A cleaning device for a gluing assembly

By designing a high-pressure airflow cleaning device for the adhesive coating assembly, the problem of adhesive coating hole clogging was solved, achieving a highly efficient and non-damaging cleaning effect, and improving production efficiency and economic benefits.

CN224463338UActive Publication Date: 2026-07-07HUBEI CHINA TOBACCO INDUSTRY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUBEI CHINA TOBACCO INDUSTRY CO LTD
Filing Date
2025-06-26
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In the existing technology, the glue coating component on the GDX2 hard box packaging machine is clogged with glue curing residue and contamination, which affects the uniformity of glue coating and results in the label paper not being firmly bonded to the cigarette box. In addition, traditional manual cleaning methods are prone to damaging the glue rollers, increasing maintenance costs and downtime.

Method used

A cleaning device for an adhesive coating assembly was designed. It uses high-pressure airflow to clean the coating holes through nozzles, and combines a drive component to drive the adhesive roller to rotate, thereby achieving non-contact cleaning and avoiding wear on the surface of the adhesive roller.

Benefits of technology

It improves cleaning efficiency and quality, reduces labor costs, extends the service life of glued components, and reduces maintenance costs and production downtime.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to tobacco machinery technical field discloses a kind of cleaning device of gluing assembly.This cleaning device includes mounting, cleaning assembly and driving part, mounting includes accommodating groove, several supporting members are provided in accommodating groove, several supporting members are spaced apart, gluing assembly can be accommodated in accommodating groove, and several supporting members are used to support glue cylinder;Cleaning assembly includes quick connector, gas pipeline and cleaning part, quick connector and cleaning part are set on mounting, gas pipeline is communicated quick connector and cleaning part, multiple nozzles are spaced apart on cleaning part, when gluing assembly is accommodated in accommodating groove, multiple nozzles are respectively one-to-one positive for multiple glue rollers, and quick connector is connected with compressed gas pipeline;Driving part is configured as driving roll shaft rotates around its own axis.This cleaning device does not need manual cleaning, reduces manual cost, improves cleaning efficiency, improves cleaning quality, avoids the surface of glue roller to cause abrasion, prolongs the life of gluing assembly.
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Description

Technical Field

[0001] This utility model relates to the field of tobacco machinery technology, and in particular to a cleaning device for an adhesive coating component. Background Technology

[0002] In the GDX2 hard-pack packaging machine, the glue applicator is one of the key components ensuring the quality of cigarette hard packs. The main function of the glue applicator is to precisely apply the appropriate amount of glue to the label paper of the cigarette hard pack, so that the label paper can be firmly and smoothly bonded to the cigarette pack, ultimately forming a complete, beautiful cigarette pack that meets quality standards.

[0003] like Figure 1 , Figure 2 As shown, the glue application assembly 100 includes a glue cylinder 1001, multiple glue rollers 1002, and a roller shaft 1003. The glue cylinder 1001 has a through hole 1004. The roller shaft 1003 is rotatably inserted through the glue cylinder 1001. The multiple glue rollers 1002 are located inside the glue cylinder 1001 and fixed at intervals to the roller shaft 1003. Multiple sets of glue application holes are spaced apart along the circumference of the glue rollers 1002, each set including multiple glue application holes 1005. The glue cylinder 1001 contains glue. The glue rollers 1002 can rotate at high speed under a drive, allowing their outer circumference to be immersed in the glue in the glue cylinder 1001. The glue can be contained within the glue application holes 1005 of the glue application hole set, so that the glue is applied to the label paper, thus adhering the label to the cigarette box.

[0004] However, due to the long-term high-load, continuous operation of the GDX2 rigid box packaging machine, problems such as glue curing residue and glue contamination are unavoidable. These problems accumulate gradually, eventually leading to blockage of the glue application holes. Once the glue application holes are blocked, it will directly affect the uniformity of glue application, resulting in an uneven glue coating on the label paper. This, in turn, causes the label paper to not adhere firmly to the cigarette box, ultimately leading to quality problems such as edge cracking and glue overflow in the cigarette box, seriously affecting the product qualification rate.

[0005] In related technologies, the glue coating components are usually cleaned manually. Operators need to rinse the glue rollers with clean water. However, due to the small size of the glue coating holes, tools such as copper wire brushes are usually needed for auxiliary cleaning. However, the long-term mechanical friction and the hardness of the copper wire brushes will inevitably cause scratches on the surface of the glue rollers, forming tiny grooves and wear. These damages will not only further aggravate the glue residue problem, but also significantly reduce the service life of the glue rollers, increase equipment maintenance costs and production downtime, and ultimately affect production efficiency and economic benefits.

[0006] Therefore, there is a need to provide a cleaning device for adhesive coating components to solve the above problems. Utility Model Content

[0007] The purpose of this invention is to provide a cleaning device for adhesive coating components, which has high cleaning efficiency and quality, does not cause wear to the adhesive coating components, and reduces maintenance costs.

[0008] To achieve this objective, the present invention adopts the following technical solution:

[0009] A cleaning device for an adhesive application assembly, the adhesive application assembly including an adhesive cylinder, multiple adhesive rollers and a roller shaft, wherein the adhesive cylinder has a through hole, the roller shaft is rotatably inserted through the adhesive cylinder, the multiple adhesive rollers are located inside the adhesive cylinder and fixed to the roller shaft at intervals, and multiple sets of adhesive application holes are spaced apart along the circumference of the adhesive rollers, each set of adhesive application holes including multiple adhesive application holes; the cleaning device for the adhesive application assembly includes:

[0010] The mounting component includes a receiving groove, in which a plurality of supporting members are disposed, the plurality of supporting members being spaced apart, the adhesive application assembly being able to be accommodated in the receiving groove, and the plurality of supporting members being used to support the adhesive cylinder.

[0011] A cleaning assembly includes a quick-connect interface, a gas pipe, and a cleaning component. The quick-connect interface and the cleaning component are disposed on the mounting component. The gas pipe connects the quick-connect interface and the cleaning component. The cleaning component has multiple nozzles spaced apart. When the adhesive application assembly is accommodated in the receiving groove, the multiple nozzles are respectively aligned with the multiple adhesive rollers. The quick-connect interface is externally connected to a compressed gas pipe.

[0012] A drive element configured to drive the roller shaft to rotate about its own axis.

[0013] Preferably, the cleaning device of the adhesive application assembly further includes a positioning shaft, which is disposed in the receiving groove. When the adhesive cylinder is accommodated in the receiving groove, the positioning shaft passes through the through hole of the adhesive cylinder.

[0014] Preferably, the driving member is disposed within the mounting member, with the output end of the driving member extending out of the mounting member to be located within the receiving groove, and the roller of the adhesive application assembly being able to engage with the output end of the driving member, so that the driving member can drive the roller to rotate around its own axis.

[0015] Preferably, the output end of the drive component is provided with a coupling, and the cleaning device for the adhesive application assembly further includes:

[0016] The snap-fit ​​assembly includes a snap-fit ​​block and a snap-fit ​​groove for snap-fit ​​engagement. The snap-fit ​​block is provided on one end of the coupling and the roller shaft facing the coupling, and the snap-fit ​​groove is provided on the other end, so that the roller shaft is snapped into the coupling.

[0017] Preferably, the cleaning device for the adhesive coating assembly further includes:

[0018] A proximity sensor is disposed within the receiving groove, and the proximity sensor is used to sense the glue cylinder.

[0019] Preferably, the cleaning device for the adhesive coating assembly further includes:

[0020] A limiting component is provided to prevent the adhesive application component from detaching from the receiving groove.

[0021] Preferably, the limiting component includes:

[0022] A rotating shaft, at least a portion of which is rotatably disposed within the mounting component;

[0023] A limiting member is disposed on the rotating shaft. A sliding groove is provided on the mounting member. The limiting member is located in the sliding groove, and at least part of the limiting member extends out of the sliding groove. Rotating the rotating shaft can drive the limiting member to move along the sliding groove so that the limiting member is limited and abuts against the rubber cylinder.

[0024] Preferably, the rotating shaft is provided with a limiting part, which is used to limit the axial movement of the rotating shaft within the mounting component.

[0025] Preferably, the limiting component further includes a handle disposed on the portion of the pivot located between the mounting members.

[0026] Preferably, the limiting member has a buffer layer on the side facing the receiving groove.

[0027] The beneficial effects of this utility model are:

[0028] This cleaning device includes a mounting component, a cleaning assembly, and a drive component. The mounting component includes a receiving groove containing several support members spaced apart. The adhesive application assembly can be accommodated within the receiving groove, and the support members support the adhesive cylinder. The cleaning assembly includes a quick-connect interface, a gas pipeline, and a cleaning component. The quick-connect interface and the cleaning component are mounted on the mounting component, and the gas pipeline connects the quick-connect interface and the cleaning component. The cleaning component has multiple nozzles spaced apart. When the adhesive application assembly is accommodated in the receiving groove, the multiple nozzles are each aligned with a multiple adhesive roller. The quick-connect interface is connected to a compressed gas pipeline. The drive component is configured to drive the roller shaft to rotate around its own axis.

[0029] When cleaning the adhesive application assembly is required, it is placed in the receiving slot of the cleaning device. Several support members support the adhesive cylinder to ensure that the adhesive application assembly can be stably set in the receiving slot. At this time, the multiple nozzles of the cleaning assembly correspond one-to-one with the multiple adhesive rollers, ensuring that the nozzles can be accurately aligned with the surface of the adhesive rollers. The quick-connect interface is connected to the compressed gas pipeline. When the compressed gas enters the gas pipeline through the quick-connect interface, the gas pipeline delivers the compressed gas to the cleaning component. Then, the cleaning component sprays high-speed airflow onto the surface of the adhesive roller through multiple nozzles to clean the adhesive application holes. The drive component drives the roller shaft to rotate around its own axis so that the multiple sets of adhesive application holes spaced apart on the outer circumference of the adhesive roller can be aligned with the nozzles of the cleaning component in sequence, ensuring that all sets of adhesive application holes on the adhesive roller can be cleaned.

[0030] This cleaning device precisely sprays high-pressure airflow onto each coating hole on the glue roller to clean them. Compared to traditional manual cleaning, this device eliminates the need for manual cleaning, reducing labor costs and improving cleaning efficiency. The high-pressure airflow penetrates deep into the coating holes to thoroughly remove residual glue, improving cleaning quality. The non-contact cleaning method avoids wear on the surface of the glue roller, extending the life of the coating components and reducing maintenance costs. Attached Figure Description

[0031] Figure 1 This is one of the structural schematic diagrams of the adhesive coating assembly;

[0032] Figure 2 This is the second schematic diagram of the adhesive coating assembly;

[0033] Figure 3 This is a schematic diagram of the cleaning device for the adhesive coating assembly provided by this utility model;

[0034] Figure 4 This is a schematic diagram of the cleaning device and the adhesive application assembly provided by this utility model;

[0035] Figure 5 This is a schematic diagram of the structure of the cleaning component provided by this utility model;

[0036] Figure 6 This is a structural schematic diagram of the limiting component provided by this utility model.

[0037] In the picture:

[0038] 100. Glue application assembly; 1001. Glue cylinder; 1002. Glue roller; 1003. Roller shaft; 1004. Through hole; 1005. Glue application hole;

[0039] 1. Mounting component; 11. Receiving groove; 12. Support component; 13. Positioning shaft; 14. Proximity sensor;

[0040] 21. Quick-connect connector; 22. Cleaning component; 221. Nozzle;

[0041] 31. Coupling;

[0042] 41. Snap-on block; 42. Snap-on slot;

[0043] 5. Limiting component; 51. Rotating shaft; 52. Limiting part; 53. Limiting section; 54. Handle. Detailed Implementation

[0044] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and not intended to limit it. Furthermore, it should be noted that, for ease of description, the accompanying drawings show only the parts relevant to the present invention, not the entire structure.

[0045] In the description of this utility model, unless otherwise explicitly specified and limited, the terms "connected," "linked," and "fixed" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0046] In this invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.

[0047] In the description of this embodiment, the terms "upper," "lower," "left," "right," etc., refer to the orientation or positional relationship shown in the accompanying drawings. They are used only for ease of description and simplification of operation, and do not indicate or imply that the device 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 utility model. In addition, the terms "first" and "second" are only used for distinction in description and have no special meaning.

[0048] like Figure 1 , Figure 2As shown, the glue application assembly 100 includes a glue cylinder 1001, multiple glue rollers 1002, and a roller shaft 1003. The glue cylinder 1001 has a through hole 1004. The roller shaft 1003 is rotatably inserted through the glue cylinder 1001. The multiple glue rollers 1002 are located inside the glue cylinder 1001 and fixed to the roller shaft 1003 at intervals. Multiple sets of glue application holes are spaced apart along the circumference of the glue rollers 1002. Each set of glue application holes includes multiple glue application holes 1005. The glue cylinder 1001 contains glue. The glue rollers 1002 can rotate at high speed under a drive, so that the outer circumference of the glue rollers 1002 is immersed in the glue in the glue cylinder 1001. The glue can be contained in the glue application holes 1005 of the glue application hole set to apply the glue to the label paper and adhere the label to the cigarette box.

[0049] In related technologies, the glue application component 100 is usually cleaned manually. Operators need to rinse the glue roller 1002 with clean water. However, because the glue application hole 1005 is small, tools such as copper wire brushes are usually needed for auxiliary cleaning. However, the long-term mechanical friction and the hardness of the copper wire brush will inevitably cause scratches on the surface of the glue roller 1002, forming fine grooves and wear. These damages will not only further aggravate the glue residue problem, but also significantly reduce the service life of the glue roller 1002, increase equipment maintenance costs and production downtime, and ultimately affect production efficiency and economic benefits.

[0050] To solve the above problems, such as Figures 3-6 As shown, this embodiment provides a cleaning device for an adhesive application assembly. This cleaning device includes a mounting component 1, a cleaning component, and a driving component. The mounting component 1 includes a receiving groove 11, and a plurality of support members 12 are disposed in the receiving groove 11. The plurality of support members 12 are spaced apart, and the adhesive application assembly 100 can be accommodated in the receiving groove 11. The plurality of support members 12 are used to support the adhesive cylinder 1001. The cleaning component includes a quick-connect interface 21, a gas pipe, and a cleaning member 22. The quick-connect interface 21 and the cleaning member 22 are disposed on the mounting component 1. The gas pipe connects the quick-connect interface 21 and the cleaning member 22. A plurality of nozzles 221 are spaced apart on the cleaning member 22. When the adhesive application assembly 100 is accommodated in the receiving groove 11, the plurality of nozzles 221 are respectively aligned with a plurality of adhesive rollers 1002. The quick-connect interface 21 is externally connected to a compressed gas pipe. The driving component is configured to drive the roller shaft 1003 to rotate around its own axis.

[0051] When the glue application assembly 100 needs to be cleaned, it is placed in the receiving groove 11 of the cleaning device. The glue cylinder 1001 is supported by several support members 12 to ensure that the glue application assembly 100 can be stably set in the receiving groove 11. At this time, the multiple nozzles 221 of the cleaning assembly correspond one-to-one with the multiple glue rollers 1002 to ensure that the nozzles 221 can be accurately aligned with the surface of the glue rollers 1002. The quick-connect interface 21 is connected to a compressed gas pipeline. When the compressed gas enters the gas pipeline through the quick-connect interface 21, the gas pipeline delivers the compressed gas to the cleaning component 22. Then, the cleaning component 22 sprays high-speed airflow onto the surface of the glue rollers 1002 through multiple nozzles 221 to clean the glue application holes 1005. The driving component drives the roller shaft 1003 to rotate around its own axis so that the multiple sets of glue application holes spaced apart on the outer circumference of the glue rollers 1002 can be aligned with the nozzles 221 of the cleaning component 22 in sequence, ensuring that the multiple sets of glue application holes on the glue rollers 1002 can be cleaned.

[0052] This cleaning device can precisely spray high-pressure airflow onto each of the glue application holes 1005 on the glue roller 1002 to clean the glue application holes 1005. Compared with traditional manual cleaning, this cleaning device eliminates the need for manual cleaning, reducing labor costs and improving cleaning efficiency; the high-pressure airflow can penetrate deep into the glue application holes 1005 to thoroughly remove residual glue, improving cleaning quality; non-contact cleaning avoids wear on the surface of the glue roller 1002, extending the life of the glue application assembly 100 and reducing maintenance costs.

[0053] Optionally, such as Figure 3 , Figure 4 As shown, the cleaning device for the glue application assembly also includes a positioning shaft 13, which is disposed within the receiving groove 11. When the glue cylinder 1001 is accommodated within the receiving groove 11, the positioning shaft 13 passes through the through hole 1004 of the glue cylinder 1001. The positioning shaft 13 makes the installation and disassembly of the glue cylinder 1001 more convenient and quick. The operator only needs to align the glue cylinder 1001 with the positioning shaft 13 and insert it into the through hole 1004 to complete the installation, reducing the need for position adjustment during installation, improving operational efficiency, and reducing human error that may be introduced due to the operator manually adjusting the position of the glue cylinder 1001, making the cleaning process more standardized and automated. The positioning shaft 13 provides a stable support point for the glue cylinder 1001, especially when the glue cylinder 1001 is supported by the support member 12, further enhancing the stability of the entire glue application assembly 100 during the cleaning process, and preventing the glue roller 1002 from rotating unevenly due to the shaking of the glue cylinder 1001, thereby ensuring the cleaning quality and equipment safety.

[0054] In one optional embodiment, the drive component is disposed within the mounting component 1, with its output end extending through the mounting component 1 and positioned within the receiving groove 11. The roller shaft 1003 of the adhesive application assembly 100 can engage with the output end of the drive component, enabling the drive component to drive the roller shaft 1003 to rotate around its own axis. The drive component is installed inside the mounting component 1, with its output end passing through the mounting component 1 and extending into the receiving groove 11. When the adhesive application assembly 100 is placed within the receiving groove 11, the roller shaft 1003 can engage with the output end of the drive component. The drive component can transmit power to the roller shaft 1003 through its output end, causing the roller shaft 1003 to rotate. This allows the adhesive roller 1002 to undergo comprehensive cleaning under the spray of high-pressure airflow, ensuring that each group of adhesive application holes on the adhesive roller 1002 is thoroughly cleaned and avoiding cleaning dead zones.

[0055] Optionally, such as Figure 3 As shown, the output end of the drive component is provided with a coupling 31. The cleaning device for the adhesive application assembly also includes a snap-fit ​​assembly, which includes a snap-fit ​​block 41 and a snap-fit ​​groove 42. One end of the coupling 31 and the roller 1003 facing the coupling 31 has a snap-fit ​​block 41, and the other end has a snap-fit ​​groove 42, so that the roller 1003 snaps into the coupling 31. When the adhesive application assembly 100 is placed in the receiving groove 11, the snap-fit ​​block 41 is carefully adjusted to snap into the snap-fit ​​groove 42, thus completing the snap-fit ​​between the roller 1003 and the coupling 31. For example, the roller 1003 has a protruding snap-fit ​​block 41, and the coupling 31 has a recessed snap-fit ​​groove 42.

[0056] Optionally, such as Figure 3 As shown, the cleaning device for the adhesive application assembly also includes a proximity sensor 14, which is disposed within the receiving groove 11. The proximity sensor 14 is used to sense the adhesive cylinder 1001. The proximity sensor 14 can detect in real time whether the adhesive cylinder 1001 is correctly placed in the receiving groove 11, so as to remind the operator that the adhesive application assembly 100 has been correctly installed and can proceed with the subsequent cleaning steps.

[0057] In one alternative embodiment, such as Figure 3 , Figure 4 As shown, the cleaning device for the adhesive application assembly also includes a limiting component 5, which is used to prevent the adhesive application assembly 100 from detaching from the receiving tank 11. During the cleaning process, the adhesive application assembly 100 may shift or even fall off due to vibration, the rotational force of the driving component, or other external forces. The limiting component 5 can effectively limit the position of the adhesive application assembly 100, ensuring that the adhesive application assembly 100 is stably fixed in the receiving tank 11, and avoiding damage to the adhesive application assembly 100 or safety accidents caused by the adhesive application assembly 100 falling off.

[0058] Optionally, such as Figure 3 , Figure 4 and Figure 6As shown, the limiting component 5 includes a rotating shaft 51 and a limiting member 52. At least a portion of the rotating shaft 51 is rotatably disposed within the mounting member 1. The limiting member 52 is disposed on the rotating shaft 51. A sliding groove is provided on the mounting member 1. The limiting member 52 is located within the sliding groove, and at least a portion of the limiting member 52 extends out of the sliding groove. Rotating the rotating shaft 51 can drive the limiting member 52 to move along the sliding groove, so that the limiting member 52 is limited and abuts against the rubber cylinder 1001. When the glue application assembly 100 is placed in the receiving groove 11, the limiting member 52 will move along the sliding groove by rotating the rotating shaft 51 until the protruding part of the limiting member 52 contacts and abuts against the glue cylinder 1001. The abutting action of the limiting member 52 can limit the position of the glue cylinder 1001 in the receiving groove 11 and prevent the glue cylinder 1001 from moving or falling off during the cleaning process. When the cleaning is completed and the glue application assembly 100 needs to be removed, the operator rotates the rotating shaft 51 in the opposite direction to move the limiting member 52 along the sliding groove until it is no longer in contact with the glue cylinder 1001, so that the glue application assembly 100 can be removed.

[0059] In one alternative embodiment, such as Figure 6 As shown, a limiting part 53 protrudes from the rotating shaft 51, which is used to limit the axial movement of the rotating shaft 51 within the mounting part 1. The limiting part 53 can effectively restrict the axial movement of the rotating shaft 51 within the mounting part 1, prevent the rotating shaft 51 from axially shifting during operation, ensure that the rotating shaft 51 can be stably set within the mounting part 1, and thus ensure the accurate position of the limiting part 52.

[0060] Optionally, such as Figure 6 As shown, the limiting assembly 5 also includes a handle 54, which is disposed on the portion of the rotating shaft 51 located between the mounting members 1. The handle 54 provides an easy gripping point for the operator, allowing the operator to easily rotate the rotating shaft 51, thereby controlling the movement of the limiting member 52.

[0061] Specifically, a buffer layer is provided on the side of the limiting member 52 facing the receiving groove 11. The buffer layer can effectively reduce the rigid collision generated when the limiting member 52 contacts the glue cylinder 1001, avoid scratches or wear caused by rigid collision, and extend the service life of the glue application assembly 100. The buffer layer is made of rubber.

[0062] It should be noted that this cleaning device also includes a power supply and a mainboard. The mainboard is communicatively connected to the drive unit, and the power supply provides power to the mainboard. When the power is turned on, the mainboard controls the drive unit to rotate, thereby driving the roller 1003 to rotate.

[0063] The following describes the working process of this cleaning device:

[0064] The operator holds both sides of the glue cylinder 1001, aligning the through hole 1004 of the glue cylinder 1001 with the positioning shaft 13, and then slowly pushes the glue cylinder 1001 into the receiving groove 11, ensuring that the support member 12 and the positioning shaft 13 accurately support the glue cylinder 1001; rotate the roller shaft 1003 to adjust the position of the locking block 41 / locking groove 42 on the roller shaft 1003, so that the roller shaft 1003 is accurately locked with the coupling 31. At this time, the proximity sensor 14 will sense the glue application assembly 100, indicating to the operator that the glue application assembly 100 has been correctly installed; then turn the handle 54 to lock the limiting member 52. The adhesive application assembly 100 is assembled by connecting the compressed gas pipeline to the quick-connect interface 21, ensuring a tight connection to prevent air leakage. The power is then turned on, and the main board controls the drive unit to rotate, which in turn drives the roller 1003 to rotate, causing the adhesive roller 1002 to begin rotating slowly. Finally, the compressed gas valve is opened, and compressed gas enters the gas pipeline through the quick-connect interface, then is sprayed onto the adhesive roller 1002 through the nozzle 221 on the cleaning component 22. When the adhesive application hole 1005 on the adhesive roller 1002 rotates to below the cleaning component 22, the solid adhesive residue in the adhesive application hole 1005 is blown out and cleaned by the compressed gas. After cleaning, the power is turned off, the compressed gas is disconnected, and the handle 54 is rotated in the reverse direction to remove the cleaned adhesive application assembly 100.

[0065] Obviously, the above embodiments of this utility model are merely examples for clearly illustrating the present utility model, and are not intended to limit the implementation of the present utility model. Those skilled in the art can make various obvious changes, readjustments, and substitutions without departing from the protection scope of this utility model. It is neither necessary nor possible to exhaustively describe all embodiments here. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model should be included within the protection scope of the claims of this utility model.

Claims

1. A cleaning device for an adhesive application assembly, the adhesive application assembly (100) comprising an adhesive cylinder (1001), a plurality of adhesive rollers (1002) and a roller shaft (1003), wherein the adhesive cylinder (1001) has a through hole (1004) extending through it, the roller shaft (1003) is rotatably inserted through the adhesive cylinder (1001), the plurality of adhesive rollers (1002) are located inside the adhesive cylinder (1001) and fixed at intervals to the roller shaft (1003), and a plurality of sets of adhesive application holes are spaced apart along the circumference of the adhesive rollers (1002), the sets of adhesive application holes including a plurality of adhesive application holes (1005), characterized in that, The cleaning device for the adhesive coating assembly includes: Mounting component (1), the mounting component (1) includes a receiving groove (11), a plurality of supporting components (12) are provided in the receiving groove (11), the plurality of supporting components (12) are spaced apart, the glue application assembly (100) can be accommodated in the receiving groove (11), and the plurality of supporting components (12) are used to support the glue cylinder (1001). The cleaning assembly includes a quick-connect interface (21), a gas pipe, and a cleaning component (22). The quick-connect interface (21) and the cleaning component (22) are disposed on the mounting component (1). The gas pipe connects the quick-connect interface (21) and the cleaning component (22). The cleaning component (22) is provided with a plurality of nozzles (221) spaced apart. When the adhesive application assembly (100) is accommodated in the receiving groove (11), the plurality of nozzles (221) are respectively aligned with the plurality of adhesive rollers (1002). The quick-connect interface (21) is externally connected to a compressed gas pipeline. A drive element configured to drive the roller (1003) to rotate about its own axis.

2. The cleaning device for the adhesive coating assembly according to claim 1, characterized in that, The cleaning device of the adhesive application assembly also includes a positioning shaft (13), which is disposed in the receiving groove (11). When the adhesive cylinder (1001) is accommodated in the receiving groove (11), the positioning shaft (13) passes through the through hole (1004) of the adhesive cylinder (1001).

3. The cleaning device for the adhesive coating assembly according to claim 1, characterized in that, The drive component is disposed within the mounting component (1), and the output end of the drive component extends out of the mounting component (1) to be located within the receiving groove (11). The roller (1003) of the adhesive application assembly (100) can engage with the output end of the drive component so that the drive component can drive the roller (1003) to rotate around its own axis.

4. The cleaning device for the adhesive coating assembly according to claim 3, characterized in that, The output end of the drive component is provided with a coupling (31), and the cleaning device for the adhesive application assembly further includes: The snap-fit ​​assembly includes a snap-fit ​​block (41) and a snap-fit ​​groove (42) for snap-fit ​​engagement. The snap-fit ​​block (41) is provided on one of the couplings (31) and the roller (1003) facing the coupling (31), and the snap-fit ​​groove (42) is provided on the other, so that the roller (1003) snaps into the coupling (31).

5. The cleaning device for the adhesive coating assembly according to claim 1, characterized in that, The cleaning device for the adhesive coating assembly also includes: A proximity sensor (14) is disposed in the receiving groove (11) and is used to sense the glue cylinder (1001).

6. The cleaning apparatus for the adhesive coating assembly according to any one of claims 1-5, characterized in that, The cleaning device for the adhesive coating assembly also includes: A limiting component (5) is used to restrict the adhesive application component (100) from exiting the receiving groove (11).

7. The cleaning device for the adhesive coating assembly according to claim 6, characterized in that, The limiting component (5) includes: A rotating shaft (51), at least a portion of which is rotatably disposed within the mounting member (1); A limiting member (52) is disposed on the rotating shaft (51). A sliding groove is provided on the mounting member (1). The limiting member (52) is located in the sliding groove, and at least part of the limiting member (52) extends out of the sliding groove. Rotating the rotating shaft (51) can drive the limiting member (52) to move along the sliding groove so that the limiting member (52) is limited to abutting against the rubber cylinder (1001).

8. The cleaning device for the adhesive coating assembly according to claim 7, characterized in that, The rotating shaft (51) is provided with a limiting part (53), which is used to limit the axial movement of the rotating shaft (51) within the mounting member (1).

9. The cleaning device for the adhesive coating assembly according to claim 7, characterized in that, The limiting component (5) also includes a handle (54) disposed on the portion of the pivot (51) located between the mounting members (1).

10. The cleaning device for the adhesive coating assembly according to claim 7, characterized in that, The limiting member (52) has a buffer layer on the side facing the receiving groove (11).