A cooling device for resin product processing
By combining the conveyor belt with the through-hole design and the cooling and regulating components, the problem of resin products accumulating and sticking in the cooling device is solved, achieving uniform cooling and efficient processing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI QICAI PLASTIC MATERIAL CO LTD
- Filing Date
- 2025-07-07
- Publication Date
- 2026-06-30
AI Technical Summary
Resin products are prone to accumulating in the cooling device, leading to adhesion and damage, which affects the processing effect.
The design incorporates a conveyor belt and through-holes, along with cooling and adjustment components, to ensure uniform dispersion and movement of the resin product. The product surface is cooled via air jets and ventilation pipes, and the distance between the air jets and the product can be adjusted to accommodate different thicknesses or shapes.
It avoids the accumulation and adhesion of resin products during the cooling process, improves cooling efficiency and product quality, and adapts to the cooling needs of different resin products.
Smart Images

Figure CN224426172U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of resin product processing technology, specifically a cooling device for resin product processing. Background Technology
[0002] Resin products are made from resin as the main raw material through a series of complex processes. Resin products are widely used in daily life and industrial production. For example, plastics are used in packaging, household goods, electronic products and other fields; coatings are used for surface decoration and protection in construction, furniture, automobiles and other fields; adhesives and sealants are used to connect and seal various materials and components.
[0003] According to a Chinese patent publication (CN221232950U), a cooling device for resin product molding includes a cooling device body. After cooling is complete, the device first pulls the handle ring backward, causing the insert block to move until it disengages from the insert plate. Then, the handle plate is rotated downward, causing the rotating plate two to rotate and move forward, disengaging the retaining plate from the retaining ring surface. Next, the handle rotates half-ring one and half-ring two, causing the rotating plate one and half-ring two to rotate around the surface of rotating shaft one. Finally, the handle pulls the outer shell to the left, disengaging the arc-shaped plate from the inner cavity of the retaining groove, thus achieving the function of disassembling the used filter screen. This solves the problem of existing cooling devices where the used filter screen is difficult to disassemble, leading to corrosion. Therefore, an improvement to the cooling device is proposed.
[0004] However, existing devices have the following problems: resin products tend to accumulate in the cooling device body, causing them to stick and become damaged, thus affecting the processing effect. Therefore, a cooling device for resin product processing is proposed. Utility Model Content
[0005] The purpose of this invention is to provide a cooling device for resin product processing to solve the problems mentioned in the background art.
[0006] To achieve the above objectives, the present invention provides the following technical solution: a cooling device for resin product processing, comprising a cooling box;
[0007] A conveyor belt is fixedly installed on the inside side of the cooling box, and a through hole is opened through the surface of the conveyor belt;
[0008] And a feed frame and a discharge frame that are fixedly fixed through the left and right sides of the cooling box and extend into the interior of the cooling box respectively; the interior of the cooling box is equipped with a cooling component and an adjustment component;
[0009] The regulating component is located on the surface of the cooling component.
[0010] Preferably, the cooling assembly includes two support plates located inside the cooling box, with the two support plates respectively located inside and above the conveyor belt. Connecting pipes and ventilation pipes are fixedly connected to the adjacent surfaces of the two support plates. The rear end face of the ventilation pipe is fixedly extended through the surface of the connecting pipe into the interior of the connecting pipe. A jet nozzle is disposed above the ventilation pipe, with the bottom end face of the jet nozzle fixedly extending through the surface of the ventilation pipe into the interior of the ventilation pipe. A ventilation box is fixedly connected to the rear side of the cooling box, and a first motor is fixedly connected to the rear side of the ventilation box. The front end face of the first motor output rod extends through the rear side of the ventilation box into the interior of the ventilation box. Blades are fixedly connected to the front end face of the first motor output rod. Two air outlet pipes are disposed on the front side of the blades, with the front end faces of the two air outlet pipes fixedly extending through the interior side of the ventilation box, the cooling box, and the surface of the connecting pipe into the interior of the connecting pipe. The side of the lower support plate is fixedly connected to the interior side of the cooling box.
[0011] Preferably, the adjustment assembly includes a double-threaded rod and two sliders located inside the cooling box. The two sliders are symmetrically arranged. The rear end face of the double-threaded rod extends through the front side of the two sliders to the rear side of the two sliders. The rear end face of the double-threaded rod is rotatably connected to the rear side of the cooling box through a bearing seat. The top surface of the slider is slidably connected to the top surface of the cooling box. A second motor is fixedly connected to the front side of the cooling box. The rear end face of the output rod of the second motor extends through the rear side of the cooling box to the interior of the cooling box. The rear end face of the output rod of the second motor is fixedly connected to the front end face of the double-threaded rod. An adjustment plate is hinged to the bottom surface of the slider. The bottom surface of the adjustment plate is hinged to the top surface of the upper support plate. The adjustment plate drives the upper support plate to rise and fall, thereby bringing the upper jet head closer to the resin product.
[0012] Preferably, the air outlet duct is configured as a retractable flexible hose, which facilitates the raising and lowering of the upper support plate.
[0013] Preferably, the ventilation box has a ventilation opening through the rear side, and a filter screen is fixedly connected to the inner wall of the ventilation opening to prevent dust and debris in the air from entering the ventilation box, thereby avoiding contamination of the resin product.
[0014] Preferably, a conical hopper is provided between the blade and the air outlet pipe, and the side of the conical hopper is fixedly connected to the inner side of the ventilation box, so that the conical hopper facilitates the entry of air from the ventilation box into the air outlet pipe.
[0015] Preferably, the feed frame and the discharge frame are located at the upper left and lower right of the conveyor belt, respectively, and the bottom right side of the feed frame and the top left side of the discharge frame are slidably connected to the surface of the conveyor belt, which facilitates the loading and unloading of resin products.
[0016] Compared with the prior art, the beneficial effects of this utility model are:
[0017] 1. This cooling device for resin product processing continuously conveys resin products through cooling components and a conveyor belt. With the help of a through-hole design, it ensures that the products are evenly dispersed and moved during the cooling process, avoiding mutual adhesion or damage caused by accumulation, and significantly improving the product processing quality. The upper and lower support plates are respectively equipped with ventilation pipes and jet nozzles, which can simultaneously spray cold airflow onto the upper and lower surfaces of the resin products. The blades in the ventilation box force the airflow to be delivered to the connecting pipe through the air outlet pipe, and then evenly cover the product surface through the jet nozzles, improving the cooling efficiency of the device for resin product processing.
[0018] 2. This cooling device for resin product processing uses an adjustment component to drive a double-headed threaded rod to rotate via a second motor, causing symmetrical sliders to move closer or further away synchronously. The upper support plate is raised or lowered via a hinged adjustment plate, thereby adjusting the distance between the jet nozzle and the product. The cooling distance can be adjusted for resin products of different thicknesses or shapes, avoiding deformation caused by excessive airflow or affecting the cooling effect by insufficient airflow. Attached Figure Description
[0019] Figure 1 This is a perspective view of the left side of this utility model;
[0020] Figure 2 This is a perspective view of the overall main view of this utility model;
[0021] Figure 3 This is a rear perspective view of the entire utility model;
[0022] Figure 4 This is a front sectional perspective view of the present invention;
[0023] Figure 5 This is a left perspective view of the double-ended threaded rod of this utility model.
[0024] In the diagram: Cooling box 1, Feed frame 2, Discharge frame 3, Conveyor belt 4, Cooling assembly 50, Ventilation box 501, First motor 502, Blade 503, Filter screen 504, Conical bucket 505, Support plate 506, Connecting pipe 507, Air outlet pipe 508, Ventilation pipe 509, Jet nozzle 5010, Adjustment assembly 51, Second motor 511, Double-ended threaded rod 512, Slider 513, Adjustment plate 514. Detailed Implementation
[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0026] Example 1: Please refer to Figure 1 - Figure 5 This utility model provides a technical solution: a cooling device for resin product processing, including a cooling box 1;
[0027] A conveyor belt 4 is fixedly installed on the inner side of the cooling box 1, and a through hole is provided on the surface of the conveyor belt 4.
[0028] And respectively fixed through the left and right sides of the cooling box 1 and extending into the interior of the cooling box 1, the cooling box 1 is provided with a cooling component 50 and an adjusting component 51;
[0029] The adjustment component 51 is located on the surface of the cooling component 50.
[0030] Cooling assembly 50 includes two support plates 506 located inside cooling box 1. The two support plates 506 are located inside and above conveyor belt 4, respectively. Connecting pipe 507 and ventilation pipe 509 are fixedly connected to the adjacent surfaces of the two support plates 506. The rear end face of ventilation pipe 509 is fixedly connected through the surface of connecting pipe 507 and extends into the interior of connecting pipe 507. A jet nozzle 5010 is provided above ventilation pipe 509. The bottom end face of jet nozzle 5010 is fixedly connected through the surface of ventilation pipe 509 and extends into the interior of ventilation pipe 509. Ventilation box 501 is fixedly connected to the rear side of cooling box 1. First motor 502 is fixedly connected to the rear side of ventilation box 501. The front end face of the output rod of first motor 502 extends through the rear side of ventilation box 501 and into the interior of ventilation box 501. Blade 503 is fixedly connected to the front end face of the output rod of first motor 502. There are two air outlet pipes 508. The front ends of the two air outlet pipes 508 are fixedly connected to the inner side of the ventilation box 501, the cooling box 1 and the surface of the connecting pipe 507, extending into the interior of the connecting pipe 507. The side of the lower support plate 506 is fixedly connected to the inner side of the cooling box 1. The resin product is continuously transported by the cooling component 50 and the conveyor belt 4. With the through hole design, the product is evenly dispersed and moved during the cooling process, avoiding mutual adhesion or damage caused by accumulation, and significantly improving the product processing quality. The upper and lower support plates 506 are respectively equipped with ventilation pipes 509 and jet nozzles 5010, which can spray cold airflow onto the upper and lower surfaces of the resin product at the same time. The blades 503 in the ventilation box 501 force the airflow to be transported to the connecting pipe 507 through the air outlet pipes 508, and then evenly cover the product surface through the jet nozzles 5010, improving the cooling efficiency of the device for resin product processing.
[0031] The air outlet duct 508 is a retractable flexible hose, which facilitates the raising and lowering of the upper support plate 506.
[0032] The ventilation box 501 has a ventilation opening on the rear side, and a filter screen 504 is fixedly connected to the inner wall of the ventilation opening. The filter screen 504 effectively blocks dust and impurities in the air from entering the cooling box 1, ensuring clean airflow and avoiding contamination of the resin product surface.
[0033] A conical hopper 505 is provided between the blade 503 and the air outlet duct 508. The side of the conical hopper 505 is fixedly connected to the inside side of the ventilation box 501. The conical hopper 505 optimizes airflow guidance, reduces air pressure loss, and improves cooling intensity.
[0034] The feed frame 2 and the discharge frame 3 are located at the upper left and lower right of the conveyor belt 4, respectively. The bottom right side of the feed frame 2 and the top left side of the discharge frame 3 are slidably connected to the surface of the conveyor belt 4. The feed frame 2 and the discharge frame 3 are slidably connected to the conveyor belt 4 to ensure that the products enter and exit smoothly and reduce the risk of jamming.
[0035] Example 2: Based on Example 1, a preferred embodiment of the cooling device for resin product processing provided by this utility model is as follows: Figure 1 - Figure 5 As shown: The adjustment assembly 51 includes a double-threaded rod 512 and two sliders 513 located inside the cooling box 1. The two sliders 513 are symmetrically arranged. The rear end face of the double-threaded rod 512 extends through the front side of the two sliders 513 to the rear side of the two sliders 513. The rear end face of the double-threaded rod 512 is rotatably connected to the rear side of the interior of the cooling box 1 through a bearing seat. The top surface of the sliders 513 is slidably connected to the top surface of the interior of the cooling box 1. A second motor 511 is fixedly connected to the front side of the cooling box 1. The rear end face of the output rod of the second motor 511 extends through the rear side of the cooling box 1 to the interior of the cooling box 1. The rear end face of the output rod 511 is fixedly connected to the front end face of the double-headed threaded rod 512. The bottom surface of the slider 513 is hinged to an adjustment plate 514. The bottom surface of the adjustment plate 514 is hinged to the top surface of the upper support plate 506. Through the adjustment component 51, the second motor 511 drives the double-headed threaded rod 512 to rotate, so that the symmetrical sliders 513 move closer or further away synchronously. The hinged adjustment plate 514 controls the lifting and lowering of the upper support plate 506, thereby adjusting the distance between the jet head 5010 and the product. The cooling distance can be adjusted for resin products of different thicknesses or shapes to avoid deformation caused by excessive airflow or to affect the cooling effect by insufficient airflow.
[0036] In use, resin products are sequentially placed from the feed box 2 onto the conveyor belt 4. The conveyor belt 4 is turned on, so that the resin products are arranged sequentially on the conveyor belt 4. The second motor 511 is turned on, and the output rod of the second motor 511 drives the connected double-headed threaded rod 512 to rotate, so that the two sliders 513 move away from each other, thereby driving the adjusting plate 514 to move closer to each other and driving the upper support plate 506 to move downward, so that the upper jet head 5010 moves downward and closer to the resin products.
[0037] The first motor 502 is turned on, and the output rod of the first motor 502 drives the blades 503 to rotate, which speeds up the airflow in the ventilation box 501. The flowing air passes through the conical bucket 505 and enters the air outlet pipe 508, and is sprayed onto the resin product through the connecting pipe 507, ventilation pipe 509 and jet nozzle 5010, thereby cooling the upper and lower sides of the resin product. At the same time, the airflow in the cooling box 1 is accelerated, thereby cooling the resin product comprehensively. The air in the cooling box 1 is discharged from the feed frame 2 and the discharge frame 3. After the resin product is cooled, the conveyor belt 4 is turned on, and the resin product is discharged from the discharge frame 3.
[0038] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A cooling device for processing resin products, comprising a cooling box (1); A conveyor belt (4) is fixedly installed on the inside side of the cooling box (1), and a through hole is provided on the surface of the conveyor belt (4); And respectively fixed feed frame (2) and discharge frame (3) which extend to the inside of cooling box (1) through the left and right side of cooling box (1), characterized in that: The cooling box (1) is equipped with a cooling component (50) and an adjustment component (51). The adjustment component (51) is located on the surface of the cooling component (50).
2. A cooling device for resin product processing according to claim 1, characterized in that: The cooling assembly (50) includes two support plates (506) located inside the cooling box (1). The two support plates (506) are located inside and above the conveyor belt (4), respectively. A connecting pipe (507) and a ventilation pipe (509) are fixedly connected to the adjacent surfaces of the two support plates (506). The rear end face of the ventilation pipe (509) is fixedly extended through the surface of the connecting pipe (507) into the interior of the connecting pipe (507). A jet nozzle (5010) is provided above the ventilation pipe (509). The bottom end face of the jet nozzle (5010) is fixedly extended through the surface of the ventilation pipe (509) into the interior of the ventilation pipe (509). A ventilation fan is fixedly connected to the rear side of the cooling box (1). The ventilation box (501) is fixedly connected to the rear side of the ventilation box (501). The front end of the output rod of the first motor (502) extends through the rear side of the ventilation box (501) and into the interior of the ventilation box (501). The front end of the output rod of the first motor (502) is fixedly connected to the blade (503). Two air outlet pipes (508) are provided on the front side of the blade (503). The front end of the two air outlet pipes (508) is fixedly connected through the interior side of the ventilation box (501), the cooling box (1), and the surface of the connecting pipe (507) and extends into the interior of the connecting pipe (507). The side of the support plate (506) below is fixedly connected to the interior side of the cooling box (1).
3. A cooling device for resin product processing according to claim 2, characterized in that: The adjustment assembly (51) includes a double-ended threaded rod (512) and two sliders (513) located inside the cooling box (1). The two sliders (513) are symmetrically arranged. The rear end face of the double-ended threaded rod (512) extends through the front side of the two sliders (513) to the rear side of the two sliders (513). The rear end face of the double-ended threaded rod (512) is rotatably connected to the rear side of the cooling box (1) through a bearing seat. The top surface of the slider (513) is slidably connected to the top surface of the cooling box (1). A second motor (511) is fixedly connected to the front side of the cooling box (1). The rear end face of the output rod of the second motor (511) extends through the rear side of the cooling box (1) to the interior of the cooling box (1). The rear end face of the output rod of the second motor (511) is fixedly connected to the front end face of the double-ended threaded rod (512). An adjustment plate (514) is hinged to the bottom surface of the slider (513). The bottom surface of the adjustment plate (514) is hinged to the top surface of the upper support plate (506).
4. A cooling device for resin product processing according to claim 2, characterized in that: The air outlet pipe (508) is configured as a retractable flexible hose.
5. A cooling device for resin product processing according to claim 2, characterized in that: The ventilation box (501) has a ventilation opening through the rear side, and a filter screen (504) is fixedly connected to the inner wall of the ventilation opening.
6. A cooling device for resin product processing according to claim 2, characterized in that: A conical bucket (505) is provided between the blade (503) and the air outlet pipe (508), and the side of the conical bucket (505) is fixedly connected to the inside side of the ventilation box (501).
7. A cooling device for resin product processing according to claim 1, characterized in that: The feed frame (2) and the discharge frame (3) are located on the upper left and lower right of the conveyor belt (4), respectively. The bottom right side of the feed frame (2) and the top left side of the discharge frame (3) are slidably connected to the surface of the conveyor belt (4).