A packaging tape film laminating device
By using active cooling components and a conical water collection mechanism, the problems of uneven heat dissipation and condensate contamination in the packaging tape film laminating device have been solved, achieving efficient cooling and high-quality lamination, and improving production efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG HUADEFENG PLASTIC PACKAGING CO LTD
- Filing Date
- 2025-04-30
- Publication Date
- 2026-07-07
AI Technical Summary
Existing packaging tape film lamination devices cannot perform active water cooling, and condensate can easily contaminate the cooling mechanism, resulting in low cooling efficiency and material deformation or poor product quality.
The system employs an active cooling assembly, including a water-cooled circulation component and a spray dust suppression component, combined with a conical water collection block and a hydrogel filter, to achieve active water cooling circulation and effective treatment of condensate, thus avoiding condensate pollution.
It significantly improves the cooling efficiency and stability of the film, ensures the molding quality of the laminated material, avoids production efficiency loss, and improves the yield and production efficiency of the lamination process.
Smart Images

Figure CN224465433U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lamination device technology, and in particular to a packaging tape film lamination device. Background Technology
[0002] In the daily work of packaging tape production, it is necessary to use a laminating device to laminate the materials to avoid material delamination or insufficient strength, which would affect the product quality of the packaging tape or pose a potential safety hazard for subsequent use.
[0003] Existing film laminating devices for packaging tapes have significant deficiencies in their cooling process: their heat dissipation relies solely on passive spreading to increase the air contact area, failing to provide rapid active water cooling after lamination; furthermore, the existing structure lacks a sealed water-cooling circulation design and a conical water collection structure to guide condensate, resulting in liquefied water vapor randomly adhering to the roller surface. This makes it difficult to maintain stable cooling efficiency and also fails to prevent external water vapor from liquefying and adhering to the cooling mechanism surface. This dual cooling deficiency not only significantly reduces film lamination efficiency but may also lead to material deformation due to uneven heat dissipation or affect the quality of the laminated product due to condensate contamination. Utility Model Content
[0004] In view of the problems existing in the above-mentioned packaging tape film laminating devices, this utility model is proposed.
[0005] Therefore, the problem to be solved by this utility model is how to solve the series of problems such as the inability to perform active water cooling and the inability to solve the problem of condensation pollution that is easily generated during water cooling contact heat dissipation.
[0006] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a packaging tape film laminating device, comprising a laminating assembly, the laminating assembly including a support platform, a guide limiting member fixed to the top of the support platform, a drive transmission member fixed to one side of the support platform, a raw material placement member provided on one side of the support platform, and a laminating member fixed to the top of the support platform; and,
[0007] An active cooling component is disposed at the bottom of the composite component and includes a water-cooled circulation component. A dust-suppressing spray component is fixed on one side of the water-cooled circulation component, and a contact heat exchange component is disposed on the top of the water-cooled circulation component. The contact heat exchange component is movably connected to the inner wall of the composite component.
[0008] In a preferred embodiment of the packaging tape film laminating device of this utility model, the raw material placement component includes a support plate disposed on one side of the support platform, a fixed guardrail fixed to the top of the support plate, a support column fixed to the bottom of the support plate, a connecting frame fixed to one side of the support column, and the connecting frame fixed to the surface of the support platform.
[0009] In a preferred embodiment of the packaging tape film laminating device of this utility model, a first take-up roller is fixed on one side of the fixed guardrail, and a second take-up roller is provided at the bottom of the support column.
[0010] In a preferred embodiment of the packaging tape film laminating device of this utility model, the laminating component includes a fixed vertical plate fixed to the top of the support platform, a servo motor fixed to one side of the fixed vertical plate, a laminating roller fixed to the output end of the servo motor, a mating roller provided at the bottom of the laminating roller, and the mating roller being movably connected to the surface of the fixed vertical plate.
[0011] As a preferred embodiment of the packaging tape film laminating device of this utility model, the contact heat exchanger includes a conical water collecting block movably connected to the inner wall of the laminating component, a water-cooled contact roller is fixed on one side of the conical water collecting block, a fixing seat is provided on the inner wall of the water-cooled contact roller, a hydrogel filter screen is fixed on one side of the fixing seat, and the hydrogel filter screen is fixed to one side of the inner wall of the water-cooled contact roller.
[0012] As a preferred embodiment of the packaging tape film laminating device of this utility model, the contact heat exchange component further includes a connecting sleeve sleeved on the surface of the water-cooled contact roller. The surface of the connecting sleeve is provided with micropores, and the inner cavity of the micropores is provided with water-absorbing cotton. The water-absorbing cotton is fixed to the inner wall of the micropores, and a conical water collecting block is fixed to the inner wall of the micropores.
[0013] In a preferred embodiment of the packaging tape film laminating device of this utility model, the water-cooled circulation component includes a liquid storage tank fixed to the bottom of the support platform, a sealing partition fixed to the inner wall of the liquid storage tank, a liquid pump fixed to one side of the liquid storage tank, a first connecting pipe fixed to one side of the liquid pump, the first connecting pipe fixed to the surface of the liquid storage tank, a second connecting pipe connected to one side of the liquid pump, the second connecting pipe fixed to one side of the water-cooled contact roller, and a return pipe fixed to the other side of the water-cooled contact roller, the return pipe fixed to the surface of the liquid storage tank.
[0014] As a preferred embodiment of the packaging tape film laminating device of this utility model, the dust suppression spraying component includes an arc-shaped connecting plate disposed on one side of the water-cooled circulation component, an atomizing nozzle is fixed on one side of the arc-shaped connecting plate, a connecting pipe is fixed on the other side of the arc-shaped connecting plate, and the connecting pipe is fixed to the surface of the liquid storage tank.
[0015] In a preferred embodiment of the packaging tape film laminating device of this utility model, a support rod is fixed to the top of the arc-shaped connecting plate, and the support rod is fixed to the surface of the liquid storage tank.
[0016] As a preferred embodiment of the packaging tape film laminating device of this utility model, an observation mirror is embedded on one side of the liquid storage tank.
[0017] The beneficial effects of this utility model are as follows: through the active water cooling circulation mechanism and the conical water collection mechanism, the cooling efficiency and stability of the film are significantly improved, the problem of uneven heat dissipation and condensate pollution is effectively solved, the molding quality of the laminated material is guaranteed, the production efficiency loss caused by cooling defects is avoided, and the high-efficiency operation of the cooling system is achieved, which greatly improves the yield and production efficiency of the lamination process. Attached Figure Description
[0018] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0019] Figure 1 This is a structural diagram of a packaging tape film laminating device.
[0020] Figure 2 This is a structural diagram of the laminating component of a packaging tape film laminating device.
[0021] Figure 3 This is a structural diagram of the raw material placement component for a packaging film laminating device.
[0022] Figure 4 This is a structural diagram of the water-cooled circulation component of the packaging tape film laminating device.
[0023] Figure 5 This is a structural diagram of the water-cooled circulation component and the dust-reducing spray component of the packaging tape film lamination device.
[0024] Figure 6 This is a cross-sectional view of the water-cooled circulation component of the packaging tape film laminating device.
[0025] Figure 7 For packaging tape film laminating device Figure 4 A magnified view of A in the middle.
[0026] In the diagram: 100, laminating assembly; 101, support platform; 102, drive transmission component; 103, guide and limiting component; 104, laminating component; 104a, fixed vertical plate; 104b, servo motor; 104c, laminating roller; 104d, mating roller; 105, raw material placement component; 105a, support plate; 105b, fixed guardrail; 105c, first take-up roller; 105d, support column; 105e, connecting frame; 105f, second take-up roller; 200, active cooling assembly; 201, water cooling circulation component; 201a, liquid storage tank; 201b, First connecting pipe; 201c, Second connecting pipe; 201d, Liquid pump; 201e, Liquid inlet pipe; 201f, Return pipe; 201g, Sealing partition; 202, Spray dust suppression component; 202a, Arc-shaped connecting plate; 202b, Support rod; 202c, Connecting pipe; 202d, Atomizing nozzle; 203, Contact heat exchange component; 203a, Water-cooled contact roller; 203b, Connecting sleeve; 203c, Micropore; 203d, Conical water collecting block; 203e, Absorbent cotton; 203f, Fixing base; 203g, Hydrogel filter. Detailed Implementation
[0027] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.
[0028] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Those skilled in the art can make similar extensions without departing from the spirit of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.
[0029] Secondly, the term "an embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that excludes other embodiments.
[0030] Example 1
[0031] Reference Figure 1 and Figure 2 This is the first embodiment of the present invention. This embodiment provides a packaging tape film laminating device, which includes a laminating component 100 and an active cooling component 200.
[0032] The active water-cooling circulation mechanism and conical water collection mechanism significantly improve the cooling efficiency and stability of the film, effectively solving the problems of uneven heat dissipation and condensate contamination. This not only ensures the molding quality of the laminated material but also avoids production efficiency losses caused by cooling defects. At the same time, it achieves high-efficiency operation of the cooling system, greatly improving the yield and production efficiency of the lamination process.
[0033] Specifically, the composite component 100 includes a support platform 101, a guide limiting member 103 fixed on the top of the support platform 101, a drive transmission member 102 fixed on one side of the support platform 101, a raw material placement member 105 provided on one side of the support platform 101, and a composite component 104 fixed on the top of the support platform 101.
[0034] The support platform 101 can provide balanced support for the conveying components on its top, ensuring stability while providing a relatively convenient installation effect.
[0035] Specifically, the active cooling component 200 is disposed at the bottom of the composite component 100, including a water cooling circulation component 201, a dust suppression spray component 202 fixed on one side of the water cooling circulation component 201, and a contact heat exchange component 203 disposed on the top of the water cooling circulation component 201, the contact heat exchange component 203 being movably connected to the inner wall of the composite component 104.
[0036] The spray dust suppression component 202 can atomize the coolant, which no longer has good heat absorption and heat exchange capacity after water cooling heat exchange, and spray it out to suppress dust on the surrounding ground.
[0037] Example 2
[0038] Reference Figures 2-7 This is the second embodiment of the present invention, which is based on the previous embodiment.
[0039] Specifically, the raw material placement component 105 includes a support plate 105a disposed on one side of the support platform 101, a fixed guardrail 105b fixed to the top of the support plate 105a, a support column 105d fixed to the bottom of the support plate 105a, a connecting frame 105e fixed to one side of the support column 105d, and the connecting frame 105e fixed to the surface of the support platform 101.
[0040] The support column 105d can provide balanced support for the support plate 105a, thus providing it with better support stability.
[0041] Specifically, a first take-up roller 105c is fixed on one side of the fixed guardrail 105b, and a second take-up roller 105f is provided at the bottom of the support column 105d.
[0042] Specifically, the laminating component 104 includes a fixed vertical plate 104a fixed to the top of the support platform 101, a servo motor 104b fixed to one side of the fixed vertical plate 104a, a laminating roller 104c fixed to the output end of the servo motor 104b, and a mating roller 104d provided at the bottom of the laminating roller 104c, the mating roller 104d being movably connected to the surface of the fixed vertical plate 104a.
[0043] There are two mating rollers 104d, which are respectively located at the bottom of the laminating roller 104c and the bottom of the water-cooled contact roller 203a.
[0044] Specifically, the contact heat exchanger 203 includes a conical water collecting block 203d movably connected to the inner wall of the composite 104. A water-cooled contact roller 203a is fixed to one side of the conical water collecting block 203d. A fixing seat 203f is provided on the inner wall of the water-cooled contact roller 203a. A hydrogel filter screen 203g is fixed to one side of the fixing seat 203f. The hydrogel filter screen 203g is fixed to one side of the inner wall of the water-cooled contact roller 203a.
[0045] The 203g hydrogel filter is made of hydrogel material. The size of its surface pores changes with water temperature. When the water temperature is low, the pore size is small and the coolant flow rate is low. When the water temperature rises, the pore size becomes larger and the coolant flow rate increases.
[0046] Specifically, the contact heat exchanger 203 also includes a connecting sleeve 203b sleeved on the surface of the water-cooled contact roller 203a. The surface of the connecting sleeve 203b is provided with micropores 203c. The inner cavity of the micropores 203c is provided with absorbent cotton 203e. The absorbent cotton 203e is fixed to the inner wall of the micropores 203c. A conical water collecting block 203d is fixed to the inner wall of the micropores 203c.
[0047] The conical water collecting block 203d can guide the condensate into the interior of the absorbent cotton 203e and lock it in place, preventing it from contaminating the laminated packaging tape.
[0048] Specifically, the water-cooled circulation component 201 includes a liquid storage tank 201a fixed to the bottom of the support platform 101. A sealing partition 201g is fixed to the inner wall of the liquid storage tank 201a. A liquid pump 201d is fixed to one side of the liquid storage tank 201a. A first connecting pipe 201b is fixed to one side of the liquid pump 201d. The first connecting pipe 201b is fixed to the surface of the liquid storage tank 201a. A second connecting pipe 201c is connected to one side of the liquid pump 201d. The second connecting pipe 201c is fixed to one side of the water-cooled contact roller 203a. A return pipe 201f is fixed to the other side of the water-cooled contact roller 203a. The return pipe 201f is fixed to the surface of the liquid storage tank 201a.
[0049] The sealing partition 201g divides the inner cavity of the liquid storage tank 201a into two parts, which not only improves the utilization rate of its internal space resources, but also prevents the hot coolant flowing back from assimilating the newly entered coolant, thereby ensuring the heat exchange efficiency of the main body of the coolant.
[0050] Specifically, the dust suppression spraying component 202 includes an arc-shaped connecting plate 202a disposed on one side of the water-cooled circulation component 201. An atomizing nozzle 202d is fixed on one side of the arc-shaped connecting plate 202a, and a connecting pipe 202c is fixed on the other side of the arc-shaped connecting plate 202a. The connecting pipe 202c is fixed to the surface of the liquid storage tank 201a.
[0051] The 202d atomizing nozzle pressurizes and atomizes the hot coolant after heat exchange, and then sprays it out evenly to quickly reduce dust.
[0052] Specifically, a support rod 202b is fixed to the top of the arc-shaped connecting plate 202a, and the support rod 202b is fixed to the surface of the liquid storage tank 201a.
[0053] Specifically, an observation mirror is embedded on one side of the liquid storage tank 201a.
[0054] The observation mirror can display the water level inside the storage tank 201a so that the user can observe it.
[0055] In use, the user places the two materials to be laminated between the first take-up roller 105c and the second take-up roller 105f, respectively, and then starts the device through the external controller, so that it slowly conveys the materials. The materials are conveyed in sequence through the drive transmission component 102 and the guide limit component 103, and then laminated by the laminating component 104. The laminated material is conveyed to the bottom of the contact heat exchange component 203 and contacts the water-cooled contact roller 203a for contact heat exchange.
[0056] During this process, the user needs to start the liquid pump 201d through the external controller and introduce the external water source into the inner cavity of the storage tank 201a through the liquid inlet pipe 201e. Then, under the action of the liquid pump 201d, the water is sent to the inner cavity of the second connecting pipe 201c through the first connecting pipe 201b, and then sent to the inner cavity of the water-cooled contact roller 203a through the conical water collecting block 203d. As the coolant quickly fills the inner wall of the water-cooled contact roller 203a, the surface of the water-cooled contact roller 203a can be rapidly cooled, thereby cooling the laminated material through contact heat exchange.
[0057] After cooling, as the liquid temperature rises, the pore size of the hydrogel filter 203g slowly increases, improving the flow rate of the coolant. The coolant enters the inner cavity of the return pipe 201f through it, and then enters the left side of the sealing partition 201g, achieving the effect of hot and cold separation, thereby ensuring the overall water cooling circulation efficiency.
[0058] Meanwhile, the cooling liquid after heat exchange will enter the inner cavity of the arc-shaped connecting plate 202a through the connecting pipe 202c, and then be atomized and sprayed out through the atomizing nozzle 202d to spray the bottom of the equipment to reduce dust and prevent impurities and dust from contaminating subsequent materials.
[0059] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.
Claims
1. A packaging tape film laminating device, characterized in that: include, A composite assembly (100) includes a support platform (101), a guide limiting member (103) fixed to the top of the support platform (101), a drive transmission member (102) fixed to one side of the support platform (101), a raw material placement member (105) provided on one side of the support platform (101), and a composite member (104) fixed to the top of the support platform (101); and, An active cooling component (200) is disposed at the bottom of the composite component (100) and includes a water cooling circulation component (201). A dust suppression spray component (202) is fixed on one side of the water cooling circulation component (201), and a contact heat exchange component (203) is disposed on the top of the water cooling circulation component (201). The contact heat exchange component (203) is movably connected to the inner wall of the composite component (104).
2. The packaging tape film laminating device as described in claim 1, characterized in that: The raw material placement component (105) includes a support plate (105a) disposed on one side of the support platform (101), a fixed guardrail (105b) fixed to the top of the support plate (105a), a support column (105d) fixed to the bottom of the support plate (105a), a connecting frame (105e) fixed to one side of the support column (105d), and the connecting frame (105e) fixed to the surface of the support platform (101).
3. The packaging tape film laminating device as described in claim 2, characterized in that: A first take-up roller (105c) is fixed on one side of the fixed guardrail (105b), and a second take-up roller (105f) is provided at the bottom of the support column (105d).
4. The packaging tape film laminating device as described in claim 3, characterized in that: The composite component (104) includes a fixed vertical plate (104a) fixed to the top of the support platform (101), a servo motor (104b) fixed on one side of the fixed vertical plate (104a), a composite roller (104c) fixed at the output end of the servo motor (104b), and a mating roller (104d) provided at the bottom of the composite roller (104c). The mating roller (104d) is movably connected to the surface of the fixed vertical plate (104a).
5. The packaging tape film laminating device as described in claim 4, characterized in that: The contact heat exchanger (203) includes a conical water collecting block (203d) movably connected to the inner wall of the composite (104). A water-cooled contact roller (203a) is fixed on one side of the conical water collecting block (203d). A fixing seat (203f) is provided on the inner wall of the water-cooled contact roller (203a). A hydrogel filter screen (203g) is fixed on one side of the fixing seat (203f). The hydrogel filter screen (203g) is fixed to one side of the inner wall of the water-cooled contact roller (203a).
6. The packaging tape film laminating device as described in claim 5, characterized in that: The contact heat exchanger (203) further includes a connecting sleeve (203b) sleeved on the surface of the water-cooled contact roller (203a). The surface of the connecting sleeve (203b) is provided with micropores (203c). The inner cavity of the micropores (203c) is provided with absorbent cotton (203e). The absorbent cotton (203e) is fixed to the inner wall of the micropores (203c). A conical water collecting block (203d) is fixed to the inner wall of the micropores (203c).
7. The packaging tape film laminating device as described in claim 6, characterized in that: The water-cooled circulation component (201) includes a liquid storage tank (201a) fixed to the bottom of the support platform (101). A sealing partition (201g) is fixed to the inner wall of the liquid storage tank (201a). A liquid pump (201d) is fixed to one side of the liquid storage tank (201a). A first connecting pipe (201b) is fixed to one side of the liquid pump (201d). The first connecting pipe (201b) is fixed to the surface of the liquid storage tank (201a). A second connecting pipe (201c) is connected to one side of the liquid pump (201d). The second connecting pipe (201c) is fixed to one side of the water-cooled contact roller (203a). A return pipe (201f) is fixed to the other side of the water-cooled contact roller (203a). The return pipe (201f) is fixed to the surface of the liquid storage tank (201a).
8. The packaging tape film laminating device as described in claim 7, characterized in that: The dust suppression spraying component (202) includes an arc-shaped connecting plate (202a) disposed on one side of the water-cooled circulation component (201). An atomizing nozzle (202d) is fixed on one side of the arc-shaped connecting plate (202a), and a connecting pipe (202c) is fixed on the other side of the arc-shaped connecting plate (202a). The connecting pipe (202c) is fixed to the surface of the liquid storage tank (201a).
9. The packaging tape film laminating device as described in claim 8, characterized in that: A support rod (202b) is fixed to the top of the arc-shaped connecting plate (202a), and the support rod (202b) is fixed to the surface of the liquid storage tank (201a).
10. The packaging tape film laminating device as described in claim 9, characterized in that: An observation mirror is embedded on one side of the liquid storage tank (201a).