove; the supporting spring is arranged on the bottom wall of the sliding groove and used for supporting the supporting shaft; the upper end of the swing arm is rotatably sleeved on the support shaft, the lower end of the swing arm is suspended, and the battery is mounted at the top of the swing arm. The swing shaft is arranged at the lower end of the swing arm; the transmission belt is positioned between the base and the swing arm, the upper end of the transmission belt is sleeved on the support shaft, and the lower end of the transmission belt is sleeved on the swing shaft; the driving wheel is detachably arranged to be meshed with the inner side of the driving belt, and the outer end of the driving wheel extends to the outer side of the swing arm; the lifting mechanism comprises a sleeve, an adjusting piece, a lifting spring and a ratchet mechanism; the upper end of the sleeve is detachably hinged to the swing arm around the horizontal axis, and an installation cavity with a downward opening is formed in the sleeve; the lifting spring is arranged in the mounting cavity; the lower end of the adjusting piece is detachably hinged to the upper side of the outer end of the driving wheel around the horizontal axis, and the upper end of the adjusting piece is inserted into the mounting cavity; the ratchet mechanism is configured to translate lifting of the adjustment member into compression of the lifting spring when the adjustment member is lifted compared to a previous step, and the lifting spring is configured such that a maximum lifting force achievable for the swing arm does not exceed a weight of the swing arm.

Further, the ratchet mechanism comprises a plurality of first ratchet bars and ratchet sleeves; the first ratchet bars are arranged on the inner wall of the mounting cavity; a plurality of second ratchet bars are arranged on the outer side of the ratchet sleeve, the second ratchet bars are meshed with the first ratchet bars, and the first ratchet bars and the second ratchet bars are configured to enable the ratchet sleeve to rise along the sleeve only; the upper end of the ratchet sleeve is propped against the lifting spring, and a plurality of third ratchet bars are arranged on the inner side of the ratchet sleeve; the adjusting piece comprises an adjusting rod and an adjusting sleeve, the lower end of the adjusting rod is detachably hinged to the outer end of the transmission wheel around the horizontal axis, the adjusting sleeve is sleeved on the adjusting rod, the overall length of the adjusting sleeve and the adjusting rod is adjustable, a plurality of fourth ratchet bars are arranged on the outer side of the adjusting sleeve and meshed with the third ratchet bars, and the third ratchet bars and the fourth ratchet bars are configured to enable the adjusting sleeve to move downwards along the ratchet sleeve only.

Furthermore, a square block is arranged at the rear end of the supporting shaft, and the supporting shaft is in sliding fit with the groove wall of the sliding groove through the square block; the utility model provides a battery installing support of intelligence location still includes locking screw, and locking screw is used for making square piece and base fixed.

Furthermore, the battery mounting bracket with the intelligent positioning function further comprises a fixing screw; the upper end of the swing arm is provided with a fixed jack, and the fixed screw is inserted into the fixed jack and used for fixing the swing arm and the supporting shaft.

Furthermore, the intelligently positioned battery mounting bracket also comprises mounting wheels and a power storage wheel, wherein the mounting wheels are mounted at the upper end of the front side wall of the swing arm; the power storage wheel is arranged at the front end of the driving wheel, the distance from the connecting line of the axis of the mounting wheel and the axis of the power storage wheel to the left side and the distance from the connecting line of the axis of the mounting wheel to the right side of the swing arm are equal, the upper end of the sleeve is rotatably arranged around the axis of the mounting wheel, and the lower end of the adjusting rod is hinged to the top of the power storage wheel.

Further, the transmission belt is a steel belt, and the transmission wheel is a gear; the diameters of the support shaft and the swing shaft are the same.

Furthermore, the battery mounting bracket capable of intelligently positioning further comprises an adjusting knob, and the adjusting knob is used for fixing the adjusting sleeve and the adjusting pipe after adjusting the relative position of the adjusting sleeve and the adjusting rod.

Furthermore, a through hole is formed in the swing arm, and the driving wheel is in clearance fit with the hole wall of the through hole.

The invention has the beneficial effects that: according to the battery assembly, the battery is supported by the battery mounting bracket with the intelligent positioning function, the battery is mounted at the upper end of the swing arm, and the swing arm can be finally kept at a position closer to the vertical position, so that the final state of the swing arm is not influenced even if the base is mounted on the inclined ground, the overturning moment of the battery on the swing arm is small, and the battery is more stable. Specifically, the lifting mechanism comprises a lifting spring and a ratchet mechanism through arranging a transmission belt, a transmission wheel and the lifting mechanism. The swing that makes the swing arm turns into the rotation of drive belt, and the rotation of drive belt turns into the continuous compression that lifts the spring through drive wheel and ratchet, lifts the continuous increase of the ascending effort of spring to the swing arm for the frictional force of swing arm and back shaft diminishes, and the swing arm is more close vertical position, promptly, and the battery is more close horizontal position, prevents that the battery from having the moment of overturning with to the swing arm, makes the tie point that battery and swing arm are connected more stable.

The compression degree to different weight battery supporting spring is different, adjusts the length that the pole inserted the adjusting collar according to supporting spring's compression degree, and then adjusts the initial pretightning force of lifting spring, and then makes the spring of lifting to the biggest lifting force that the swing arm can reach not more than the gravity of swing arm, prevents to lift swing arm and battery excessively, produces great frictional force once more.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of a battery assembly according to the present invention;

FIG. 2 is a schematic structural view of an intelligently positioned battery mounting bracket of the present invention;

FIG. 3 is a side cross-sectional view of an intelligently positioned battery mounting bracket of the present invention;

FIG. 4 is an enlarged view of the point A in FIG. 3;

FIG. 5 is an enlarged view of the point B in FIG. 3;

fig. 6 is a schematic diagram of a state of the swing arm of the intelligently positioned battery mounting bracket according to the present invention during swing.

In the figure: 1. a battery; 3. a base; 4. a transmission belt; 5. swinging arms; 6. a power storage wheel; 7. a sleeve; 8. an adjusting sleeve; 9. adjusting a rod; 10. a sliding groove; 11. locking the screw; 12. a locking groove; 13. a set screw; 14. a driving wheel; 15. a swing shaft; 16. adjusting a knob; 17. a ratchet sleeve; 18. lifting a spring; 19. a support shaft; 20. a support spring; 21. and (5) mounting wheels.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An embodiment of a battery assembly of the present invention, as shown in fig. 1 to 6, comprises a battery 1 and an intelligently positioned battery mounting bracket, wherein the intelligently positioned battery mounting bracket comprises a base 3, a supporting shaft 19, a supporting spring 20, a swing arm 5, a swing shaft 15, a driving belt 4, a driving wheel 14 and a lifting mechanism.

The lower part of the base 3 is used for fixing the ground or objects, and the upper part is provided with a strip-shaped sliding groove 10. The support shaft 19 is disposed in the front-rear direction, and the rear end is inserted into the slide groove 10 and slidably engaged with the slide groove 10. A support spring 20 is mounted to the bottom wall of the slide groove 10 for supporting the support shaft 19. The upper end of the swing arm 5 is rotatably sleeved on the support shaft 19, the lower end of the swing arm is suspended, the battery 1 is fixedly arranged at the top of the swing arm 5, and the lifting spring 18 is compressed after the battery 1 is arranged at the upper end of the swing arm 5. Swing shaft 15 installs in the lower extreme of swing arm 5, and drive belt 4 is between base 3 and swing arm 5, and cup joints in back shaft 19 on the upper end, and the lower extreme cup joints in swing shaft 15 to drive belt 4 rotates back and forth for back shaft 19 and swing shaft 15 when swing arm 5 swings back and forth, specifically, drive belt 4 rotates anticlockwise around back shaft 19 and swing shaft 15 when swing arm 5 swings around back shaft 19 along the anticlockwise in the past, drive belt 4 rotates clockwise around back shaft 19 and swing shaft 15 when swing arm 5 swings around back shaft 19 along the clockwise in the past. The transmission wheel 14 is detachably disposed to engage with the inner side of the transmission belt 4, and the outer end thereof extends to the outer side of the swing arm 5 to cause the transmission wheel 14 to rotate reciprocally about the axis of the transmission wheel 14 itself and to revolve reciprocally about the axis of the support shaft 19 as the transmission belt 4 rotates reciprocally relative to the support shaft 19 and the swing shaft 15.

The lifting mechanism comprises a sleeve 7, an adjusting piece, a lifting spring 18 and a ratchet mechanism. The upper end of the sleeve 7 is detachably arranged to be hinged to the swing arm 5 around a horizontal axis, and a mounting cavity with a downward opening is formed in the sleeve; a lift spring 18 is disposed within the mounting cavity. The lower end of the adjusting piece is detachably hinged to the upper side of the outer end of the driving wheel 14 around a horizontal axis, the upper end of the adjusting piece is inserted into the mounting cavity and is in press fit with the lifting spring 18, when the upper end of the sleeve 7 is hinged to the swing arm 5 around the horizontal axis and the lower end of the adjusting piece is hinged to the upper side of the outer end of the driving wheel 14 around the horizontal axis, the adjusting piece is driven to move up and down relative to the sleeve 7 when the driving wheel 14 rotates around the axis of the driving wheel 14 in a reciprocating mode and revolves around the axis of the supporting shaft 19 in a reciprocating mode. The ratchet mechanism is configured to convert the lifting of the adjusting piece into the compression of the lifting spring 18 when the adjusting piece is lifted compared with the previous step, and the lifting spring 18 is configured such that the maximum lifting force that can be reached by the swing arm 5 does not exceed the gravity of the swing arm 5, and specifically, the length of the adjusting rod 9 inserted into the sleeve 7 can be adjusted according to the amount of the compressed supporting spring 20, thereby adjusting the initial pre-tightening force of the lifting spring 18.

In this embodiment the ratchet mechanism comprises a plurality of first ratchet bars and ratchet sleeves 17. The first ratchet bars are arranged on the inner wall of the mounting cavity; the outside of the ratchet sleeve 17 is provided with a plurality of second ratchet bars which are engaged with the first ratchet bars, and the first and second ratchet bars are configured to only enable the ratchet sleeve 17 to ascend along the sleeve 7. The upper end of the ratchet sleeve 17 is propped against the lifting spring 18, and a plurality of third ratchet bars are arranged on the inner side; the adjusting piece comprises an adjusting rod 9 and an adjusting sleeve 8, the lower end of the adjusting rod 9 is detachably arranged to be hinged to the outer end of the transmission wheel 14 around a horizontal axis, the adjusting sleeve 8 is sleeved on the adjusting rod 9, the overall length of the adjusting sleeve 8 and the adjusting rod 9 is adjustable, a plurality of fourth ratchet bars are arranged on the outer side of the adjusting sleeve 8, the fourth ratchet bars are meshed with the third ratchet bars, and the third ratchet bars and the fourth ratchet bars are configured to only enable the adjusting sleeve 8 to move downwards along the ratchet sleeve 17 so as to drive the ratchet sleeve 17 to ascend relative to the sleeve 7 when the adjusting rod 9 and the adjusting sleeve 8 move upwards relative to the sleeve 7, and the ratchet sleeve 17 also moves downwards relative to the ratchet sleeve 17 when the adjusting rod 9 and the adjusting sleeve 8 descend relative to the sleeve 7, but the ratchet sleeve 17 does not move downwards along with the adjusting sleeve 8, so that the ratchet sleeve 17 only moves upwards relative to the sleeve 7, and the lifting spring 18 is continuously compressed.

In this embodiment, a square block is installed at the rear end of the supporting shaft 19, and the supporting shaft 19 is slidably engaged with the groove wall of the sliding groove 10 through the square block, so that the engagement between the supporting shaft 19 and the sliding groove 10 is more stable. The utility model provides a battery installing support of intelligence location still includes locking screw 11, still is provided with locking groove 12 on the lateral wall of sliding tray 10, and locking screw 11 runs through in locking groove 12 to it is fixed with base 3 to be square piece.

In this embodiment, the intelligently positioned battery mounting bracket further includes a set screw 13; the upper end of the swing arm 5 is provided with a fixing jack, and the fixing screw 13 is inserted into the fixing jack and used for fixing the swing arm 5 and the supporting shaft 19.

In this embodiment, the intelligently positioned battery mounting bracket further includes a mounting wheel 21 and a power accumulating wheel 6. The mounting wheel 21 is mounted at the upper end of the front side wall of the swing arm 5; the power storage wheel 6 is arranged at the front end of the driving wheel 14, the distance from the connecting line of the axis of the mounting wheel 21 and the axis of the power storage wheel 6 to the left side and the distance from the connecting line to the right side of the swing arm 5 are equal, the upper end of the sleeve 7 is rotatably arranged around the axis of the mounting wheel 21, and the lower end of the adjusting rod 9 is hinged to the top of the power storage wheel 6.

In this embodiment, the transmission belt 4 is a steel belt, so that the transmission wheel 14 is engaged with the steel belt more stably, and the steel belt supports the transmission wheel 14 more stably. The support shaft 19 and the swing shaft 15 have the same diameter to ensure that the transmission wheel 14 does not slip with respect to the swing arm 5 while rotating reciprocally about its axis and revolving reciprocally about the axis of the support shaft 19.

In this embodiment, the intelligently-positioned battery mounting bracket further comprises an adjusting knob 16, and the adjusting knob 16 is used for fixing the adjusting sleeve 8 and the adjusting rod 9 after adjusting the relative positions of the adjusting sleeve 8 and the adjusting rod 9.

In this embodiment, the swing arm is further provided with a through hole, and the driving wheel 14 is in clearance fit with the hole wall of the through hole.

When the lifting device is used, the driving wheel 14, the force accumulating wheel 6 and the lifting mechanism are detached firstly, the base 3 is arranged on the inclined ground, then the battery 1 is installed at the top end of the swing arm 5, the supporting spring 20 is compressed, the square block and the base 3 are fixed through the locking screw 11, the whole length of the adjusting rod 9 and the adjusting sleeve 8 is adjusted according to the amount of the compressed supporting spring 20, the initial pre-tightening force of the lifting spring 18 is adjusted, and the maximum lifting force of the lifting spring 18 on the swing arm 5 is enabled not to exceed the gravity of the swing arm 5.

The swing arm 5 is then swung about the support shaft 19, the rotation resistance between the swing arm 5 and the support shaft 19 causes the position at which the swing arm 5 stops to be out of the vertical direction, and the transmission belt 4 swings with the swing arm 5 and rotates about the support shaft 19 and the swing shaft 15 during the swinging of the swing arm 5. And then the driving wheel 14, the force storage wheel 6 and the lifting mechanism are arranged at corresponding positions, so that the lifting mechanism is parallel to the central axis of the swing arm 5.

Then the lower end of the swing arm 5 is pulled again to lift a certain height and then released, the swing arm 5 swings back and forth around the supporting shaft 19, the transmission belt 4 drives the transmission wheel 14 to further drive the power storage wheel 6 to rotate back and forth around the axis of the power storage wheel 6 and to revolve back and forth around the axis of the supporting shaft 19, when the joint of the lower end of the adjusting rod 9 and the power storage wheel 6 moves from the middle part to the left and right sides in the process that the lower end of the adjusting rod 9 moves along with the power storage wheel 6, the adjusting rod 9 and the adjusting sleeve 8 move up relative to the sleeve 7 when the joint of the lower end of the adjusting rod 9 and the power storage wheel 6 moves from the two sides to the middle part, the adjusting rod 9 and the adjusting sleeve 8 move up relative to the sleeve 7 when the adjusting rod 9 and the adjusting sleeve 8 move up relative to the sleeve 7, the ratchet sleeve 17 is driven to rise relative to the sleeve 7 to push the lifting spring 18, when the adjusting rod 9 and the adjusting sleeve 8 descend relative to the ratchet sleeve 17, but the ratchet sleeve 17 does not move down along with the adjusting sleeve 8, further, the ratchet sleeve 17 is only moved upwards relative to the sleeve 7, the lifting spring 18 is continuously compressed, the lifting force of the lifting spring 18 on the sleeve 7 is gradually increased, the lifting force on the swing arm 5 is gradually increased, the acting force of the swing arm 5 on the supporting shaft 19 is reduced, the rotating friction force is reduced, and the swing arm 5 can be easily swung to the vertical position.

When the swing amplitude of the swing arm 5 is small and is close to the vertical position, the adjusting rod 9 and the adjusting sleeve 8 are close to the central axis of the swing arm 5, the eccentricity of the reacting force of the adjusting rod 9 on the force accumulation wheel 6 is reduced, the moment is also reduced, and the resisting moment of the driving wheel 14 on the driving belt 4 is reduced.

As shown in fig. 3 and fig. 6, a represents the angle between the central axis of the swing arm 5 and the vertical line, b represents the angle between the sleeve 7 and the central axis of the swing arm 5, a is always greater than b, i.e. the tangential component force moment of the gravity of the swing arm 5 is always greater than the resistance moment of the adjusting rod 9 to the force accumulating wheel 6, (because the diameters of the force accumulating wheel 6, the driving wheel 14 and the supporting shaft 19 are the same as D, D is the distance from the hinged axis of the sleeve 7 and the swing arm 5 to the hinged axis of the adjusting rod 9 and the force accumulating wheel 6, and the distance that the driving wheel 14 is driven by the driving belt 4 to rotate is equal to:

b is equal to

D is smaller than D, so b is smaller than a, so the component moment of the gravity of the swing arm 5 is always larger than the resistance moment of the adjusting rod 9 on the power accumulating wheel 6).

The two points can ensure that when the final swing amplitude of the swing arm 5 is smaller, the component force of the gravity of the swing arm 5 can also push the swing arm 5 to swing, and further the final vertical precision of the swing arm 5 is ensured.

After that, the swing arm 5 and the support shaft 19 are fixed by the fixing screw 13, ensuring that the battery 1 is maintained in a horizontal state.

The structure of the battery mounting bracket for intelligent positioning is the same as that of the battery mounting bracket for intelligent positioning of the embodiment of the battery assembly, so the details are not repeated.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a battery installing support of intelligence location which characterized in that: comprises a base, a supporting shaft, a supporting spring, a swinging arm, a swinging shaft, a transmission belt, a transmission wheel and a lifting mechanism; the upper part of the base is provided with a strip-shaped sliding groove; the supporting shaft is arranged along the front-back direction, and the rear end of the supporting shaft is inserted into the sliding groove and is in sliding fit with the groove wall of the sliding groove; the supporting spring is arranged on the bottom wall of the sliding groove and used for supporting the supporting shaft; the upper end of the swing arm is rotatably sleeved on the support shaft, and the lower end of the swing arm is suspended in the air; the swing shaft is arranged at the lower end of the swing arm; the transmission belt is positioned between the base and the swing arm, the upper end of the transmission belt is sleeved on the support shaft, and the lower end of the transmission belt is sleeved on the swing shaft; the driving wheel is detachably arranged to be meshed with the inner side of the driving belt, and the outer end of the driving wheel extends to the outer side of the swing arm; the lifting mechanism comprises a sleeve, an adjusting piece, a lifting spring and a ratchet mechanism; the upper end of the sleeve is detachably hinged to the swing arm around the horizontal axis, and an installation cavity with a downward opening is formed in the sleeve; the lifting spring is arranged in the mounting cavity; the lower end of the adjusting piece is detachably hinged to the upper side of the outer end of the driving wheel around the horizontal axis, and the upper end of the adjusting piece is inserted into the mounting cavity; the ratchet mechanism is configured to convert lifting of the adjusting piece into compression of the lifting spring when the adjusting piece is lifted compared with the previous step, and the lifting spring is configured to enable the maximum lifting force which can be achieved by the swing arm not to exceed the gravity of the swing arm;

the swing arm is arranged at the upper end of the front side wall of the swing arm; the power storage wheel is arranged at the front end of the driving wheel, the distance from the connecting line of the axis of the mounting wheel and the axis of the power storage wheel to the left side and the distance from the connecting line of the axis of the mounting wheel to the right side of the swing arm are equal, and the upper end of the sleeve is rotatably arranged around the axis of the mounting wheel; the adjusting piece comprises an adjusting rod and an adjusting sleeve, the lower end of the adjusting rod is detachably hinged to the top of the force storage wheel around the horizontal axis, the diameters of the force storage wheel, the driving wheel and the supporting shaft are the same, and the diameters of the force storage wheel, the driving wheel and the supporting shaft are smaller than the distance from the hinged axis of the sleeve and the swing arm to the hinged axis of the adjusting rod and the force storage wheel.

2. An intelligent positionable battery mounting bracket according to claim 1, and further comprising: the ratchet mechanism comprises a plurality of first ratchet bars and ratchet sleeves; the first ratchet bars are arranged on the inner wall of the mounting cavity; a plurality of second ratchet bars are arranged on the outer side of the ratchet sleeve, the second ratchet bars are meshed with the first ratchet bars, and the first ratchet bars and the second ratchet bars are configured to enable the ratchet sleeve to rise along the sleeve only; the upper end of the ratchet sleeve is propped against the lifting spring, and a plurality of third ratchet bars are arranged on the inner side of the ratchet sleeve; the adjusting sleeve is sleeved on the adjusting rod, the overall length of the adjusting sleeve and the adjusting rod is adjustable, a plurality of fourth ratchet bars are arranged on the outer side of the adjusting sleeve, the fourth ratchet bars are meshed with the third ratchet bars, and the third ratchet bars and the fourth ratchet bars are configured to only enable the adjusting sleeve to move downwards along the ratchet sleeve.

3. An intelligent positionable battery mounting bracket according to claim 1, and further comprising: the rear end of the supporting shaft is provided with a square block, and the supporting shaft is in sliding fit with the groove wall of the sliding groove through the square block; the utility model provides a battery installing support of intelligence location still includes locking screw, and locking screw is used for making square piece and base fixed.

4. An intelligent positionable battery mounting bracket according to claim 1, and further comprising: the fixing screw is also included; the upper end of the swing arm is provided with a fixed jack, and the fixed screw is inserted into the fixed jack and used for fixing the swing arm and the supporting shaft.

5. An intelligent positionable battery mounting bracket according to claim 1, and further comprising: the transmission belt is a steel belt, and the transmission wheel is a gear; the diameters of the support shaft and the swing shaft are the same.

6. An intelligent positionable battery mounting bracket according to claim 2, and further comprising: the adjusting knob is used for fixing the adjusting sleeve and the adjusting pipe after the relative position of the adjusting sleeve and the adjusting rod is adjusted.

7. An intelligent positionable battery mounting bracket according to claim 2, and further comprising: the swing arm is also provided with a through hole, and the driving wheel is in clearance fit with the hole wall of the through hole.

8. A battery assembly comprising a battery, characterized in that: the intelligent positioning battery mounting bracket of any one of claims 1 to 7, wherein the battery is fixedly mounted on the top of the swing arm.