A cooling apparatus for low VOC molding compound production

CN224408207UActive Publication Date: 2026-06-26CHANGSHU HUABANG AUTOMOTIVE COMPOSITE MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHANGSHU HUABANG AUTOMOTIVE COMPOSITE MATERIALS CO LTD
Filing Date
2025-07-17
Publication Date
2026-06-26

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Abstract

The utility model discloses a kind of cooling equipment for low VOC molding compound production, including shell, conveying belt being set on shell, the cooling equipment of plastic production further includes clamping conveying mechanism and cooling mechanism;Clamping conveying mechanism is set on shell, and clamping conveying mechanism is located above conveying belt, clamping conveying mechanism includes mounting bracket, displacement part and abutting portion;Mounting bracket is set on the top of conveying belt;Displacement part has multiple and is respectively slidably set on the top of mounting bracket, and multiple displacement parts are all located above conveying belt;Abutting portion has multiple and is respectively rotatably set on the bottom of displacement part, and multiple abutting portions are all used for abutting to be cooled plastic;Cooling mechanism is set on the top of shell, the device solves the problem that different sizes to be cooled plastic is difficult to be stably clamped and transported in conveying process, reaches the purpose that different width to be cooled plastic can be stably clamped and transported, and does not affect conveying effect.
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Description

Technical Field

[0001] This utility model relates to the field of plastic cooling technology, and more specifically, it relates to a cooling device for the production of low-VOC molding compounds. Background Technology

[0002] Low-VOC molding compounds, as an environmentally friendly material, have been widely used in many fields such as automotive, electronics, and construction. In the production process of low-VOC molding compounds, the cooling process is a crucial step, as its effectiveness directly affects the final performance and quality of the molding compound.

[0003] Currently, the cooling technologies commonly used in the production of low-VOC molding compounds rely on a combination of traditional conveying and cooling devices. The general process involves placing the plastic to be cooled, which has undergone the molding process, onto a conveyor belt. The conveyor belt then transports the plastic to a cooling area, where it is cooled using methods such as air cooling or water cooling.

[0004] However, existing cooling equipment has many problems in practical applications, among which the difficulty in clamping and conveying the plastic to be cooled is a prominent one. Most existing conveying devices have a simple structure, and the conveyor belt usually only has basic load-bearing and conveying functions. When conveying plastics of different sizes, the lack of an effective clamping mechanism makes the plastic prone to shaking, shifting, or even slipping during transport. This problem is particularly pronounced for some irregularly shaped or large low-VOC molding compounds. Utility Model Content

[0005] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a cooling device for the production of low VOC molding compounds that can clamp and transport plastics to be cooled.

[0006] To achieve the above objectives, the present invention provides the following technical solution:

[0007] This utility model is further configured as follows: it includes a housing and a conveyor belt disposed on the housing. The cooling equipment for plastic production also includes a clamping conveyor mechanism and a cooling mechanism. The clamping conveyor mechanism is disposed on the housing and located above the conveyor belt. The clamping conveyor mechanism includes a mounting frame, a displacement part, and an abutment part. The mounting frame is disposed on top of the conveyor belt. Multiple displacement parts are slidably disposed on top of the mounting frame, and all multiple displacement parts are located above the conveyor belt. Multiple abutment parts are rotatably disposed at the bottom of the displacement parts, and all multiple abutment parts are used to abut against the plastic to be cooled. The cooling mechanism is disposed on top of the housing and is used to cool the plastic to be cooled on the conveyor belt.

[0008] By adopting the above technical solution, the problem of unstable clamping and conveying of plastics of different sizes during the conveying process is solved, and the purpose of being able to stably clamp and convey plastics of different widths without affecting the conveying effect is achieved.

[0009] The present invention is further configured such that: the clamping and conveying mechanism includes a positioning plate and a pushing cylinder; there are multiple positioning plates respectively disposed on both sides of the machine housing, and the multiple positioning plates are all located above the conveyor belt; there are multiple pushing cylinders respectively disposed on the side of the positioning plate.

[0010] The present invention is further configured such that: all abutting parts are cylindrical structures, and all abutting parts are made of rubber.

[0011] The present invention is further configured such that: the clamping and conveying mechanism also includes a connecting plate; the connecting plate has a pair and is slidably disposed on the top of the mounting frame, and the bottom of the connecting plate is rotatably connected to a plurality of abutting parts, and the connecting plate is connected to the output end of the pushing cylinder.

[0012] The present invention is further configured such that: the cooling mechanism includes a cooling water tank, a submersible water pump and a spray pipe; the cooling water tank is located at the bottom of the machine casing; the submersible water pump is located inside the cooling water tank; the spray pipe is located inside the cooling water tank and is connected to the submersible water pump, and the spray pipe is located above the conveyor belt.

[0013] The present invention is further configured such that: the cooling mechanism also includes a filter screen; the filter screen is disposed at the top of the cooling water tank and is used to filter the cooling water.

[0014] The present invention is further configured such that: the cooling mechanism also includes a fixing part; the fixing part is disposed on the housing, and the fixing part is used to fix the water spray pipe to the side of the housing.

[0015] By adopting the above technical solution, the water flowing through the tank after cleaning can be filtered through the filter screen, and the filtered cooling water can flow back into the cooling water tank. The filter screen can be placed on top of the cooling water tank, and can be quickly cleaned and replaced by simply removing and picking up the filter screen.

[0016] In summary, this application includes at least one of the following beneficial technical effects:

[0017] By setting up a clamping and conveying mechanism, the problem of unstable clamping and conveying of plastics of different sizes during the conveying process is solved, achieving the goal of being able to stably clamp and convey plastics of different widths without affecting the conveying effect.

[0018] By incorporating a cooling mechanism, the sprayed cooling water can also clean the exterior of the plastic being cooled. After cleaning, the water flowing through the tank is filtered through a screen, and the filtered cooling water flows back into the cooling water tank. The screen can be placed on top of the cooling water tank, allowing for quick cleaning and replacement by simply removing and retrieving it. Attached Figure Description

[0019] Figure 1 This is a three-dimensional structural diagram of a cooling device for the production of low-VOC molding compounds according to the present invention.

[0020] Figure 2 This is a front view of a cooling device for the production of low-VOC molding compounds according to this utility model.

[0021] Figure 3 This is a top view of a cooling device for the production of low-VOC molding compounds according to this utility model.

[0022] Figure 4 This is a three-dimensional structural diagram of a clamping and conveying mechanism for a cooling device used in the production of low-VOC molding compounds, according to this utility model.

[0023] Figure 5 for Figure 4 Enlarged structural diagram at point A in the middle;

[0024] Figure 6 for Figure 4 Enlarged structural diagram at point B;

[0025] Figure 7 This is a three-dimensional structural diagram of the cooling mechanism of a cooling device for the production of low-VOC molding compounds according to this utility model.

[0026] Explanation of reference numerals in the attached drawings: 1. Housing; 11. Conveyor belt; 2. Clamping and conveying mechanism; 21. Mounting frame; 22. Displacement part; 23. Abutment part; 24. Positioning plate; 25. Pushing cylinder; 26. Connecting plate; 3. Cooling mechanism; 31. Cooling water tank; 32. Submersible water pump; 33. Water spray pipe; 34. Filter screen; 35. Fixing part. Detailed Implementation

[0027] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The present invention will now be described in detail with reference to the accompanying drawings and embodiments.

[0028] It should be noted that, unless otherwise specified, all technical and scientific terms used in this application have the same meaning as commonly understood by one of ordinary skill in the art to which this application pertains.

[0029] Please see Figure 1-7The present invention provides the following technical solution:

[0030] Example 1 includes a housing 1 and a conveyor belt 11 mounted on the housing 1. The cooling equipment for plastic production also includes a clamping conveyor mechanism 2 and a cooling mechanism 3. The clamping conveyor mechanism 2 is mounted on the housing 1 and is located above the conveyor belt 11. The clamping conveyor mechanism 2 includes a mounting frame 21, a displacement part 22, and an abutment part 23. The mounting frame 21 is located on top of the conveyor belt 11. Multiple displacement parts 22 are slidably mounted on top of the mounting frame 21, and all of the multiple displacement parts 22 are located above the conveyor belt 11. Multiple abutment parts 23 are rotatably mounted on the bottom of the displacement parts 22, and all of the multiple abutment parts 23 are used to abut against the plastic to be cooled. The cooling mechanism 3 is located on top of the housing 1 and is used to cool the plastic to be cooled on the conveyor belt 11.

[0031] The conveyor belt 11 is existing technology, and its top has multiple water supply channels. First, a robotic arm places the plastic to be cooled onto the conveyor belt 11. Then, the conveyor belt 11 starts rotating, transporting the plastic on it. To clamp and transport plastics of different sizes, a pair of abutment parts 23 abut against both sides of the plastic when it is placed on the conveyor belt 11, allowing for stable movement under the conveyor belt's transport. This enables the clamping and transport of plastics of different widths. Because the abutment parts 23 are rotatable, clamping the plastic does not affect its transport function. This solves the problem of unstable clamping and transport of plastics of different sizes during transport, achieving the goal of stable clamping and transport of plastics of different widths without affecting the transport effect.

[0032] See Figures 2-5 The clamping and conveying mechanism 2 also includes a positioning plate 24 and a pushing cylinder 25; there are multiple positioning plates 24 and they are respectively arranged on both sides of the housing 1, and the multiple positioning plates 24 are all located above the conveyor belt 11; there are multiple pushing cylinders 25 and they are respectively arranged on the side of the positioning plate 24.

[0033] Specifically, in order to clamp, abut, and convey plastics of different widths to be cooled, the push cylinder 25 is first activated, which in turn drives the abutment part 23 to move.

[0034] See Figure 4 and Figure 5 All abutment parts 23 are cylindrical structures, and all abutment parts 23 are made of rubber.

[0035] Specifically, in order to improve the contact and conveying of the plastic to be cooled, the contact parts 23 are all cylindrical in structure, and the contact parts 23 can rotate when in contact with the plastic to be cooled.

[0036] See Figure 5 and Figure 6 The clamping and conveying mechanism 2 also includes a connecting plate 26; the connecting plate 26 has a pair and is slidably disposed on the top of the mounting frame 21, and the bottom of the connecting plate 26 is rotatably connected to a plurality of abutment portions 23, and the connecting plate 26 is connected to the output end of the pushing cylinder 25.

[0037] Specifically, when the pushing cylinder 25 is activated, it can push the connecting plate 26 to move along the mounting bracket 21. Since multiple abutment parts 23 are rotatably arranged at the bottom of the connecting plate 26, the multiple abutment parts 23 can be driven to move synchronously when the connecting plate 26 moves, thereby realizing the movement drive of the abutment parts 23.

[0038] See Figure 7 The cooling mechanism 3 includes a cooling water tank 31, a submersible water pump 32, and a water spray pipe 33. The cooling water tank 31 is located at the bottom of the housing 1. The submersible water pump 32 is located inside the cooling water tank 31. The water spray pipe 33 is located inside the cooling water tank 31 and is connected to the submersible water pump 32. The water spray pipe 33 is located above the conveyor belt 11.

[0039] Specifically, when the plastic to be cooled is conveyed on the conveyor belt 11, the submersible water pump 32 is started and sprays water from the cooling water tank 31 onto the plastic to be cooled on the conveyor belt 11 through the spray pipe 33, thereby achieving cooling spraying of the plastic to be cooled. After spraying, the passage groove opened on the conveyor belt 11 allows the cooling water to pass through, thereby achieving the recycling of the cooling water.

[0040] See Figure 7 The cooling mechanism 3 also includes a filter screen 34; the filter screen 34 is located on the top of the cooling water tank 31 and is used to filter the cooling water.

[0041] Specifically, the sprayed cooling water can also clean the exterior of the plastic to be cooled. After cleaning, the water flowing through the tank can be filtered through filter screen 34, and the filtered cooling water can flow back into the interior of the cooling water tank 31. Filter screen 34 can be placed on top of the cooling water tank 31, and can be quickly cleaned and replaced by removing and handling filter screen 34.

[0042] See Figure 7 The cooling mechanism 3 also includes a fixing part 35; the fixing part 35 is disposed on the housing 1 and is used to fix the water spray pipe 33 to the side of the housing 1.

[0043] Specifically, in order to fix the water spray pipe 33, the fixing part 35 can fix the water spray pipe 33 to the side of the housing 1, thereby effectively fixing the water spray pipe 33 and reducing the vibration of the water spray pipe 33 during use.

[0044] Obviously, the embodiments described above are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of this utility model.

Claims

1. A cooling device for the production of low-VOC molding compounds, comprising a housing (1) and a conveyor belt (11) disposed on the housing (1), characterized in that: The cooling equipment for plastic production also includes a clamping and conveying mechanism (2) and a cooling mechanism (3); The clamping and conveying mechanism (2) is mounted on the housing (1) and is located above the conveyor belt (11). The clamping and conveying mechanism (2) includes a mounting frame (21), a displacement part (22) and an abutment part (23). The mounting bracket (21) is set on top of the conveyor belt (11); Multiple displacement parts (22) are slidably disposed on the top of the mounting frame (21), and all multiple displacement parts (22) are located above the conveyor belt (11); The abutting part (23) has multiple parts and is rotatably disposed at the bottom of the displacement part (22), and the multiple abutting parts (23) are all used to abut against the receiving cooled plastic; The cooling mechanism (3) is located on the top of the housing (1) and is used to cool the plastic to be cooled on the conveyor belt (11).

2. A cooling device for the production of low-VOC molding compounds according to claim 1, characterized in that: The clamping and conveying mechanism (2) also includes a positioning plate (24) and a pushing cylinder (25); there are multiple positioning plates (24) respectively located on both sides of the housing (1), and the multiple positioning plates (24) are located above the conveyor belt (11); there are multiple pushing cylinders (25) respectively located on the side of the positioning plate (24).

3. A cooling device for the production of low-VOC molding compounds according to claim 2, characterized in that: All abutment parts (23) are cylindrical structures, and all abutment parts (23) are made of rubber.

4. A cooling device for the production of low-VOC molding compounds according to claim 3, characterized in that: The clamping and conveying mechanism (2) also includes a connecting plate (26); the connecting plate (26) has a pair and is slidably disposed on the top of the mounting frame (21), and the bottom of the connecting plate (26) is rotatably connected to a plurality of abutment parts (23), and the connecting plate (26) is connected to the output end of the pushing cylinder (25).

5. A cooling device for the production of low-VOC molding compounds according to claim 4, characterized in that: The cooling mechanism (3) includes a cooling water tank (31), a submersible water pump (32), and a water spray pipe (33); the cooling water tank (31) is located at the bottom of the housing (1); the submersible water pump (32) is located inside the cooling water tank (31); the water spray pipe (33) is located inside the cooling water tank (31), and the water spray pipe (33) is connected to the submersible water pump (32), and the water spray pipe (33) is located above the conveyor belt (11).

6. A cooling device for the production of low-VOC molding compounds according to claim 5, characterized in that: The cooling mechanism (3) also includes a filter screen (34); the filter screen (34) is located on top of the cooling water tank (31) and is used to filter the cooling water.

7. A cooling device for the production of low-VOC molding compounds according to claim 6, characterized in that: The cooling mechanism (3) also includes a fixing part (35); the fixing part (35) is provided on the housing (1) and is used to fix the water spray pipe (33) to the side of the housing (1).