A cooling device for glue production
By introducing a stirring and scraping component and an anti-clogging drive mechanism into the glue cooling device, the problems of glue adhesion and clogging after cooling are solved, and the uniformity of glue cooling and processing stability are achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YONGLIU NEW MATERIALS (ZHEJIANG) CO LTD
- Filing Date
- 2025-08-07
- Publication Date
- 2026-06-23
AI Technical Summary
Existing cooling mixing tanks cause the adhesive viscosity to increase after cooling, making it prone to adhering to the inner wall of the discharge pipe, leading to blockage and affecting the stability of adhesive processing.
A cooling device is designed, comprising a stirring and cooling tank, cooling components, a stirring motor, an adhesive discharge pipe, an anti-clogging drive box, a stirring shaft, a cooling enhancement mechanism, and an anti-clogging drive mechanism. The device cleans the inner wall through a stirring and scraping component, enhances the cooling medium circulation, prevents adhesive adhesion, and cleans the discharge pipe with a flushing nozzle after discharge to prevent blockage.
This achieves uniform and stable glue cooling, avoids adhesion to the inner wall and blockage of the discharge pipe, and improves the quality and stability of glue processing.
Smart Images

Figure CN224398142U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of adhesive processing equipment, and more specifically, it relates to a cooling device for adhesive production. Background Technology
[0002] Adhesives are intermediates that connect two materials. They are mostly water-based and belong to the category of fine chemicals. There are many types, mainly classified by adhesive, physical form, curing method, and the material being bonded. Common types include instant adhesives, epoxy resin adhesives, anaerobic adhesives, UV adhesives, hot melt adhesives, pressure-sensitive adhesives, and latex adhesives. Cooling is a crucial step in the adhesive production process. It is usually used for the rapid solidification and curing of adhesives after heating. Since adhesives generally have a high viscosity, a cooling tank with a stirring paddle is usually used to cool the adhesive to ensure uniform cooling.
[0003] The existing application number is CN202421230787.6. This utility model relates to the field of adhesive production technology and discloses a cooling device for adhesive production, including a support and protection component, a stirring and cooling component, a circulation component, and a coil cooling component. The stirring and cooling component includes a motor, a stirring rod, a mounting frame, and a central cooling pipe. The outer wall of the mounting frame is fixedly connected to a centrally arranged cooling pipe, and the stirring rod is rotatably connected to the middle of the mounting frame. The top of the stirring rod is fixedly connected to the output end of the motor. By setting the central cooling pipe to absorb heat from the middle of the adhesive, the heat inside the adhesive can be isolated, avoiding the situation where only the coil absorbs the heat from the reaction on the outside of the adhesive, and the heat in the middle of the cooling box cannot be dissipated, resulting in heat radiation in the middle of the cooling box. By starting the motor, the stirring rod is driven to rotate, and the stirring rod stirs and rotates the adhesive in the cooling box, allowing the adhesive to flow and cool down, so that the temperature of the adhesive can be reduced evenly, improving the cooling efficiency.
[0004] Based on the above, when existing cooling mixing tanks cool the adhesive, the viscosity of the adhesive increases after cooling. When the adhesive is discharged, it tends to adhere to the inner wall of the discharge pipe. Over time, the accumulation of adhesive residue can easily clog the discharge pipe, affecting the stability of adhesive processing. Utility Model Content
[0005] To solve the above-mentioned technical problems, this utility model provides a cooling device for glue production, which solves the problem that when the glue is cooled by the existing cooling mixing tank, the viscosity of the glue increases, and when the glue is discharged, the glue tends to adhere to the inner wall of the discharge pipe. Over time, the glue residue accumulates and can easily block the discharge pipe, affecting the stability of glue processing.
[0006] The purpose and effect of this utility model's cooling device for glue production are achieved by the following specific technical means:
[0007] A cooling device for adhesive production includes a mixing and cooling tank, a cooling component, a mixing motor, an adhesive discharge pipe, an anti-clogging drive box, a mixing shaft, a cooling enhancement mechanism, and an anti-clogging drive mechanism. The mixing and cooling tank has a double-layer structure. The cooling component has an inlet pipe and an outlet pipe, and is fixedly connected to the outside of the mixing and cooling tank. Cooling medium flows inside the inlet and outlet pipes of the cooling component, and the cooling component is in communication with the outer layer of the mixing and cooling tank. The mixing motor is fixedly connected to the upper end of the mixing and cooling tank. The adhesive discharge pipe is fixedly connected to the lower end of the mixing and cooling tank. The anti-clogging drive box is fixedly connected to the outside of the adhesive discharge pipe and is in communication with the adhesive discharge pipe. The mixing shaft is rotatably connected inside the mixing and cooling tank, and has a mixing paddle structure on its outer circumference. The mixing shaft is hollow and is coaxially fixedly connected to the output shaft of the mixing motor. The cooling enhancement mechanism is located inside the mixing and cooling tank. The anti-clogging drive mechanism is located inside the anti-clogging drive box.
[0008] Furthermore, the cooling enhancement mechanism includes: a stirring and scraping component; the stirring and scraping component is provided in three sets, the three sets of stirring and scraping components are respectively fixedly connected to the outer periphery of the stirring shaft, and the inner side of the three sets of stirring and scraping components are in frictional contact with the inner wall of the stirring cooling tank.
[0009] Furthermore, the cooling enhancement mechanism also includes: a cooling connector and a cooling heat exchange plate; the cooling connector is a rotary joint structure, which is rotatably connected to the upper outer periphery of the stirring shaft, communicates with the interior of the stirring shaft, and communicates with the outer layer of the stirring cooling tank; multiple sets of cooling heat exchange plates are provided, which are respectively fixedly connected to the outer periphery of the stirring shaft, and all sets of cooling heat exchange plates are communicated with the interior of the stirring shaft.
[0010] Furthermore, the anti-clogging drive mechanism includes: a flushing agent tank and a flushing water pump; the flushing agent tank is placed below the stirring and cooling tank; the flushing water pump is fixedly connected above the flushing agent tank, and the inlet pipe of the flushing water pump is connected to the inside of the flushing agent tank.
[0011] Furthermore, the anti-clogging drive mechanism also includes a flushing nozzle; the flushing nozzle is rotatably connected to the inside of the anti-clogging drive box, and the flushing nozzle is connected to the outlet pipe of the flushing water pump.
[0012] Furthermore, the anti-clogging drive mechanism also includes: a flushing drive lever, a flushing drive disc, and a flushing drive motor; the flushing drive lever is coaxially fixedly connected above the flushing nozzle, and the flushing drive lever has a rectangular groove structure; the flushing drive disc is rotatably connected inside the flushing agent tank, and a protrusion structure is provided at the centrifugal end of the right end of the flushing drive disc, and the protrusion structure of the flushing drive disc is located inside the rectangular groove of the flushing drive lever; the flushing drive motor is fixedly connected to the left side of the anti-clogging drive box, and the output shaft of the flushing drive motor is coaxially fixedly connected to the flushing drive disc.
[0013] Compared with the prior art, the present invention has the following beneficial effects:
[0014] This invention utilizes a cooling enhancement mechanism. When the stirring motor is turned on, it drives the stirring shaft to rotate, thus agitating the adhesive. Simultaneously, the cooling component circulates the cooling medium around the outer layer of the mixing and cooling tank, improving the heat exchange efficiency between the adhesive and the cooling medium. The rotation of the stirring shaft also drives the stirring scraper to rotate, cleaning the inner wall of the mixing and cooling tank and preventing adhesive from adhering to it. Furthermore, the cooling medium enters the cooling heat exchange plate through the cooling connector and the stirring shaft, ensuring uniform cooling of the adhesive and improving the quality of adhesive processing.
[0015] This invention, through the design of an anti-clogging drive mechanism, allows the rinsing water pump to be turned on after the glue has cooled and been discharged. The rinsing water pump sprays the cleaning agent inside the rinsing agent tank onto the inside of the glue discharge pipe through the rinsing nozzle, thus rinsing away any residual glue inside the glue discharge pipe. Simultaneously, the rinsing drive motor is turned on, which drives the rinsing drive disc to rotate. The rotation of the rinsing drive disc causes the rinsing drive swing arm to swing, which in turn causes the rinsing nozzle to swing. This swinging of the rinsing nozzle improves the cleaning efficiency of residual glue, prevents blockage of the glue discharge pipe, and ensures the stability of glue processing. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0017] Figure 2 This is a schematic diagram of the flushing drive motor structure of this utility model.
[0018] Figure 3 This is a schematic diagram of the flushing water pump structure of this utility model.
[0019] Figure 4 This is a schematic diagram of the stirring and scraping component of this utility model.
[0020] Figure 5 This is a schematic diagram of the flushing agent tank structure of this utility model.
[0021] Figure 6 This is a schematic diagram of the flushing drive lever structure of this utility model.
[0022] In the diagram, the correspondence between component names and drawing numbers is as follows:
[0023] 1. Mixing and cooling tank body; 101. Mixing and scraping component; 102. Cooling connector; 103. Cooling heat exchange plate; 2. Cooling component; 3. Mixing motor; 4. Glue discharge pipe; 5. Anti-clogging drive box; 501. Rinsing agent tank; 502. Rinsing water pump; 503. Rinsing nozzle; 504. Rinsing drive rocker arm; 505. Rinsing drive disc; 506. Rinsing drive motor; 6. Mixing shaft. Detailed Implementation
[0024] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples.
[0025] Example 1:
[0026] As attached Figures 1 to 4 As shown:
[0027] This utility model provides a cooling device for adhesive production, including a stirring and cooling tank 1, a cooling component 2, a stirring motor 3, an adhesive discharge pipe 4, an anti-clogging drive box 5, a stirring shaft 6, and a cooling enhancement mechanism. The stirring and cooling tank 1 has a double-layer structure. The cooling component 2 is provided with an inlet pipe and an outlet pipe structure, and is fixedly connected to the outside of the stirring and cooling tank 1. Cooling medium flows inside the inlet pipe and outlet pipe of the cooling component 2, and the cooling component 2 is connected to the outer layer of the stirring and cooling tank 1. The stirring motor 3 is fixedly connected to the upper end of the stirring and cooling tank 1. The adhesive discharge pipe 4 is fixedly connected to the lower end of the stirring and cooling tank 1. The anti-clogging drive box 5 is fixedly connected to the outside of the adhesive discharge pipe 4 and is connected to the adhesive discharge pipe 4. The stirring shaft 6 is rotatably connected inside the stirring and cooling tank 1. The stirring shaft 6 has a stirring paddle structure on its outer periphery and is hollow. The stirring shaft 6 is coaxially fixedly connected to the output shaft of the stirring motor 3. The cooling enhancement mechanism is located inside the stirring and cooling tank 1.
[0028] The cooling efficiency enhancement mechanism includes: a stirring and scraping component 101; three sets of stirring and scraping components 101 are provided, and the three sets of stirring and scraping components 101 are respectively fixedly connected to the outer periphery of the stirring shaft 6, and the inner side of the three sets of stirring and scraping components 101 is in frictional contact with the inner wall of the stirring and cooling tank 1.
[0029] The cooling efficiency enhancement mechanism also includes: a cooling connector 102 and a cooling heat exchange plate 103; the cooling connector 102 is a rotary joint structure, the cooling connector 102 is rotatably connected to the upper end of the outer periphery of the stirring shaft 6, the cooling connector 102 is connected to the interior of the stirring shaft 6, and the cooling connector 102 is connected to the outer layer of the stirring cooling tank 1; multiple sets of cooling heat exchange plates 103 are provided, and multiple sets of cooling heat exchange plates 103 are respectively fixedly connected to the outer periphery of the stirring shaft 6, and multiple sets of cooling heat exchange plates 103 are all connected to the interior of the stirring shaft 6.
[0030] The specific usage and function of this embodiment are as follows: When cooling the adhesive, the stirring motor 3 is turned on, and the stirring motor 3 drives the stirring shaft 6 to rotate. The rotation of the stirring shaft 6 achieves stirring of the adhesive. The cooling component 2 is turned on to circulate the cooling medium in the outer layer of the stirring and cooling tank 1, which improves the heat exchange efficiency between the adhesive and the cooling medium. At the same time, the rotation of the stirring shaft 6 also drives the stirring and scraping component 101 to rotate. The rotation of the stirring and scraping component 101 achieves cleaning of the inner wall of the stirring and cooling tank 1, which prevents the adhesive from adhering to the inner wall of the stirring and cooling tank 1. Meanwhile, the cooling medium enters the interior of the cooling heat exchange plate 103 through the cooling connector 102 and the stirring shaft 6. The cooling heat exchange plate 103 achieves cooling of the internal adhesive, ensuring the uniformity of adhesive cooling and improving the quality of adhesive processing.
[0031] Example 2:
[0032] This utility model provides a cooling device for adhesive production, based on Embodiment 1, such as... Figures 1 to 6 As shown, it also includes an anti-blocking drive mechanism, which is located inside the anti-blocking drive box 5.
[0033] The anti-clogging drive mechanism includes a flushing agent tank 501 and a flushing water pump 502. The flushing agent tank 501 is placed below the stirring and cooling tank 1. The flushing water pump 502 is fixedly connected above the flushing agent tank 501, and the inlet pipe of the flushing water pump 502 is connected to the inside of the flushing agent tank 501.
[0034] The anti-clogging drive mechanism also includes a flushing nozzle 503; the flushing nozzle 503 is rotatably connected to the inside of the anti-clogging drive box 5, and the flushing nozzle 503 is connected to the outlet pipe of the flushing water pump 502.
[0035] The anti-clogging drive mechanism includes: a flushing drive lever 504, a flushing drive disc 505, and a flushing drive motor 506; the flushing drive lever 504 is coaxially fixedly connected above the flushing nozzle 503, and the flushing drive lever 504 has a rectangular groove structure; the flushing drive disc 505 is rotatably connected inside the flushing agent tank 501, and a protrusion structure is provided at the centrifugal end of the right end of the flushing drive disc 505, and the protrusion structure of the flushing drive disc 505 is located inside the rectangular groove of the flushing drive lever 504; the flushing drive motor 506 is fixedly connected to the left side of the anti-clogging drive box 5, and the output shaft of the flushing drive motor 506 is coaxially fixedly connected to the flushing drive disc 505.
[0036] The specific usage and function of this embodiment are as follows: After the glue has cooled and been discharged, the rinsing water pump 502 is turned on. The rinsing water pump 502 sprays the cleaning agent inside the rinsing agent tank 501 through the rinsing nozzle 503 onto the inside of the glue discharge pipe 4, thereby rinsing the residual glue inside the glue discharge pipe 4. At the same time, the rinsing drive motor 506 is turned on, which drives the rinsing drive disc 505 to rotate. The rotation of the rinsing drive disc 505 causes the rinsing drive swing arm 504 to swing. The swing of the rinsing drive swing arm 504 causes the rinsing nozzle 503 to swing. The swing of the rinsing nozzle 503 improves the cleaning efficiency of the residual glue, avoids blockage of the glue discharge pipe 4, and ensures the stability of glue processing.
[0037] The following points should be noted in this article:
[0038] 1. The accompanying drawings of this embodiment only involve the structures involved in this embodiment; other structures can refer to the general design.
[0039] 2. Where there is no conflict, this embodiment and the features in the embodiment can be combined with each other to obtain new embodiments.
[0040] The above are merely specific implementations of this embodiment, but the protection scope of this embodiment is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this embodiment should be included within the protection scope of this embodiment. Therefore, the protection scope of this embodiment should be determined by the protection scope of the claims.
Claims
1. A cooling device for adhesive production, characterized in that: The system includes a mixing and cooling tank (1), a cooling component (2), a mixing motor (3), a glue discharge pipe (4), an anti-clogging drive box (5), a mixing shaft (6), a cooling efficiency enhancement mechanism, and an anti-clogging drive mechanism; the mixing and cooling tank (1) has a double-layer structure; the cooling component (2) is provided with an inlet pipe and an outlet pipe structure, the cooling component (2) is fixedly connected to the outside of the mixing and cooling tank (1), and a cooling medium flows inside the inlet pipe and outlet pipe of the cooling component (2), and the cooling component (2) is connected to the outer layer of the mixing and cooling tank (1); the mixing motor (3) is fixedly connected to the upper end of the mixing and cooling tank (1); The glue discharge pipe (4) is fixedly connected to the lower end of the stirring and cooling tank (1); the anti-blocking drive box (5) is fixedly connected to the outside of the glue discharge pipe (4) and is connected to the glue discharge pipe (4); the stirring shaft (6) is rotatably connected to the inside of the stirring and cooling tank (1), the stirring shaft (6) is provided with a stirring paddle structure on its outer periphery, the stirring shaft (6) is a hollow structure, and the stirring shaft (6) is coaxially fixedly connected to the output shaft of the stirring motor (3); the cooling enhancement mechanism is located inside the stirring and cooling tank (1); the anti-blocking drive mechanism is located inside the anti-blocking drive box (5).
2. The cooling device for adhesive production as described in claim 1, characterized in that: The cooling enhancement mechanism includes: a stirring and scraping component (101); the stirring and scraping component (101) is provided in three sets, and the three sets of stirring and scraping components (101) are respectively fixedly connected to the outer periphery of the stirring shaft (6), and the inner side of the three sets of stirring and scraping components (101) is in frictional contact with the inner wall of the stirring cooling tank (1).
3. The cooling device for adhesive production as described in claim 2, characterized in that: The cooling enhancement mechanism further includes: a cooling connector (102) and a cooling heat exchange plate (103); the cooling connector (102) is a rotary joint structure, the cooling connector (102) is rotatably connected to the upper end of the outer periphery of the stirring shaft (6), the cooling connector (102) is connected to the interior of the stirring shaft (6), and the cooling connector (102) is connected to the outer layer of the stirring cooling tank (1); multiple sets of cooling heat exchange plates (103) are provided, and multiple sets of cooling heat exchange plates (103) are respectively fixedly connected to the outer periphery of the stirring shaft (6), and multiple sets of cooling heat exchange plates (103) are all connected to the interior of the stirring shaft (6).
4. The cooling device for adhesive production as described in claim 1, characterized in that: The anti-clogging drive mechanism includes a flushing agent tank (501) and a flushing water pump (502); the flushing agent tank (501) is placed below the stirring and cooling tank (1); the flushing water pump (502) is fixedly connected above the flushing agent tank (501), and the inlet pipe of the flushing water pump (502) is connected to the inside of the flushing agent tank (501).
5. The cooling device for adhesive production as described in claim 4, characterized in that: The anti-clogging drive mechanism also includes a flushing nozzle (503); the flushing nozzle (503) is rotatably connected to the inside of the anti-clogging drive box (5), and the flushing nozzle (503) is connected to the outlet pipe of the flushing water pump (502).
6. The cooling device for adhesive production as described in claim 5, characterized in that: The anti-clogging drive mechanism further includes: a flushing drive lever (504), a flushing drive disc (505), and a flushing drive motor (506); the flushing drive lever (504) is coaxially fixedly connected above the flushing nozzle (503), and the flushing drive lever (504) has a rectangular groove structure; the flushing drive disc (505) is rotatably connected inside the flushing agent tank (501), and a protrusion structure is provided at the centrifugal end of the right end of the flushing drive disc (505), and the protrusion structure of the flushing drive disc (505) is located inside the rectangular groove of the flushing drive lever (504); the flushing drive motor (506) is fixedly connected to the left side of the anti-clogging drive box (5), and the output shaft of the flushing drive motor (506) is coaxially fixedly connected to the flushing drive disc (505).