阅读说明：本技术 一种锂电池存储盒 (Lithium battery storage box ) 是由 丁百顺 于 2021-05-23 设计创作，主要内容包括：本发明公开的一种锂电池存储盒,包括存储盒主体,所述存储盒主体内设有开口向上的电池放置腔,所述电池放置腔内下壁设有倾斜的导向斜面,所述电池放置腔下壁内固定设有温度控制板,本发明通过翻转板的变速转动控制切换封闭的变速转动改变连接的通断情况,对锂电池存储实现分隔的掉落收集,并通过弯曲的存储检测腔对锂电池进行掉落存储收集,并通过切换转筒控制检测螺纹轴的正反转,改变检测板的移动位置,达到了在存储过程中进行间歇的电池性能检测,方便了后续工作人员在锂电池使用时能对锂电池的性能好坏进行初步判断,并通过降温板为锂电池存储提供了温度较低的存储环境。(The invention discloses a lithium battery storage box, which comprises a storage box main body, wherein a battery placing cavity with an upward opening is arranged in the storage box main body, the lower wall of the battery placing cavity is provided with an inclined guide inclined plane, the lower wall of the battery placing cavity is internally and fixedly provided with a temperature control plate, the invention changes the connection on-off condition by switching closed variable-speed rotation through the variable-speed rotation control of the turnover plate, realizes separated falling collection for lithium battery storage, and falls storage and collection for lithium batteries through a bent storage detection cavity, and through switching the positive and negative rotation that the rotary drum control detected the threaded shaft, change the shift position of pick-up plate, reached and carried out intermittent type battery performance in the storage process and detected, made things convenient for follow-up staff to carry out preliminary judgement to the performance of lithium cell when the lithium cell uses to provide the lower storage environment of temperature for the lithium cell storage through the cooling plate.)

1. A lithium battery storage case comprising a case body, characterized in that: a battery placing cavity with an upward opening is arranged in the storage box main body, an inclined guide inclined plane is arranged on the lower wall in the battery placing cavity, a temperature control plate is fixedly arranged in the lower wall of the battery placing cavity, a storage working plate is fixedly arranged in the temperature control plate, a bent storage cavity is arranged between the storage working plates, an inclined communicating sliding cavity is communicated between the upper side of the right end of the storage cavity and the right side of the lower wall of the battery placing cavity, a switching closed cavity is communicated with the upper side of the right wall in the communicating sliding cavity, a switching supporting shaft is rotationally arranged on the lower wall in the switching closed cavity, a switching closed plate is fixedly connected on the upper end face of the switching supporting shaft, a power rotating shaft is rotationally arranged between the left wall and the right wall of the communicating sliding cavity, a square separating conveying plate is fixedly connected on the outer surface of the power rotating shaft, and loading grooves which are vertically symmetrical and have outward openings are arranged on the upper side and the lower side of the separating conveying plate, the temperature control plate is characterized in that a variable speed cavity is arranged on the right side of the temperature control plate, a rotating motor is fixedly arranged in the right wall of the communicated sliding cavity, the lower end of a power rotating shaft is in power connection with the rotating motor, an inclined plane is arranged on the upper side of the left wall of the variable speed cavity, a driving rotating drum is arranged in the inclined plane in a rotating manner, the upper end surface of the driving rotating drum is in axial heartbeat force connection with the rotating motor, a curved arc-shaped rotating connecting rod is fixedly arranged on the lower end surface of the driving rotating drum, an input rotating shaft is arranged in the variable speed cavity in a rotating manner, a semicircular sector variable speed rotating plate is fixedly connected to the upper end surface of the input rotating shaft, a clamping sliding chute with an outward opening is arranged on the upper end surface of the variable speed rotating plate, a gear cavity is arranged in the lower end surface of the variable speed cavity, the lower end surface of the input rotating shaft extends downwards into the gear cavity and is fixedly connected with a driving bevel gear, and a driven bevel gear meshed with the driving bevel gear is arranged on the right wall of the gear cavity, driven bevel gear right-hand member face axle center fixedly connected with switches the pivot, be equipped with the rotation slip chamber in the gear chamber right wall, it extends to switch the pivot right-hand member face right side rotation slip intracavity and fixedly connected with switch the rotary drum, it is equipped with oval switching spout to switch the outer disc of rotary drum, the fixed electric power connecting plate that is equipped with of wall behind the storage intracavity, be equipped with the removal in the storage chamber antetheca and detect the chamber, remove to detect the chamber with the intercommunication is equipped with the support spout of bending shape between the storage chamber, it is equipped with the removal contact plate that can the back-and-forth movement to remove to detect the intracavity, it is equipped with the contact current conducting plate to remove to detect the intracavity upper wall fixed, the contact current conducting plate with be connected the electric wire between the electric power connecting plate upper end, be equipped with the electric power connection chamber that is used for electric power to connect in the removal connecting plate.

2. A lithium battery storage case as defined in claim 1, wherein: switch and be equipped with the belt chamber in the closed chamber lower wall, the rotation belt pulley that is equipped with bilateral symmetry is rotated in the belt chamber, switch back shaft lower extreme downwardly extending to the belt intracavity and with the left side rotate belt pulley up end axle center fixed connection, the left and right sides around being equipped with power belt, right side between the rotation belt pulley terminal surface fixedly connected with transmission pivot under the rotation belt pulley.

3. A lithium battery storage case as defined in claim 1, wherein: the rotating sliding cavity right wall is internally provided with a meshing cavity, the lower end surface of the transmission rotating shaft extends downwards to the meshing cavity and is fixedly connected with a meshing bevel gear, the left wall of the meshing cavity rotates to be provided with a rotating bevel gear meshed with the meshing bevel gear, and the right end of the switching rotating shaft extends rightwards to the meshing cavity and is fixedly connected with the left end surface axis of the rotating bevel gear.

4. A lithium battery storage case as defined in claim 1, wherein: the movable contact plate is characterized in that a movable connecting plate is fixedly connected to the front end face of the movable contact plate, a movable connecting cavity is arranged on the front side of the temperature control plate, the front end face of the movable connecting plate extends forwards into the movable connecting cavity, a movable threaded shaft is arranged on the front wall of the movable connecting cavity in a rotating mode, the movable threaded shaft is in threaded connection with the movable connecting plate, a gear transmission cavity is arranged in the front wall of the movable connecting cavity, the front end face of the movable threaded shaft extends forwards into the gear transmission cavity and is fixedly connected with a transmission threaded shaft, a power bevel gear meshed with the transmission threaded shaft is arranged on the right wall of the gear transmission cavity in a rotating mode, and a power rotating shaft is fixedly connected to the right end face of the power bevel gear.

5. A lithium battery storage case as defined in claim 1, wherein: the utility model discloses a switching device, including the rotation slip intracavity lower wall intercommunication, the rotation slip intracavity lower wall intercommunication is equipped with the removal spout, be equipped with the removal sliding plate that removes about can removing in the removal spout, remove the sliding plate internal fixation and be equipped with the energy supply motor, remove sliding plate up end fixedly connected with and remove the index, remove the index upper end and extend to in the switching spout and sliding connection dress card, energy supply motor lower extreme power is connected with switches the bevel gear, it is equipped with the switching chamber to remove spout lower wall intercommunication, it is located to switch the bevel gear switch the intracavity.

6. A lithium battery storage case as defined in claim 5, wherein: the left wall and the right wall in the switching cavity are rotatably provided with reversing bevel gears which are bilaterally symmetrical and meshed with the switching bevel gears, and the end surface axes of one side of each reversing bevel gear, which is far away from the symmetrical center, are fixedly connected with a connecting shaft.

7. A lithium battery storage case as defined in claim 1, wherein: the left and right sides switch the chamber and keep away from being equipped with vertical ascending band pulley chamber in the wall of symmetry center one side end, the left and right sides the connecting axle extends to respectively band pulley intracavity and fixedly connected with driving pulley, the power pivot runs through the left and right sides band pulley chamber upper end, the outer disc of power pivot just is located the fixed driven pulleys that are equipped with of band pulley intracavity, driven pulleys with around being equipped with driving belt between the driving pulley.

8. A lithium battery storage case as defined in claim 1, wherein: the lower extreme is equipped with the flexible chamber of opening right in the rotation connecting rod, flexible intracavity is equipped with the dress card slide bar that can remove about, dress card slide bar left end face with fixedly connected with expanding spring between the flexible chamber left wall terminal surface, dress card slide bar right-hand member face extend to in the meshing bevel gear and with dress card spout sliding connection and dress card.

Technical Field

The invention relates to the field of lithium batteries, in particular to a lithium battery storage box.

Background

In our daily life, the lithium battery is used as a commonly-used electric quantity storage device and is widely applied to various small electrical appliances, the general lithium battery needs to be stably placed in the production and transportation process, the general lithium battery storage box is only used for simply storing, if a series of hazards such as guarantee and the like can occur to the lithium battery in an emergency situation, and if the lithium battery is improperly stored, the internal electric quantity loss and the surface damage are caused, so that the subsequent use of the lithium battery is influenced.

Disclosure of Invention

In order to solve the problems, the present example designs a lithium battery storage box, which comprises a storage box main body, wherein a battery placing cavity with an upward opening is arranged in the storage box main body, an inclined guide inclined plane is arranged on the lower wall in the battery placing cavity, a temperature control plate is fixedly arranged in the lower wall of the battery placing cavity, a storage working plate is fixedly arranged in the temperature control plate, a bent storage cavity is arranged between the storage working plates, an inclined communicating sliding cavity is communicated between the upper side of the right end of the storage cavity and the right side of the lower wall of the battery placing cavity, a switching closed cavity is communicated with the upper side of the right wall in the communicating sliding cavity, a switching support shaft is rotatably arranged on the lower wall in the switching closed cavity, a switching closed plate is fixedly connected on the upper end surface of the switching support shaft, and a power rotating shaft is rotatably arranged, the outer circular surface of the power rotating shaft is fixedly connected with a square separating conveying plate, the upper side and the lower side of the separating conveying plate are provided with loading grooves which are symmetrical up and down and have outward openings, the right side of the temperature control plate is provided with a speed change cavity, the right wall of the communicating sliding cavity is internally and fixedly provided with a rotating motor, the lower end of the power rotating shaft is in power connection with the rotating motor, the upper side of the left wall of the speed change cavity is provided with an inclined plane, the left wall in the inclined plane is rotatably provided with a driving rotating drum, the upper end surface of the driving rotating drum is in axial heartbeat connection with the rotating motor, the lower end surface of the driving rotating drum is fixedly provided with a curved rotating connecting rod, the lower wall in the speed change cavity is rotatably provided with an input rotating shaft, the upper end surface of the input rotating shaft is fixedly connected with a semicircular sector speed change rotating plate, the upper end surface of the speed change rotating plate is provided with a clamping sliding groove with an outward opening, and the lower wall of the speed change cavity is provided with a gear cavity, the lower end surface of the input rotating shaft extends downwards into the gear cavity and is fixedly connected with a driving bevel gear, the right wall in the gear cavity is rotatably provided with a driven bevel gear meshed with the driving bevel gear, the axis of the right end surface of the driven bevel gear is fixedly connected with a switching rotating shaft, the right wall in the gear cavity is internally provided with a rotating sliding cavity, the right end surface of the switching rotating shaft extends rightwards into the rotating sliding cavity and is fixedly connected with a switching rotating drum, the outer circular surface of the switching rotating drum is provided with an elliptical switching sliding chute, the rear wall in the storage cavity is fixedly provided with an electric power connecting plate, the front wall in the storage cavity is internally provided with a movement detection cavity, a bent supporting sliding chute is communicated between the movement detection cavity and the storage cavity, a movement contact plate capable of moving back and forth is arranged in the movement detection cavity, the upper wall in the movement detection cavity is fixedly provided with a contact conductive plate, and a connecting wire is connected between the contact conductive plate and the upper end of the electric power connecting plate, and an electric power connection cavity for electric power connection is arranged in the movable connecting plate.

But preferably, be equipped with the belt chamber in the switching closed chamber lower wall, the rotation of belt intracavity is equipped with bilateral symmetry's rotation belt pulley, switching back shaft lower extreme downwardly extending to the belt intracavity and with the left side rotate belt pulley up end axle center fixed connection, the left and right sides around being equipped with power belt, right side between the rotation belt pulley terminal surface fixedly connected with transmission pivot under the rotation belt pulley.

Preferably, a meshing cavity is formed in the right wall of the rotating sliding cavity, the lower end face of the transmission rotating shaft extends downwards to the inside of the meshing cavity and is fixedly connected with a meshing bevel gear, a rotating bevel gear meshed with the meshing bevel gear is arranged on the left wall of the meshing cavity in a rotating mode, and the right end of the switching rotating shaft extends rightwards to the inside of the meshing cavity and is fixedly connected to the axis of the left end face of the rotating bevel gear.

Preferably, a movable connecting plate is fixedly connected to the front end face of the movable contact plate, a movable connecting cavity is arranged on the front side of the temperature control plate, the front end face of the movable connecting plate extends forwards into the movable connecting cavity, a movable threaded shaft is arranged on the front wall of the movable connecting cavity in a rotating mode, the movable threaded shaft is in threaded connection with the movable connecting plate, a gear transmission cavity is arranged in the front wall of the movable connecting cavity, the front end face of the movable threaded shaft extends forwards into the gear transmission cavity and is fixedly connected with a transmission threaded shaft, a power bevel gear meshed with the transmission threaded shaft is arranged on the right wall of the gear transmission cavity in a rotating mode, and a power rotating shaft is fixedly connected to the right end face of the power bevel gear.

Preferably, the lower wall intercommunication is equipped with the removal spout in the rotation slip intracavity, be equipped with the removal sliding plate that can remove about in the removal spout, it is equipped with the energy supply motor to remove the sliding plate internal fixation, remove sliding plate up end fixedly connected with and remove the index, it extends to remove the index upper end switch in the spout and sliding connection dress card, energy supply motor lower extreme power is connected with switches the bevel gear, it is equipped with the switching chamber to remove spout lower wall intercommunication, it is located to switch the bevel gear switch the intracavity.

Preferably, the left wall and the right wall in the switching cavity are rotatably provided with reversing bevel gears which are bilaterally symmetrical and meshed with the switching bevel gears, and the end surface axes of one side of the reversing bevel gears, which are far away from the symmetrical center, are fixedly connected with a connecting shaft.

Preferably, the left and right sides switch and be equipped with vertical ascending band pulley chamber in the chamber keeps away from a symmetrical center side end wall, the left and right sides the connecting axle extends to respectively band pulley intracavity and fixedly connected with driving pulley, the power pivot runs through the left and right sides band pulley chamber upper end, the outer disc of power pivot just is located the fixed driven pulleys that are equipped with of band pulley intracavity, driven pulleys with around being equipped with driving belt between the driving pulley.

Preferably, the lower end in the rotating connecting rod is provided with a telescopic cavity with a rightward opening, a clamping sliding rod capable of moving leftwards and rightwards is arranged in the telescopic cavity, a telescopic spring is fixedly connected between the left end face of the clamping sliding rod and the end face of the left wall of the telescopic cavity, and the right end face of the clamping sliding rod extends into the meshing bevel gear, is in sliding connection with the clamping sliding groove and is clamped.

The invention has the beneficial effects that: according to the invention, the connection on-off condition is changed by switching the closed variable rotation through the variable rotation control of the turnover plate, the separated falling collection of the lithium battery storage is realized, the falling storage collection of the lithium battery is performed through the bent storage detection cavity, the positive and negative rotation of the detection threaded shaft is controlled through the switching rotary drum, and the moving position of the detection plate is changed, so that the intermittent battery performance detection is performed in the storage process, the preliminary judgment on the performance of the lithium battery by subsequent workers during the use of the lithium battery is facilitated, and a low-temperature storage environment is provided for the lithium battery storage through the cooling plate.

Drawings

In order to more clearly illustrate the embodiments of the 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 invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of a lithium battery storage case of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Fig. 4 is a schematic diagram of the structure C-C in fig. 2.

Fig. 5 is an enlarged schematic view of D in fig. 1.

Fig. 6 is an enlarged schematic view of E in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a lithium battery storage box, which comprises a storage box main body 11, wherein a battery placing cavity 44 with an upward opening is arranged in the storage box main body 11, an inclined guide inclined surface 43 is arranged on the inner lower wall of the battery placing cavity 44, a temperature control plate 42 is fixedly arranged in the lower wall of the battery placing cavity 44, a storage working plate 41 is fixedly arranged in the temperature control plate 42, a bent storage cavity 40 is arranged between the storage working plates 41, an inclined communicating sliding cavity 39 is arranged between the upper side of the right end of the storage cavity 40 and the right side of the lower wall of the battery placing cavity 44 in a communicating way, a switching closed cavity 12 is arranged on the upper side of the right wall in the communicating sliding cavity 39 in a communicating way, a switching support shaft 46 is rotatably arranged on the inner lower wall of the switching closed cavity 12, a switching closed plate 45 is fixedly connected to the upper end surface of the switching support shaft 46, and a power rotating shaft 36 is rotatably arranged between the left wall and the right wall of the communicating sliding cavity 39, the outer circular surface of the power rotating shaft 36 is fixedly connected with a square separating conveying plate 37, the upper and lower sides of the separating conveying plate 37 are provided with vertically symmetrical loading grooves 38 with outward openings, the right side of the temperature control plate 42 is provided with a speed change chamber 17, the right wall of the communicating sliding chamber 39 is internally and fixedly provided with a rotating motor 35, the lower end of the power rotating shaft 36 is in power connection with the rotating motor 35, the upper side of the left wall of the speed change chamber 17 is provided with an inclined surface 78, the left wall in the inclined surface 78 is rotatably provided with a driving rotating drum 18, the upper end surface of the driving rotating drum 18 is in axial heartbeat connection with the rotating motor 35, the lower end surface of the driving rotating drum 18 is fixedly provided with a curved arc-shaped rotating connecting rod 19, the inner lower wall of the speed change chamber 17 is rotatably provided with an input rotating shaft 34, the upper end surface of the input rotating shaft 34 is fixedly connected with a semicircular fan-shaped speed change rotating plate 21, the upper end surface of the speed change rotating plate 21 is provided with an outward opening loading sliding groove 20, a gear cavity 31 is arranged in the lower wall of the speed changing cavity 17, the lower end surface of the input rotating shaft 34 extends downwards to the gear cavity 31 and is fixedly connected with a driving bevel gear 32, the right wall of the gear cavity 31 rotates to be provided with a driven bevel gear 30 meshed with the driving bevel gear 32, the right end surface of the driven bevel gear 30 is fixedly connected with a switching rotating shaft 29, a rotating sliding cavity 26 is arranged in the right wall of the gear cavity 31, the right end surface of the switching rotating shaft 29 extends to the rotating sliding cavity 26 towards the right and is fixedly connected with a switching rotating drum 27, the outer circular surface of the switching rotating drum 27 is provided with an elliptical switching sliding groove 28, an electric connecting plate 47 is fixedly arranged on the rear wall of the storage cavity 40, a mobile detection cavity 57 is arranged in the front wall of the storage cavity 40, a bent supporting sliding groove 58 is communicated between the mobile detection cavity 57 and the storage cavity 40, and a mobile contact plate 55 capable of moving back and forth is arranged in the mobile detection cavity 57, the upper wall is fixed in the removal detection chamber 57 and is equipped with contact conductive plate 49, contact conductive plate 49 with be connected with connecting wire 48 between the electric power connecting plate 47 upper end, be equipped with the electric power connection chamber 56 that is used for electric power to connect in the removal connecting plate 50.

Beneficially, be equipped with belt chamber 15 in the switching closed chamber 12 lower wall, belt chamber 15 internal rotation is equipped with bilateral symmetry's rotation belt pulley 14, switching back shaft 46 lower extreme face downwardly extending to in belt chamber 15 and with the left side rotate belt pulley 14 up end axle center fixed connection, the left and right sides around being equipped with power belt 13 between the rotation belt pulley 14, the right side rotate belt pulley 14 lower extreme face fixed connection with transmission pivot 16.

Advantageously, an engagement cavity 23 is formed in the right wall of the rotating sliding cavity 26, the lower end surface of the transmission rotating shaft 16 extends downwards into the engagement cavity 23 and is fixedly connected with an engagement bevel gear 22, a rotating bevel gear 24 engaged with the engagement bevel gear 22 is rotatably arranged on the left wall of the engagement cavity 23, and the right end of the switching rotating shaft 29 extends rightwards into the engagement cavity 23 and is fixedly connected with the axis of the left end surface of the rotating bevel gear 24.

Advantageously, a movable connecting plate 50 is fixedly connected to the front end face of the movable contact plate 55, a movable connecting cavity 51 is formed in the front side of the temperature control plate 42, the front end face of the movable connecting plate 50 extends forwards into the movable connecting cavity 51, a movable threaded shaft 54 is rotatably arranged on the front wall in the movable connecting cavity 51, the movable threaded shaft 54 is in threaded connection with the movable connecting plate 50, a gear transmission cavity 52 is formed in the front wall of the movable connecting cavity 51, the front end face of the movable threaded shaft 54 extends forwards into the gear transmission cavity 52 and is fixedly connected with a transmission threaded shaft 53, a power bevel gear 60 meshed with the transmission threaded shaft 53 is rotatably arranged on the right wall in the gear transmission cavity 52, and a power rotating shaft 64 is fixedly connected to the right end face shaft center of the power bevel gear 60.

Beneficially, a moving sliding chute 69 is communicated with the inner lower wall of the rotating sliding cavity 26, a moving sliding plate 68 capable of moving left and right is arranged in the moving sliding chute 69, an energy supply motor 67 is fixedly arranged in the moving sliding plate 68, a moving index 66 is fixedly connected to the upper end surface of the moving sliding plate 68, the upper end of the moving index 66 extends into the switching sliding chute 28 and is slidably connected with the clamping device, a switching bevel gear 70 is dynamically connected to the lower end of the energy supply motor 67, a switching cavity 72 is communicated with the inner lower wall of the moving sliding chute 69, and the switching bevel gear 70 is located in the switching cavity 72.

Beneficially, the left wall and the right wall in the switching cavity 72 are rotatably provided with reversing bevel gears 71 which are bilaterally symmetrical and meshed with the switching bevel gear 70, and a connecting shaft 73 is fixedly connected to the end surface axes of one side of the reversing bevel gears 71 far away from the symmetrical center.

Beneficially, a vertically upward pulley cavity 62 is provided in an end wall of one side of the left and right switching cavities 72 away from the symmetry center, the connecting shafts 73 on the left and right sides respectively extend into the pulley cavity 62 and are fixedly connected with a driving pulley 74, the power rotating shaft 64 penetrates through upper ends of the left and right pulley cavities 62, a driven pulley 65 is fixedly provided on an outer circumferential surface of the power rotating shaft 64 and located in the pulley cavity 62, and a transmission belt 61 is wound between the driven pulley 65 and the driving pulley 74.

Beneficially, a telescopic cavity 76 with a rightward opening is arranged at the lower end in the rotating connecting rod 19, a clamping sliding rod 75 capable of moving leftward and rightward is arranged in the telescopic cavity 76, a telescopic spring 77 is fixedly connected between the left end face of the clamping sliding rod 75 and the end face of the left wall of the telescopic cavity 76, and the right end face of the clamping sliding rod 75 extends into the meshing bevel gear 22 and is slidably connected with the clamping chute 20 for clamping.

The use steps herein are described in detail below with reference to fig. 1-6:

in the initial working state, the switching closing plate 45 is located at the left limit position, the movable contact plate 55 is located at the front limit position, the movable sliding plate 68 is located at the right limit position, and the card-loading sliding rod 75 is located at the right limit position.

When the lithium battery storage device works, lithium batteries to be stored in a separated mode are placed in the battery placement cavity 44, the rotating motor 35 rotates to drive the driving rotary drum 18 to rotate, the driving rotary drum 18 rotates to drive the rotating connecting rod 19 to rotate, the rotating connecting rod 19 rotates to slide and clamp the clamping sliding rod 75 and the clamping sliding groove 20 to drive the speed change rotary plate 21 to rotate slowly for a circle after rotating for a certain angle, in the process again, the speed change rotary plate 21 rotates to drive the input rotary shaft 34 to rotate, the input rotary shaft 34 rotates to drive the driving bevel gear 32 to rotate, the driving bevel gear 32 drives the driven bevel gear 30 to rotate in a speed reduction mode through gear meshing, the driven bevel gear 30 drives the switching rotary drum 27 to rotate through the switching rotary shaft 29 and simultaneously drives the rotating bevel gear 24 to rotate, the rotating bevel gear 24 rotates to drive the meshing bevel gear 22 to rotate through gear meshing with the transmission rotary shaft 16 to drive the right rotating belt pulley 14 to rotate, the right-side rotating belt pulley 14 drives the left-side rotating belt pulley 14 to rotate through the transmission of the power belt 13, at the moment, the left-side rotating belt pulley 14 drives the switching sealing plate 45 to rotate one hundred eighty degrees through the transmission of the switching supporting shaft 46, at the moment, the battery placing cavity 44 is communicated with the communicating sliding cavity 39, at the moment, the lithium batteries in the battery placing cavity 44 slide downwards due to the guide of the guide inclined plane 43, at the moment, the lithium batteries roll into the loading groove 38 through the communicating sliding cavity 39, and when the next rotating motor 35 is started, the communicating sliding cavity 39 is closed again and drives the separating conveying plate 37 to rotate one hundred eighty degrees, at the moment, the lithium batteries are driven by the loading groove 38, slide obliquely through the communicating sliding cavity 39 and enter the storage cavity 40, and roll and store through the bending of the storage cavity 40, at the same time, the front ends of the lithium batteries are guided to slide and support through the supporting chute 58, and at the same time, when the switching sealing plate 45 and the communicating sliding cavity 39 are closed, the movable sliding plate 68 is located at the right limit position, the switching bevel gear 70 is in gear engagement with the right-side reversing bevel gear 71, the energy supply motor 67 is started to drive the switching bevel gear 70 to rotate, the switching bevel gear 70 drives the right-side reversing bevel gear 71 to rotate through gear engagement, the right-side reversing bevel gear 71 drives the driving pulley 74 to rotate through the connecting shaft 73, the driving pulley 74 drives the right-side driven pulley 65 to rotate forward through the transmission belt 61, the power rotating shaft 64 drives the power bevel gear 60 to rotate forward, the power bevel gear 60 drives the transmission threaded shaft 53 to rotate through gear engagement, the transmission threaded shaft 53 drives the movable threaded shaft 54 to rotate, the movable threaded shaft 54 drives the movable connecting plate 50 to move backward through threaded connection, the movable connecting plate 50 drives the movable contact plate 55 to move backward through fixed connection, and the front end of the lithium battery stored and stored in the storage cavity 40 is in contact with the electric connection cavity 56 in the movable contact plate 55, at this time, the movable contact plate 55 moves to the rear limit position, the upper end surface of the movable contact plate 55 abuts against the contact conductive plate 49, the front end and the rear end of the lithium battery form a closed loop through the power connection plate 47 connected by the connection wire 48, and the battery performance of the lithium battery is detected through the movable contact plate 55, so that the performance of the lithium battery can be preliminarily judged by a subsequent worker when the lithium battery is used, when the battery placing cavity 44 is communicated with the communication sliding cavity 39, the switching rotary drum 27 is driven to rotate by the belt switching rotary shaft 29, at this time, the movable index 66 is driven to move leftward to the left limit position due to the sliding connection between the upper end surface of the movable index 66 and the switching sliding chute 28, at this time, the switching bevel gear 70 is in gear engagement with the left reversing bevel gear 71, at this time, the switching bevel gear 70 drives the left reversing bevel gear 71 to rotate through gear engagement, at this time, the left reversing bevel gear 71 drives the left driving pulley 74 to rotate through the left connection shaft 73, at this time, the left driving pulley 74 drives the left driven pulley 65 to rotate reversely through the left driving belt 61, at this time, the power rotating shaft 64 rotates reversely and finally drives the transmission threaded shaft 53 to rotate reversely, at this time, the movable threaded shaft 54 rotates reversely to drive the movable contact plate 55 to move back to the initial working position through gear engagement, and a storage environment with a lower temperature is provided for the lithium battery through the temperature control plate 42 during the storage process of the lithium battery.

The invention has the beneficial effects that: according to the invention, the connection on-off condition is changed by switching the closed variable rotation through the variable rotation control of the turnover plate, the separated falling collection of the lithium battery storage is realized, the falling storage collection of the lithium battery is performed through the bent storage detection cavity, the positive and negative rotation of the detection threaded shaft is controlled through the switching rotary drum, and the moving position of the detection plate is changed, so that the intermittent battery performance detection is performed in the storage process, the preliminary judgment on the performance of the lithium battery by subsequent workers during the use of the lithium battery is facilitated, and a low-temperature storage environment is provided for the lithium battery storage through the cooling plate.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.