Electrolyte packaging production line and electrolyte preparation system

By using an automated electrolyte packaging production line and comparing information from control and testing equipment, the problem of low efficiency in manual operation has been solved, achieving efficient and accurate electrolyte packaging and ensuring the quality of shipped products.

CN224324272UActive Publication Date: 2026-06-05JIUJIANG TINCI ADVANCED MATERIALS CO LTD +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIUJIANG TINCI ADVANCED MATERIALS CO LTD
Filing Date
2025-06-19
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing electrolyte packaging production lines rely on manual operation, which is inefficient and can easily affect the quality of shipments.

Method used

Design an automated electrolyte packaging production line that includes a labeling station, an inspection station, and a film coating station. The system uses control equipment to acquire chip information from the ton container, a labeling device to print and affix labels based on the chip information, an inspection device to read and compare the label information, and a film coating device to wrap the container with film, thus achieving automated packaging.

Benefits of technology

This improved the efficiency of electrolyte packaging, reduced the probability of incorrect labeling, and ensured the quality of shipments.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses an electrolyte packaging production line, which comprises a labeling station, a detection station and a film coating station. The electrolyte packaging production line comprises a control device, a labeling device, a detection device, a film coating device and a transfer trolley. The labeling device can print labels according to the chip information of ton barrels and stick the labels at preset positions of the ton barrels. The detection device can read the label information and the chip information. The control device compares the label information and the chip information, and transfers the ton barrels corresponding to the information to the film coating device to coat the film materials, thereby completing the packaging of the ton barrels. Compared with manual handheld device operation, the method can automatically prepare labels according to the ton barrel information and perform labeling operation. Furthermore, the detection device can be used for secondary detection, which can not only improve the efficiency, but also effectively reduce the probability of label sticking error and improve the delivery quality. The application further discloses an electrolyte preparation system.
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Description

Technical Field

[0001] This application belongs to the field of electrolyte preparation technology, specifically relating to an electrolyte packaging production line and an electrolyte preparation system. Background Technology

[0002] With the rapid development of the lithium battery industry, the production and quality requirements for electrolytes are becoming increasingly stringent. As one of the key materials in lithium batteries, the quality of the electrolyte directly affects the battery's performance, safety, and lifespan. Electrolyte quality typically includes both product quality and shipment quality. Product quality is controlled by the electrolyte preparation production line, while shipment quality is controlled by the electrolyte packaging production line; the two work in tandem. For example, if the quality of a particular batch of electrolyte differs from other batches, it is crucial to prevent confusion between this batch and other batches during the shipping process to ensure shipment quality.

[0003] Traditional electrolyte packaging production lines typically rely on manual operation, that is, manual operation using handheld devices, such as handheld labelers, to label the ton containers containing electrolyte. This is not only inefficient, but also prone to labeling errors, affecting the quality of the shipment. Utility Model Content

[0004] The technical problem to be solved by this application is that existing electrolyte packaging production lines rely on manual operation, which is inefficient and easily affects the quality of shipments. In order to solve this technical problem, an electrolyte packaging production line and electrolyte preparation system with higher efficiency and improved shipment quality are provided.

[0005] The technical solution proposed in this application is as follows:

[0006] An electrolyte packaging production line includes a labeling station, an inspection station, and a film coating station, and further includes:

[0007] The control equipment is able to acquire chip information from the ton container;

[0008] A labeling device is installed at the labeling station and is electrically connected to the control device. The labeling device can prepare labels according to chip information and affix labels to preset positions on the ton container.

[0009] The testing equipment is installed at the testing station. The testing equipment can inspect the appearance of the ton container and read the label information and chip information on the ton container.

[0010] A coating equipment is installed at the coating station, and the coating equipment is capable of coating the outer surface of the ton container with a coating material;

[0011] The transfer trolley can move the ton containers between the labeling station, the testing station, and the film coating station.

[0012] Using the aforementioned electrolyte packaging production line, the labeling equipment can print labels based on the chip information of the ton containers and affix them to preset positions on the containers. The detection equipment reads the label and chip information, and the control equipment compares the two sets of information. The corresponding ton container is then transferred to the laminating equipment for film coating, completing the packaging process. Compared to manual handheld operation, this method automatically prepares and marks labels based on the ton container's chip information. Furthermore, secondary detection can be performed subsequently, improving efficiency, effectively reducing the probability of incorrect labeling, and enhancing overall product quality.

[0013] Furthermore, the labeling device includes a label printer, a labeling moving component, and a labeling component. The label printer is electrically connected to the control device to print labels according to chip information. The labeling moving component is connected to the labeling component and can drive the labeling component to move along three axes. During the movement of the labeling component, it can acquire the label printed by the label printer and affix the label to a preset position on the ton container.

[0014] Furthermore, the labeling component includes a first movable module, a second movable module, and a third movable module connected in sequence. The first movable module can drive the second movable module to reciprocate along a first direction, and the second movable module can drive the third movable module to reciprocate along a second direction. The third movable module is connected to the labeling component to drive the labeling component to reciprocate along a third direction.

[0015] Furthermore, the labeling assembly further includes a rotating module, the third movable module is connected to the rotating module, and the rotating module is connected to the labeling assembly to drive the labeling assembly to rotate about an axis parallel to the third direction.

[0016] Furthermore, the film coating equipment includes a film coating support, a top coating assembly, and a winding assembly. The top coating assembly and the winding assembly are both disposed on the film coating support. The top coating assembly can cover the top of the ton container with film material, and the winding assembly can wind the ton container with film material on the side.

[0017] Furthermore, the covering assembly includes a translation module, a covering lifting module, and a gripping module. The translation module is reciprocally movable along a fourth direction on the film covering support. The covering lifting module is reciprocally movable along a fifth direction on the translation module. The gripping module is disposed on the covering lifting module and is capable of gripping the film material.

[0018] Furthermore, the coating equipment also includes a top coating frame, which is disposed on the coating support, and the horizontal height of the top coating frame is lower than the height of the top of the ton container at the coating station. The top coating frame is used to place the film material.

[0019] Furthermore, the winding assembly includes a winding frame, a winding lifting module, and an unwinding module. The winding frame is connected to the top of the film-coating support. The winding lifting module is reciprocally connected to the winding frame along the fifth direction. The unwinding module is disposed on the winding lifting module and is used to release the film material.

[0020] The winding frame is rotatable about an axis parallel to the fifth direction, thereby driving the winding lifting module and the unwinding module to rotate around the ton drum at the film coating station.

[0021] Furthermore, the coating equipment also includes a coating mounting base, a clamping module, and a smoothing module. The mounting base is fixedly disposed relative to the coating support. The clamping module is disposed on the coating mounting base and is capable of clamping or releasing the film material between the ton container and the unwinding module. The smoothing module is disposed on the coating support and is capable of smoothing the film material on the surface of the ton container.

[0022] An electrolyte preparation system, including the electrolyte packaging production line. Attached Figure Description

[0023] The accompanying drawings are provided to further understand this application and form part of the specification. They are used together with the embodiments of this application to explain this application and do not constitute a limitation thereof.

[0024] Figure 1 This is a schematic diagram of the structure of a labeling device provided in one embodiment of this application;

[0025] Figure 2 for Figure 1 The diagram shows another angle of the labeling equipment.

[0026] Figure 3 This is a schematic diagram of the structure of a testing device provided in one embodiment of this application;

[0027] Figure 4 This is a schematic diagram of the structure of a coating device provided in one embodiment of this application;

[0028] Figure 5 for Figure 4 A schematic diagram of the top covering component in the coating equipment shown;

[0029] Figure 6 for Figure 4 A schematic diagram of some components in the coating equipment shown.

[0030] Label Explanation:

[0031] 100. Labeling equipment; 110. Label printer; 120. Labeling moving component; 121. First moving module; 122. Second moving module; 123. Third moving module; 130. Labeling component; 140. Labeling frame; 150. Storage component; 160. Barcode scanning mechanism; 200. Detection equipment; 210. Drive mechanism; 220. Detection mounting base; 230. 3D camera; 240. RFID reader; 2 50. 2D camera; 300. Laminating equipment; 310. Laminating support; 320. Top covering assembly; 321. Translation module; 322. Top covering lifting module; 323. Gripping module; 330. Winding assembly; 331. Winding frame; 332. Winding lifting module; 333. Unwinding module; 334. Winding drive; 340. Top covering frame; 350. Laminating mounting base; 360. Clamping module; 370. Smoothing module. Detailed Implementation

[0032] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application.

[0033] In the description of this application, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the equipment or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.

[0034] On one hand, this application discloses an electrolyte packaging production line, including a labeling station, a testing station, and a film coating station. For example... Figure 1 , Figure 3 and Figure 4 As shown, the electrolyte packaging production line includes a transfer trolley, control equipment, labeling equipment 100, testing equipment 200, and coating equipment 300.

[0035] The transfer trolley can carry the ton barrels and can circulate between the labeling station, the inspection station and the film covering station, so as to drive the ton barrels to circulate between multiple stations. Among them, the ton barrel is a ton barrel filled with electrolyte, and the ton barrel is provided with a chip, and the chip stores the barrel number of the ton barrel and the filling information of the electrolyte. The filling information includes but is not limited to the batch number and the production date. The control device can obtain the chip information of the ton barrel. It should be noted that the control device can be electrically connected to the control system of the upstream production line to obtain the barrel number of the ton barrel and the filling information of the electrolyte.

[0036] The labeling device 100 is arranged at the labeling station and is electrically connected to the control device. The labeling device 100 can prepare labels according to the chip information and stick the labels at the preset positions of the ton barrels; the inspection device 200 is arranged at the inspection station. The inspection device 200 can inspect the appearance of the ton barrels and can read the label information and chip information of the ton barrels; the control device is electrically connected to the inspection device 200, so as to obtain the label information and chip information and compare them to judge whether there is an error in the label information; the film covering device 300 is arranged at the film covering station, and the film covering device 300 can cover the outer surface of the ton barrel with a film material.

[0037] For the above-mentioned electrolyte packing production line, its technological process is as follows: the transfer trolley first transports the ton barrel to the labeling station, and the labeling device 100 prepares the corresponding label according to the chip information of the ton barrel, and then sticks the label at the preset position of the ton barrel; next, the transfer trolley transports the ton barrel to the inspection station, and the inspection device 200 inspects the appearance of the ton barrel to judge whether there are defects in the appearance of the ton barrel, such as dents, breakages and other defects. At the same time, the inspection device 200 can also read the label information and chip information on the ton barrel, and the control device obtains the label information and chip information read by the inspection device 200 and compares the two information. If there are no defects in the appearance and the information corresponds, it is qualified. The transfer trolley transports the qualified ton barrels to the film covering station, and the operator starts the film covering device 300 to cover the outer surface of the ton barrel with a film material through the film covering device 300, so as to complete the packing. If there are defects in the appearance of the ton barrel or the label information and the chip information are different, the ton barrel is unqualified, and the transfer trolley transports the unqualified ton barrels to the corresponding area for the operator to perform different operations according to the type of error. For example, if there are defects in the appearance, the ton barrel may need to be replaced, and if the information is different, the operator needs to further confirm the specific reason, so both may need to be transported to different areas for temporary storage.

[0038] Using the aforementioned electrolyte packaging production line, the labeling equipment 100 can print labels based on the chip information of the ton containers and affix the labels to preset positions on the containers. The detection equipment 200 can read the label information and chip information, and the control equipment compares the label information and chip information, transferring the corresponding ton containers to the laminating equipment 300 for film coating, thus completing the packaging of the ton containers. Compared to manual handheld operation, this method can automatically prepare and label the containers based on their chip information. Furthermore, the detection equipment 200 can perform secondary inspections, which not only improves efficiency but also effectively reduces the probability of label misapplication and improves the quality of shipped products.

[0039] Please see Figure 1 and Figure 2 In one embodiment, the labeling device 100 includes a label printer 110, a labeling moving component 120, and a labeling component 130. The label printer 110 is electrically connected to a control device to print labels according to chip information; the labeling moving component 120 is connected to the labeling component 130 to drive the labeling component 130 to move along three axes; during the movement, the labeling component 130 can acquire the label printed by the label printer 110 and affix the label to a preset position on the ton container.

[0040] Furthermore, the labeling equipment 100 includes a labeling frame 140, a label printer 110, and a labeling active component 120, all of which are disposed on the labeling frame 140. In practical applications, the labeling equipment 100 also includes a storage component 150, which is disposed on the labeling frame 140 and close to the label printer 110, and is used to store label paper.

[0041] In one embodiment, the labeling assembly 120 includes a first movable module 121, a second movable module 122, and a third movable module 123 connected in sequence. The first movable module 121 is disposed on the labeling frame 140 and can drive the second movable module 122 to reciprocate along a first direction; the second movable module 122 can drive the third movable module 123 to reciprocate along a second direction; the third movable module 123 is connected to the labeling assembly 130 to drive the labeling assembly 130 to reciprocate along a third direction. Specifically... Figure 1 In the described embodiment, the first direction and the third direction are two horizontal directions perpendicular to each other, the second direction is a vertical direction, and the labeling component 130 can move closer to and further away from the ton container at the labeling station during its reciprocating movement along the third direction. Optionally, the first movable module 121, the second movable film assembly, and the third movable module 123 can all be linear modules, cylinders, or other drive mechanisms 210, and are not limited here.

[0042] Furthermore, the labeling assembly 120 also includes a rotating module, and a third movable module 123 is connected to the rotating module to drive the rotating module to reciprocate along a third direction; the rotating module is connected to the labeling assembly 130 to drive the labeling assembly 130 to rotate about an axis parallel to the third direction, thereby adjusting the angle of the label. Optionally, the rotating module is a motor.

[0043] It should be noted that the labeling component 130 can adsorb and grasp the label by means of negative pressure, for example, it includes an adsorption element, the rotating module is connected to the adsorption element, and the adsorption element is connected to the vacuum generator through a pipeline; or it can grasp the label by means of adhesion, for example, it includes an adhesive attachment, the rotating module is connected to the adsorption element, the adhesive attachment can adhere the label, and after the label is affixed to the ton, the adhesive force between the label and the ton is greater than the adhesive force between the adhesive attachment and the label, so that the adhesive attachment and the label can be separated and the label is affixed to the ton.

[0044] Meanwhile, if the label is gripped by adsorption, a flexible layer can be provided on the adsorption component. The label adheres to the flexible layer, and adsorption holes are formed in the flexible layer. These holes are connected to a vacuum generator via pipes to generate negative pressure within the holes, thus adsorbing the label. If the label is gripped by adhesion, a flexible layer can be provided on the side of the adhesive component that grips the label, and then a material that can adhere to the label can be coated on the surface of the flexible layer. This ensures that the label is pressed firmly against the surface of the ton container, improving the adhesion between the label and the ton container.

[0045] In one embodiment, the labeling equipment further includes a barcode scanning mechanism 160, which is disposed in the labeling movable component 120, specifically connected to the second movable film assembly or the third movable module 123. The barcode scanning mechanism 160 scans the label on the ton container after the label is applied, thereby determining whether the label is affixed to the preset position on the ton container. It should be explained that when the ton container is transported to the labeling equipment, its position is fixed, ensuring that the label can be affixed to the preset position on the ton container. Simultaneously, the position of the barcode scanning mechanism 160, and its scanning position on the ton container, are also fixed; that is, the barcode scanning mechanism 160 scans the preset position on the ton container. If the barcode scanning mechanism 160 can scan the label, it can be determined that the label is accurately affixed. If the barcode scanning mechanism 160 does not scan the label, it indicates that the label was not successfully affixed or that the affixing position is deviated. An alarm can be triggered by the equipment to notify the operator, who can then determine the cause of the affixing failure and reapply the label. Optionally, the scanning mechanism 160 can be a barcode scanner or similar structure, and the label can be converted to corresponding information via QR code and / or barcode, without any restrictions.

[0046] Please see Figure 3In one embodiment, the detection device 200 includes a drive mechanism 210, a detection mounting base 220, a 3D camera 230, an RF reader 240, and a 2D camera 250. The drive mechanism 210 has a movably configured drive end connected to the detection mounting base 220 to drive the detection mounting base 220 to move. The 3D camera 230, RF reader 240, and 2D camera 250 are all mounted on the detection mounting base 220 to move with it. The 3D camera 230 is used to detect the position of the container, the RF reader 240 is used to read the chip information of the container, and the 2D camera 250 is used to read the label information of the container. Optionally, the drive mechanism 210 is a multi-axis robotic arm.

[0047] After the transfer trolley transfers the labeled ton containers to the inspection station, the drive mechanism 210 drives the inspection mounting base 220 to move, which in turn drives the 3D camera 230 to inspect the appearance of the ton containers. Then, at a preset position, the RF reader 240 reads the chip information of the ton containers, and the 2D camera 250 reads the label information of the ton containers.

[0048] Please see Figure 4 In one embodiment, the coating equipment 300 includes a coating support 310, a top coating component 320, and a winding component 330. The coating support 310 is disposed at the coating station; the top coating component 320 and the winding component 330 are both disposed on the coating support 310, and the coating component can wrap the film material on the top of the ton container, and the winding component 330 can wind the film material on the side of the ton container.

[0049] Please also refer to Figure 5 In one embodiment, the covering assembly 320 includes a translation module 321, a covering lifting module 322, and a gripping module 323. The translation module 321 is reciprocally movable on the film covering support 310 along a fourth direction. The covering lifting module 322 is reciprocally movable on the translation module 321 along a fifth direction. The gripping module 323 is disposed on the covering lifting module 322 and is capable of gripping the film material.

[0050] When the ton container is being coated, the ton container is located in the middle of the coating support 310, the translation module 321 is located at the edge of the coating support 310, the top lifting module 322 is located at the bottom of the translation module 321, and the gripping module 323 grips the end of the film material. Next, the top lifting module 322 rises to the top of the translation module 321. At this time, the height of the gripping module 323 is higher than the height of the ton container. Then, the translation module 321 moves along the fourth direction toward the other edge of the coating support 310 until the gripping module 323 moves to the other side of the ton container. Then, the top lifting module 322 drives the gripping module 323 to descend, so that the film material gripped by the gripping module 323 covers the top of the ton container.

[0051] It should be noted that, as Figure 4 As shown, there are two translation modules 321, which are respectively arranged on opposite sides of the film covering bracket 310 along the sixth direction; the top covering lifting module 322 is connected between the two translation modules 321. This ensures both the connection strength between the translation modules 321 and the top covering lifting module 322, and also ensures that the translation modules 321 do not interfere with the winding assembly 330 during their reciprocating movement along the fourth direction. Figure 4 In the embodiment shown, the fourth and sixth directions are two mutually perpendicular horizontal directions, and the fifth direction is a vertical direction.

[0052] In practical applications, the translation module 321 includes a translation wheel seat, a translation rod, and a translation drive. The translation wheel seat is reciprocally connected to the top of the coating support 310 along a fourth direction; the translation rod extends vertically, and its top end is connected to the translation wheel seat; the translation drive is disposed on the translation wheel seat and is used to drive the translation wheel seat to reciprocate along the fourth direction. For example, multiple sliding wheels are disposed on the translation wheel seat, and the translation wheel seat is slidably disposed on the top of the coating support 310 through the sliding wheels. The translation drive is connected to the sliding wheels to drive the sliding wheels to rotate, thereby driving the translation assembly to move.

[0053] The covering lifting module 322 can also adopt a structure similar to that of the translation module 321, so that the covering lifting module 322 is reciprocally connected to the translation rod along the fifth direction. Of course, in other embodiments, for the translation module 321, the driving component that drives the translation module 321 to move can be set on the film covering bracket 310, and the driving component is connected to the translation module 321 through a transmission belt or other structure; for the covering lifting module 322, the driving component that drives the covering lifting module 322 can be set on the translation module 321, and the driving component can also be connected to the covering lifting module 322 through a transmission belt or other structure, without limitation.

[0054] It should be noted that the gripping module 323 can grip the membrane material by adsorption, thus facilitating the gripping and release of the membrane material. In other embodiments, the gripping module 323 can also grip the membrane material using a clamping gripper. Further, in this embodiment, the membrane material covering the top of the ton container is a sheet. The gripping module 323 grips a sheet of membrane material and covers the top of the ton container in the manner described above, achieving top film coating of the ton container. Simultaneously, after the membrane material is covered on top, its edges droop down from the side of the ton container. When the winding assembly 330 winds the membrane material around the side of the ton container, the membrane material covering the top can be fixed in place by the winding membrane material.

[0055] In one embodiment, the coating equipment 300 further includes a top film holder 340, which is disposed on the coating support 310 and is positioned at a height lower than the top of the ton container at the coating station. The top film holder 340 is used to hold the film material. Thus, after the gripping module 323 grips the film material from the top film holder 340, it extracts the film material from the top film holder 340 and covers the top of the ton container according to the aforementioned actions.

[0056] Please see Figure 4 and Figure 6 In one embodiment, the winding assembly 330 includes a winding frame 331, a winding lifting module 332, and an unwinding module 333. The winding frame 331 is rotatably connected to the top of the film-coating support 310. The winding lifting module 332 is reciprocally connected to the winding frame 331 along a fifth direction. The unwinding module 333 is disposed on the winding lifting module 332 for releasing the film material.

[0057] The winding frame 331 can rotate around an axis parallel to the fifth direction, thereby driving the winding lifting module 332 and the unwinding module 333 to rotate around the ton container at the film coating station, thus winding the film material around the side of the ton container. It should also be noted that the film material released by the unwinding module 333 is a strip of material, and the film material can be continuously released during the winding process.

[0058] When wrapping the film material around the side of the ton container, the winding lifting module 332 first moves to a preset height, and the unwinding module 333 releases the film material. The end of the film material can be manually pulled and adhered to the side of the ton container. Next, the unwinding module 333 continuously releases the strip of film material, and the winding frame 331 drives the winding lifting module 332 to rotate around the ton container, thereby wrapping the film material around the side of the ton container. During the winding process, the winding lifting module 332 can rise or fall to cover a larger area of ​​the side of the ton container.

[0059] It should be noted that the wrapping frame 331 is L-shaped, with one side rotatably connected to the top of the coating support 310, and the other side extending vertically downwards and capable of rotating around the ton container at the coating station. The wrapping lifting module 332 is slidably mounted on the vertically extending side. The L-shaped wrapping frame 331 allows it to be rotated to one side when the top of the ton container is being coated by the top coating assembly 320, thus preventing interference between the top coating lifting module 322 and the gripping module 323 and the wrapping frame 331.

[0060] Furthermore, the winding assembly 330 also includes a winding drive 334, which is disposed on the film-coating bracket 310 and connected to the winding frame 331 to drive the winding frame 331 to rotate. Optionally, the winding drive 334 is a motor.

[0061] It should be noted that the winding lifting module 332 can adopt a similar structure to the top-covering lifting module 322 described above, and will not be elaborated here. In addition, the unwinding module 333 can adopt an unwinding motor and an unwinding shaft, with the unwinding motor connected to the unwinding shaft to drive the unwinding shaft to rotate.

[0062] In one embodiment, the coating equipment 300 further includes a coating mounting base 350, a clamping module 360, and a smoothing module 370. The coating mounting base 350 is fixedly disposed relative to the coating support 310. The clamping module 360 ​​is disposed on the coating mounting base 350 and can clamp or release the film material between the ton container and the unwinding module to clamp the film material after winding, making it convenient to cut the film material. The smoothing module 370 is disposed on the coating support 310 and can smooth the film material on the surface of the ton container, so that after the film material is cut, the raised end of the film material is pressed and smoothed by the smoothing module 370.

[0063] Furthermore, the clamping module 360 ​​is movable relative to the film-coating mounting base 350, and the smoothing module 370 is movable relative to the film-coating support 310, thereby avoiding the top-coating assembly 320 and the winding assembly 330. Specifically, both the clamping module 360 ​​and the smoothing module 370 can pass through the avoidance position and the working position during their movement.

[0064] When the clamping module 360 ​​and the smoothing module 370 are in the avoidance position, the clamping module 360 ​​and the smoothing module 370 avoid the top covering component 320 and the winding component 330; when the clamping module 360 ​​and the smoothing module 370 are in the working position, the clamping module 360 ​​can clamp or release the film material between the ton and the unwinding module 333, and the smoothing module 370 can smooth the film material on the surface of the ton.

[0065] Thus, after the winding assembly 330 winds the film material around the side of the ton container, the film material is not cut at this point, and there is a continuous film material between the ton container and the unwinding module 333. The clamping module 360 ​​moves to the working position, clamps the film material between the ton container and the unwinding module 333, and then cuts the film material by a shearing device, such as a device with a cutter or a device with scissors. After cutting, the clamping module 360 ​​releases the film material and returns to the clearance position, while the smoothing module 370 moves to the working position, pressing down the raised end of the film material on the side of the ton container, thereby smoothing the film material.

[0066] For the clamping module 360; the clamping module 360 ​​may be mounted on the film-coating mounting base 350 via a translation module 321, so as to reciprocate between a working position and a clearance position via the translation module 321. The clamping module 360 ​​may include a clamping drive and a clamp, the clamping drive being connected to the clamp to drive the clamp to clamp and release the film material.

[0067] For the smoothing module 370: The smoothing module 370 may include a driving component and a smoothing component. The driving component can drive the smoothing component to move between a clearance position and a working position, that is, drive the smoothing component to approach and move away from the ton, and press the membrane material in the process of approaching the ton to achieve smoothing of the membrane material.

[0068] In summary, regarding the process flow of the laminating equipment 300, combined with... Figure 4 and Figure 5 Explanation:

[0069] The transfer trolley transfers the qualified ton container to the conveyor structure passing through the coating station. Then, the conveyor structure transports the ton container to the coating station. The ton container is located in the middle of the coating support 310. The top coating frame 340 and the top coating lifting module 322 are both located on one side of the ton container. The winding frame 331 rotates, causing the winding lifting module 332 to rotate to the other side of the ton container. The winding lifting module 332 is located at the bottom of the winding frame 331.

[0070] The gripping module 323 grips the membrane material on the covering membrane frame 340. Then, the covering lifting module 322 drives the gripping module 323 to rise. Next, the translation module 321 drives the covering lifting module 322 to translate to the other side of the container. The covering lifting module 322 then drives the gripping module 323 to descend, and the gripping module 323 releases the membrane material. Finally, the covering lifting module 322 returns to its initial position.

[0071] The winding lifting module 332 drives the unwinding module 333 to move to a preset height. The operator pulls the end of the film material on the unwinding module 333 to fit against the outside of the ton container. Next, the winding drive 334 drives the winding frame 331 to rotate. During the rotation, the unwinding module 333 continuously releases the film material, and the winding lifting module 332 can drive the unwinding module 333 to rise and fall.

[0072] After the membrane material is wound, the clamping module 360 ​​moves to the working position, the clamps tighten the membrane material, and then the membrane material between the unwinding module 333 and the ton container is cut. After cutting, the clamps release the membrane material. The smoothing module 370 moves to the working position and presses and smooths the end of the membrane material on the ton container, thereby completing the film coating of the ton container.

[0073] On the other hand, this application also provides an electrolyte preparation system, including the electrolyte packaging production line in the above embodiments. It can also be determined that the electrolyte preparation system further includes an electrolyte production and filling production line, with these two lines located upstream of the electrolyte packaging production line.

[0074] In summary, the electrolyte packaging production line and electrolyte preparation system provided in this application have at least the following advantages:

[0075] 1. It can generate labels based on the chip information of the ton container and affix the labels to the preset positions on the ton container with high efficiency; moreover, the detection equipment 200 can read the label information and chip information, and the control equipment can compare the label information and chip information to avoid labeling errors.

[0076] 2. The labeling device 100 can also scan the barcode after the label is applied to avoid missing labels;

[0077] 3. The labeling component 120 can adjust the position of the labeling component 130 in three-axis directions, thereby adjusting the angle of the labeling component 130 and ensuring the accuracy of the label position;

[0078] 4. The 300 film-coating equipment can cover the top and sides of the ton container with film to prevent the ton container from being contaminated by the outside world or physically damaged.

[0079] 5. After lamination, the ends of the membrane are smoothed using the poverty alleviation module to ensure the flatness of the membrane and prevent it from falling off.

[0080] Although embodiments of this application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of this application, the scope of which is defined by the appended claims and their equivalents.

Claims

1. An electrolyte packaging production line, characterized in that, This includes labeling stations, testing stations, and lamination stations, as well as: The control equipment is able to acquire chip information from the ton container; A labeling device is installed at the labeling station and is electrically connected to the control device. The labeling device can prepare labels according to chip information and affix labels to preset positions on the ton container. The testing equipment is installed at the testing station and is electrically connected to the control equipment. The testing equipment can inspect the appearance of the ton container and can read the label information and chip information on the ton container. A coating equipment is installed at the coating station, and the coating equipment is capable of coating the outer surface of the ton container with a coating material; The transfer trolley can move the ton containers between the labeling station, the testing station, and the film coating station.

2. The electrolyte packaging production line according to claim 1, characterized in that, The labeling equipment includes a label printer, a labeling moving component, and a labeling component. The label printer is electrically connected to the control device to print labels according to chip information. The labeling moving component is connected to the labeling component and can drive the labeling component to move along three axes. During the movement of the labeling component, it can acquire the label printed by the label printer and affix the label to a preset position on the ton container.

3. The electrolyte packaging production line according to claim 2, characterized in that, The labeling assembly includes a first movable module, a second movable module, and a third movable module connected in sequence. The first movable module can drive the second movable module to reciprocate along a first direction, and the second movable module can drive the third movable module to reciprocate along a second direction. The third movable module is connected to the labeling assembly to drive the labeling assembly to reciprocate along a third direction.

4. The electrolyte packaging production line according to claim 3, characterized in that, The labeling assembly further includes a rotating module, and the third movable module is connected to the rotating module. The rotating module is connected to the labeling assembly to drive the labeling assembly to rotate about an axis parallel to the third direction.

5. The electrolyte packaging production line according to claim 1, characterized in that, The film coating equipment includes a film coating support, a top coating component, and a winding component. The top coating component and the winding component are both disposed on the film coating support. The top coating component can cover the top of the ton container with film material, and the winding component can wind the side of the ton container with film material.

6. The electrolyte packaging production line according to claim 5, characterized in that, The covering assembly includes a translation module, a covering lifting module, and a gripping module. The translation module is reciprocally movable along a fourth direction on the film covering support. The covering lifting module is reciprocally movable along a fifth direction on the translation module. The gripping module is disposed on the covering lifting module and is capable of gripping the film material.

7. The electrolyte packaging production line according to claim 6, characterized in that, The coating equipment also includes a top coating frame, which is disposed on the coating support and the horizontal height of the top coating frame is lower than the height of the top of the ton container at the coating station. The top coating frame is used to place the film material.

8. The electrolyte packaging production line according to claim 5, characterized in that, The winding assembly includes a winding frame, a winding lifting module, and an unwinding module. The winding frame is connected to the top of the film-coating support. The winding lifting module is reciprocally connected to the winding frame along the fifth direction. The unwinding module is disposed on the winding lifting module and is used to release the film material. The winding frame is rotatable about an axis parallel to the fifth direction, thereby driving the winding lifting module and the unwinding module to rotate around the ton drum at the film coating station.

9. The electrolyte packaging production line according to claim 8, characterized in that, The coating equipment further includes a coating mounting base, a clamping module, and a smoothing module. The mounting base is fixedly disposed relative to the coating support. The clamping module is disposed on the coating mounting base and can clamp or release the film material between the ton container and the unwinding module. The smoothing module is disposed on the coating support and can smooth the film material on the surface of the ton container.

10. An electrolyte preparation system, characterized in that, The electrolyte packaging production line includes any one of claims 1-9.