CN221140039U - Lithium battery stack arrangement device - Google Patents

Abstract

The utility model provides a lithium cell buttress sign indicating number arrangement device, relates to machinery, includes a conveyer belt mechanism, be equipped with the rectangle guide way on the conveyer belt of conveyer belt mechanism, conveyer belt mechanism is equipped with deposits the subassembly, it is equipped with a pushing equipment to deposit the subassembly tip, pushing equipment includes a pushing electric cylinder and a pushing plate, be equipped with a uide bushing on the pushing plate, sliding fit has the telescopic link of pushing the electric cylinder in the uide bushing, install flexible spring between telescopic link and the uide bushing bottom. The device realizes the efficient and orderly arrangement and transmission of the lithium batteries through the design of the conveying belt, the storage assembly, the pushing mechanism, the guide mechanism, the moving mechanism and the plugging mechanism. Through guiding mechanism's setting, realized accurate direction and the location to the lithium cell. The flexible spring and the rubber buffer layer effectively reduce impact and damage to the lithium battery and protect the integrity of the lithium battery.

Description

Lithium battery stack arrangement device

Technical Field

The utility model relates to the field of machinery, in particular to a lithium battery stack arrangement device.

Background

In the existing lithium battery production process, an important link is to arrange the lithium batteries in a orderly stacking way so as to facilitate subsequent conveying and module combination. However, the conventional arrangement mode at present mainly depends on the mechanical arms to grasp and place one by one, which is complex in operation and low in efficiency. Particularly in the industries of new energy automobiles and the like, the efficiency and the accuracy of arrangement are particularly important because a large number of cylindrical lithium batteries are required to be combined to construct a power supply module. The traditional mechanical arm grabbing mode can not meet the requirements of a modern production line on high efficiency and high quality, so that development of a novel and efficient lithium battery stacking arrangement technology has become an urgent requirement of the industry.

Chinese patent CN219859484U discloses a lithium battery stack arrangement device, the design of the fixing frame and the conveyor belt of which has no clear battery positioning mechanism, which may cause the battery to shift during the conveying process. Furthermore, in the design of the pusher, the air cylinder may impact the lithium battery due to the rapid movement of the pusher, which may damage the battery or affect the accuracy of the arrangement.

Disclosure of utility model

In view of the problems mentioned in the prior art, the present utility model provides a lithium battery pack arrangement device, which can avoid the occurrence of the above problems.

The technical scheme adopted for solving the technical problems is as follows:

The utility model provides a lithium cell buttress sign indicating number collating unit, includes a conveyer belt mechanism, be equipped with the rectangle guide way on the conveyer belt of conveyer belt mechanism, conveyer belt mechanism is equipped with deposits the subassembly, it is equipped with a pushing equipment to deposit the subassembly tip, pushing equipment includes a pushing electric cylinder and a pushing plate, be equipped with a uide bushing on the pushing plate, sliding fit has the telescopic link of pushing electric cylinder in the uide bushing, install flexible spring between telescopic link and the uide bushing bottom.

Further, the pushing mechanism further comprises a pushing groove, a pushing channel is formed in the front opening of the pushing groove, a material inlet is formed in the right opening of the pushing groove, the pushing groove comprises a rear side plate, a pushing electric cylinder is mounted on the rear side plate, a pushing plate is connected with a telescopic rod of the pushing electric cylinder, and a blocking plate is connected with the pushing plate.

Further, an extension plate is arranged on the rear side plate, a guide sleeve is arranged on the extension plate, and a plugging plate is slidably matched with the guide sleeve.

Further, when the pushing plate moves along the pushing channel, the blocking plate can block the material inlet.

Further, a rubber buffer layer is arranged on the surface of the pushing plate.

Further, the conveyer belt mechanism includes two parallel arrangement's slat, two be equipped with a plurality of bracing pieces between the slat, it is connected with first band pulley and second band pulley to rotate on the slat, first band pulley passes through conveyer belt drive connection with the second band pulley, be equipped with first motor on the slat, first motor is connected with first band pulley, first band pulley can drive first band pulley rotation and then drive the conveyer belt and remove.

Further, the storage assembly comprises a storage box, wherein the storage box is provided with a storage groove, and a plurality of partition plates are arranged in the storage groove.

Further, a plurality of the spacers divide the storage tank into a plurality of storage channels.

Further, deposit case one side and be equipped with moving mechanism, moving mechanism includes a rotation motor, rotation motor's output shaft has first synchronous pulley, it is connected with the second synchronous pulley to deposit one side rotation that the rotation motor was kept away from to the case, first synchronous pulley passes through the hold-in range drive with the second synchronous pulley and is connected, sliding fit has a movable block on the division board, links together through the arc push pedal between the adjacent movable block, and at least one movable block passes through link plate fixed connection on the hold-in range.

Further, rectangular guide holes matched with the moving blocks are formed in the partition plates.

Further, the side wall of the storage box is provided with a rectangular sliding through hole for accommodating the connecting plate to pass through.

Further, install guiding mechanism on the conveyer belt mechanism, guiding mechanism includes a vertical bracing piece, vertical bracing piece fixed connection is on the conveyer belt mechanism, vertical bracing piece top is equipped with a mounting panel, the mounting panel top is equipped with a direction electronic jar, the telescopic link of direction electronic jar is connected with the upper plate, the upper plate is connected with down the pole, down put the pole bottom and be equipped with the deflector, when pushing away the lithium cell of pushing away mechanism entering rectangle guide way, two the deflector is in lithium cell both sides respectively.

The beneficial effects of the utility model are as follows: the device realizes the efficient and orderly arrangement and transmission of the lithium batteries through the design of the conveying belt, the storage assembly, the pushing mechanism, the guide mechanism, the moving mechanism and the plugging mechanism. The design of each mechanical structure makes the device have the characteristics of simple operation, safety, reliability, strong adaptability and the like, and improves the production efficiency and quality. The ingenious design of the pushing mechanism ensures that only one row of lithium batteries is pushed into the conveyor belt at a time, and improves the arrangement accuracy. The moving mechanism of the storage assembly realizes automatic movement of the lithium battery and improves the overall efficiency. Through guiding mechanism's setting, realized accurate direction and the location to the lithium cell. The flexible spring and the rubber buffer layer effectively reduce impact and damage to the lithium battery and protect the integrity of the lithium battery.

Drawings

FIG. 1 is a top view of the present utility model;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a partial enlarged view at B in FIG. 1;

FIG. 4 is a schematic view of a structure of a spacer plate;

FIG. 5 is a schematic structural view of a guide mechanism;

In the figure: the lithium battery pack comprises a conveyor belt mechanism 1, a long slat 12, a first belt pulley 13, a second belt pulley 14, a conveyor belt 141, a rectangular guide slot, a2 storage component, a 21 storage box, a 22 storage slot, a23 partition plate, a231 rectangular guide hole, a3 pushing mechanism 31, a pushing slot, a 32 material inlet, a 33 pushing channel, a 34 pushing plate, a 341 guide sleeve, a 342 flexible spring, a 343 rubber buffer layer, a 35 rear side plate, a 36 pushing electric cylinder, a 37 blocking plate, a 38 extension plate, a 39 guide sleeve, a 4 moving mechanism, a 41 rotating motor, a 42 first synchronous belt pulley, a 43 synchronous belt, a 44 second synchronous belt pulley, a 45 connecting plate, a 46 moving block, a 47 arc-shaped push plate, a 51 vertical support rod, a 52 mounting plate, a 53 guiding electric cylinder, a 54 upper plate, a 55 lower rod, a 56 guide plate and a 100 lithium battery.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model. In the description of the present utility model, it should be understood that the terms "center," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the scope of the present utility model.

As shown in fig. 1 to 5, a stacking arrangement device for lithium batteries comprises a conveyor belt mechanism 1, a rectangular guide groove 141 is arranged on a conveyor belt 14 of the conveyor belt mechanism, a storage assembly 2 is arranged on the conveyor belt mechanism, a pushing mechanism 3 is arranged at the end of the storage assembly, the pushing mechanism comprises a pushing electric cylinder 36 and a pushing plate 34, a guide sleeve 341 is arranged on the pushing plate, a telescopic rod of the pushing electric cylinder is slidably matched with the guide sleeve, and a flexible spring 342 is arranged between the telescopic rod and the bottom of the guide sleeve. And the combination of the conveying belt mechanism, the storage assembly and the pushing mechanism ensures the efficient and accurate movement and positioning of the lithium battery. The rectangular guide grooves 141 on the conveyor belt 14 provide a stable transmission path for lithium batteries.

In at least one embodiment, the pushing mechanism further comprises a pushing groove 31, a pushing channel 33 for accommodating movement of the lithium battery is formed in the opening of the front side of the pushing groove, a material inlet 32 for accommodating entry of the lithium battery is formed in the opening of the right side of the pushing groove, the pushing groove comprises a rear side plate 35, a pushing electric cylinder is mounted on the rear side plate, a pushing plate is connected to a telescopic rod of the pushing electric cylinder, and a blocking plate 37 is connected to the pushing plate. The combination of the pushing cylinder 36 and the pushing plate 34 achieves a powerful pushing action. The guide sleeve 341 not only provides a stable sliding path for the telescopic rod, but also reduces the impact on the lithium battery in the pushing process through the flexible spring 342. This provides dual protection for the lithium battery, ensuring that its integrity and functionality are not compromised.

Further, an extension plate 38 is mounted on the rear side plate, a guide sleeve 39 is arranged on the extension plate, and a plugging plate is slidably matched with the guide sleeve.

Further, when the pushing plate moves along the pushing channel, the blocking plate can block the material inlet, so that the lithium battery is prevented from entering the pushing groove at the moment. Thereby ensuring that only one row of lithium batteries is pushed into the rectangular guide groove of the conveyor belt at a time.

Further, a rubber buffer layer 343 is disposed on the surface of the pushing plate.

In at least one embodiment, the belt conveying mechanism comprises two parallel long plates 11, a plurality of support rods are arranged between the two long plates, a first belt wheel 12 and a second belt wheel 13 are rotatably connected to the long plates, the first belt wheel is in driving connection with the second belt wheel through a conveying belt 14, a first motor is arranged on the long plates, the first motor is connected with the first belt wheel, and the first motor can drive the first belt wheel to rotate so as to drive the conveying belt to move.

In at least one embodiment, the storage assembly includes a storage box 21 having a storage slot 22 with a plurality of spaced apart plates 23 disposed therein.

Further, a plurality of the spacers divide the storage tank into a plurality of storage channels.

Further, a moving mechanism 4 is arranged at one side of the storage box, and the moving mechanism can drive the lithium battery 100 in the storage box to move to the pushing mechanism.

The scheme refines, moving mechanism includes a rotation motor 41, rotation motor's output shaft has first synchronous pulley 42, one side that the case kept away from rotation motor rotates and is connected with second synchronous pulley 44, first synchronous pulley passes through hold-in range 43 drive with second synchronous pulley and is connected, cooperates with it, sliding fit has a movable block 46 on the division board, links together through arc push pedal 47 between the adjacent movable block, and at least one movable block passes through link plate 45 fixed connection on the hold-in range. The innovative design of the moving mechanism 4 allows the lithium battery to be easily moved from the storage tank to the pushing mechanism. The lithium battery can stably and rapidly move through the synergistic effect of the rotating motor 41, the first synchronous pulley 42, the synchronous belt 43 and the second synchronous pulley 44.

The scheme is refined, and rectangular guide holes 231 matched with the moving blocks are formed in the partition plates.

The scheme is refined, deposit case lateral wall and be equipped with the rectangle slip through-hole that holds the even board and pass.

In at least one embodiment, as shown in fig. 5, a guiding mechanism is mounted on the conveying belt mechanism, the guiding mechanism comprises a vertical supporting rod 51, the vertical supporting rod is fixedly connected to the conveying belt mechanism, a mounting plate 52 is arranged at the top of the vertical supporting rod, a guiding electric cylinder 53 is arranged at the top of the mounting plate, a telescopic rod of the guiding electric cylinder is connected with an upper plate 54, the upper plate is connected with a lower rod 55, a guiding plate 56 is arranged at the bottom of the lower rod, and when a pushing mechanism pushes a lithium battery to enter a rectangular guiding groove, the two guiding plates are respectively positioned at two sides of the lithium battery. The guide mechanism provides accurate guidance for the lithium batteries as they enter the rectangular guide slot, ensuring that they do not deviate from the intended path. The combined design of the vertical supporting rod 51, the mounting plate 52, the guiding electric cylinder 53, the upper plate 54, the lower rod 55 and the guiding plate 56 ensures the guiding accuracy and stability.

The lithium battery stack arrangement device comprises the following using steps:

1. when people need to arrange the lithium battery stacks, the lithium batteries in the storage groove are driven to move to the pushing mechanism through the moving mechanism. The moving mechanism is matched with the rotating motor, the first synchronous belt pulley, the synchronous belt and the second synchronous belt pulley, so that the connecting plate, the moving block and the arc pushing plate move in the storage tank, and then the lithium battery is pushed to the position of the pushing mechanism.

2. When the lithium battery reaches the pushing mechanism, the flexible spring is compressed by the telescopic rod of the pushing electric cylinder, so that the pushing plate is in contact with the lithium battery. In the process, the flexible spring plays a role in buffering, and excessive impact force on the lithium battery is avoided.

3. The telescopic rod of the pushing electric cylinder continuously pushes the pushing plate to push the lithium battery into the rectangular guide groove of the conveying belt mechanism. Meanwhile, the guiding electric cylinder of the guiding mechanism is retracted, so that the two guiding plates are respectively positioned at two sides of the lithium battery and used for guiding the lithium battery.

4. When the lithium battery is completely pushed into the rectangular guide groove, the guide electric cylinder stretches out, so that the guide plates are separated from two sides of the lithium battery. At this time, the conveyer belt mechanism continues to transmit to make next rectangle guide slot face the push away the silo, make things convenient for the lithium cell to get into next rectangle guide slot from the push away the silo.

5. In the transmission process of the transmission belt mechanism, the lithium batteries can move along with the rectangular guide grooves, so that stacking arrangement of the lithium batteries is realized. In the whole process, people can realize automatic stacking arrangement of lithium batteries by controlling actions of the pushing mechanism and the conveying belt mechanism.

6. When the arranged lithium batteries need to be taken out, the lithium batteries can be removed from the storage groove through the moving mechanism of the storage assembly. Meanwhile, the pushing mechanism can push out the lithium battery to the conveying belt mechanism by controlling the telescopic rod of the pushing electric cylinder.

Other than the technical features described in the specification, all are known to those skilled in the art.

Claims (10)

1. The utility model provides a lithium cell buttress sign indicating number collating unit, its characterized in that, includes a conveyer belt mechanism, be equipped with the rectangle guide way on the conveyer belt of conveyer belt mechanism, conveyer belt mechanism is equipped with deposits the subassembly, it is equipped with a pushing equipment to deposit the subassembly tip, pushing equipment includes a pushing electric cylinder and a pushing plate, be equipped with a uide bushing on the pushing plate, sliding fit has the telescopic link of pushing the electric cylinder in the uide bushing, install flexible spring between telescopic link and the uide bushing bottom.

2. The lithium battery stack arrangement device according to claim 1, wherein the pushing mechanism further comprises a pushing groove, a pushing channel is formed in a front opening of the pushing groove, a material inlet is formed in a right opening of the pushing groove, the pushing groove comprises a rear side plate, a pushing electric cylinder is mounted on the rear side plate, a pushing plate is connected to a telescopic rod of the pushing electric cylinder, and a plugging plate is connected to the pushing plate.

3. The lithium battery stack arrangement device according to claim 2, wherein an extension plate is mounted on the rear side plate, a guide sleeve is arranged on the extension plate, and a plugging plate is slidably matched with the guide sleeve.

4. A lithium battery pack arrangement according to claim 2 or 3, wherein the blocking plate is capable of blocking the material inlet as the pusher plate moves along the pusher channel.

5. The lithium battery stack arrangement device according to claim 2, wherein a rubber buffer layer is arranged on the surface of the pushing plate.

6. The lithium battery stack arrangement device according to claim 5, wherein the belt conveying mechanism comprises two parallel long plates, a plurality of support rods are arranged between the two long plates, a first belt wheel and a second belt wheel are rotatably connected to the long plates, the first belt wheel and the second belt wheel are in driving connection through a conveying belt, a first motor is arranged on the long plates, the first motor is connected with the first belt wheel, and the first motor can drive the first belt wheel to rotate so as to drive the conveying belt to move.

7. The lithium battery stack arrangement according to claim 5, wherein the storage assembly comprises a storage box, the storage box is provided with a storage groove, a plurality of partition plates are arranged in the storage groove, and the storage groove is divided into a plurality of storage channels by the partition plates.

8. The lithium battery stack arrangement device according to claim 7, wherein a moving mechanism is arranged on one side of the storage box, the moving mechanism comprises a rotating motor, an output shaft of the rotating motor is connected with a first synchronous belt pulley, a second synchronous belt pulley is rotatably connected to one side of the storage box far away from the rotating motor, the first synchronous belt pulley and the second synchronous belt pulley are in driving connection through a synchronous belt, a moving block is slidably matched on the partition plate, adjacent moving blocks are connected together through an arc-shaped pushing plate, and at least one moving block is fixedly connected to the synchronous belt through a connecting plate.

9. The lithium battery stack arrangement device according to claim 7 or 8, wherein the partition plate is provided with a rectangular guide hole matched with the moving block, and the side wall of the storage box is provided with a rectangular sliding through hole for accommodating the connecting plate to pass through.

10. The lithium battery stack arrangement device according to claim 1, wherein the guide mechanism is mounted on the conveyor belt mechanism, the guide mechanism comprises a vertical support rod fixedly connected to the conveyor belt mechanism, a mounting plate is arranged at the top of the vertical support rod, a guide electric cylinder is arranged at the top of the mounting plate, a telescopic rod of the guide electric cylinder is connected with an upper plate, the upper plate is connected with a lower rod, guide plates are arranged at the bottom of the lower rod, and when a pushing mechanism pushes lithium batteries into the rectangular guide grooves, the two guide plates are respectively positioned at two sides of the lithium batteries.