A cleaning device for rubber product production

The automated cleaning equipment for rubber product production, which integrates cleaning, water control, and drying functions, solves the problems of low efficiency and uneven cleanliness of traditional cleaning equipment. It realizes an efficient and convenient integrated cleaning and drying process, improving production efficiency and product quality.

CN224372276UActive Publication Date: 2026-06-19HEFEI ZHIMIN THERMAL CONTROL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HEFEI ZHIMIN THERMAL CONTROL TECH CO LTD
Filing Date
2025-07-15
Publication Date
2026-06-19

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  • Figure CN224372276U_ABST
    Figure CN224372276U_ABST
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Abstract

This utility model relates to the field of rubber product manufacturing and processing technology, and discloses a cleaning equipment for rubber product production, including a U-shaped workbench and a cleaning tank and a drying tank mounted on it. A first transmission screw is installed in the support columns on both sides of the workbench to drive the connecting frame to rise and fall; a second transmission screw is installed in the connecting frame to drive the connecting block with a slot to move laterally. The placement tank is detachably connected to the connecting block via a locking block, and has a filter hole at the bottom. An impeller and a third motor at the bottom of the cleaning tank create turbulent water flow; the detergent tank automatically adds detergent via a water pump and connecting pipe. Ventilation holes are provided on the side wall of the drying tank, which are connected to the air guide plate of the dryer for hot air supply. This utility model automates the entire process of rubber part clamping, cleaning, draining, and drying, solving the problems of cumbersome cleaning procedures and low efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of rubber product manufacturing and processing technology, specifically to a cleaning device for rubber product manufacturing. Background Technology

[0002] During the production of rubber products, rubber parts are easily contaminated with oil, dust, and processing residues during molding and processing. They need to be cleaned to ensure subsequent assembly or use. Traditional cleaning methods mostly rely on manual labor or simple cleaning devices, which have problems such as low cleaning efficiency and uneven cleanliness. Moreover, after cleaning, they need to be manually transferred to drying equipment for further processing, which is a cumbersome process. This not only increases labor costs but also affects the continuity of production. It is difficult to meet the requirements of large-scale production for efficient and convenient cleaning of rubber parts. Therefore, there is an urgent need for an automated cleaning equipment that integrates cleaning, water control, and drying functions to solve the above problems. Utility Model Content

[0003] To address the shortcomings of existing technologies, this utility model provides a cleaning device for rubber product manufacturing, which solves the problems of low cleaning efficiency and cumbersome cleaning procedures in traditional rubber production cleaning equipment.

[0004] To achieve the above objectives, this utility model provides the following technical solution:

[0005] A cleaning device for rubber product production includes a U-shaped workbench and a cleaning bucket. Multiple support columns are provided on the upper ends of both sides of the workbench. The support columns are hollow inside and have openings on their inner sides. A first transmission screw is provided inside the cavity of the support column. A first motor is provided on the top of the support column. The first motor is used to drive the first transmission screw.

[0006] A connecting frame is threaded onto the first transmission screw. The connecting frame is hollow inside and has an opening on its inner side. A second transmission screw is installed inside the cavity of the connecting frame. A second motor is installed on one side of the connecting frame. The second motor is used to drive the second transmission screw. A connecting block is threaded onto the second transmission screw. The connecting block has a slot. A placement bucket is installed between the connecting blocks. The placement bucket is a hollow placement bucket with an open top. There are locking blocks on both sides of the upper end of the placement bucket. The placement bucket and the connecting block can be detachably connected by locking the locking blocks and the slots.

[0007] A cleaning bucket is installed on the workbench. An impeller is installed at the bottom of the cleaning bucket. A third motor is installed below the impeller to drive the impeller.

[0008] Preferably, a drain pipe is provided at the lower end of the cleaning bucket, and a water inlet pipe is provided at the upper end of the cleaning bucket. The drain pipe and the water inlet pipe pass through the side wall of the workbench and the cleaning bucket in sequence.

[0009] Preferably, a first cavity is provided on the side wall of the workbench near the cleaning bucket, a cleaning agent tank is provided in the first cavity, a connecting pipe is provided above the cleaning agent tank, a water pump is provided at the bottom of the connecting pipe, a through hole is provided on the cleaning bucket, and the connecting pipe passes through the through hole and is movably connected to the cleaning bucket.

[0010] Preferably, a drying drum is also provided on one side of the cleaning drum. The drying drum body is provided with multiple ventilation holes. Multiple second cavities are provided on the two side walls of the workbench near the drying drum. A dryer is provided in the second cavity. The air outlet of the dryer is fixedly connected to one end of the air guide plate, and the other end of the air guide plate is inserted into the ventilation hole.

[0011] Preferably, the bottom of the container is equipped with multiple filter holes.

[0012] Compared with the prior art, the present invention has the following beneficial effects:

[0013] The first motor drives the first transmission screw, and the second motor drives the second transmission screw, realizing the lifting and lateral movement of the placement bucket. Combined with the impeller stirring and cleaning inside the cleaning bucket and the dryer drying inside the drying bucket, an automated integrated process of cleaning, transfer, and drying is formed. This eliminates the need for manual handling of rubber parts, significantly reducing labor input and improving production efficiency. The water flow generated by the impeller rotation, combined with the automatically added detergent from the detergent tank, enhances the cleaning power and uniformity, effectively solving the problem of uneven cleanliness in traditional cleaning methods. The integration of cleaning and drying functions into the same equipment eliminates the manual transfer step, simplifies production processes, and ensures production continuity. The detachable design of the placement bucket and connecting block, along with the bottom water filter hole, facilitates the loading, unloading, and water control of rubber parts, improving operational convenience. The ventilation holes and air guide plates in the drying bucket work together to ensure that hot air flows evenly onto the rubber parts, improving drying efficiency and preventing post-cleaning moisture from affecting product quality. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0015] Figure 2 This utility model Figure 1 Enlarged structural diagram at point A in the middle;

[0016] Figure 3 This utility model Figure 2 Enlarged structural diagram at point B;

[0017] Figure 4 This is a cross-sectional structural diagram of the present invention;

[0018] Figure 5 This utility model Figure 4 Schematic diagram of the cross-section at point C.

[0019] The components are as follows: 1. Workbench; 101. First cavity; 102. Second cavity; 2. Support column; 201. First transmission screw; 202. First motor; 3. Connecting frame; 301. Second transmission screw; 302. Connecting block; 3021. Slot; 303. Second motor; 4. Placement bucket; 401. Locking block; 5. Cleaning bucket; 501. Through hole; 6. Impeller; 601. Third motor; 7. Drain pipe; 8. Water inlet pipe; 9. Detergent tank; 901. Connecting pipe; 902. Water pump; 10. Drying bucket; 1001. Ventilation hole; 11. Dryer; 1101. Air guide plate. Detailed Implementation

[0020] 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.

[0021] Please see Figure 1 - Figure 5 A cleaning device for rubber product production includes a "U"-shaped workbench 1 and a cleaning bucket 5. Multiple support columns 2 are provided on the upper ends of both sides of the workbench 1. The support columns 2 are hollow inside and have openings on the inner side. A first transmission screw 201 is provided in the cavity of the support column 2. A first motor 202 is provided on the top of the support column 2. The first motor 202 is used to drive the first transmission screw 201.

[0022] A connecting frame 3 is threaded onto the first transmission screw 201. The connecting frame 3 is hollow inside and has an opening on its inner side. A second transmission screw 301 is installed inside the cavity of the connecting frame 3. A second motor 303 is installed on one side of the connecting frame 3. The second motor 303 is used to drive the second transmission screw 301. A connecting block 302 is threaded onto the second transmission screw 301. A slot 3021 is provided on the connecting block 302. A placement bucket 4 is provided between the connecting blocks 302. The placement bucket 4 is a hollow placement bucket with an open top. A locking block 401 is provided on both sides of the upper end of the placement bucket 4. The placement bucket 4 and the connecting block 302 are detachably connected by locking the locking block 401 and the slot 3021. Multiple water filter holes are provided at the bottom of the placement bucket 4.

[0023] A cleaning bucket 5 is installed on the workbench 1. An impeller 6 is installed at the bottom of the cleaning bucket 5. A third motor 601 is installed below the impeller 6. The third motor 601 is used to drive the impeller 6.

[0024] With the above technical solution, when placing the material to be cleaned, the first motor 202 drives the first transmission screw 201 to rotate, causing the connecting frame 3 to move down along the support column 2. At the same time, the second motor 303 drives the second transmission screw 301 to rotate, causing the connecting block 302 to move laterally to one side of the cleaning bucket 5 (a position convenient for operators to load and unload materials). At this time, the operator places the rubber parts to be cleaned into the hollow structure placement bucket 4, and then aligns and engages the locking blocks 401 on both sides of the upper end of the placement bucket 4 with the locking grooves 3021 on the connecting block 302, thereby achieving detachable fixing of the placement bucket 4 and the connecting block 302, completing the placement of the material to be cleaned.

[0025] During the movement and cleaning process, the first motor 202 drives the first transmission screw 201 again, causing the connecting frame 3 to lift the placement bucket 4 to a certain height. Then, the second motor 303 drives the second transmission screw 301, causing the connecting block 302 and the placement bucket 4 to move laterally to directly above the cleaning bucket 5. Afterward, the first motor 202 drives the first transmission screw 201 in the reverse direction, causing the connecting frame 3 to descend until the placement bucket 4 is completely immersed in the cleaning solution in the cleaning bucket 5. At this time, the third motor 601 starts and drives the impeller 6 to rotate at high speed. The third motor 601 adopts a waterproof sealing structure, and the impeller 6 agitates the cleaning solution in the cleaning bucket 5 to form a water flow to thoroughly clean the rubber parts inside the placement bucket 4. After cleaning, the placement bucket 4 is raised and removed from the cleaning bucket 5 by reversing the operation, completing the entire moving and cleaning process. The filter holes at the bottom of the placement bucket 4 allow the remaining small amount of water in the placement bucket 4 to be filtered out during the rising process.

[0026] This utility model provides a technical solution: a drain pipe 7 is provided at the lower end of the cleaning bucket 5, and a water inlet pipe 8 is provided at the upper end of the cleaning bucket 5. The drain pipe 7 and the water inlet pipe 8 pass through the side wall of the workbench 1 and the cleaning bucket 5 in sequence.

[0027] A first cavity 101 is provided on the side wall of the workbench 1 near the cleaning bucket 5. A cleaning agent tank 9 is provided in the first cavity 101. A connecting pipe 901 is provided above the cleaning agent tank 9. A water pump 902 is provided at the bottom of the connecting pipe 901. A through hole 501 is provided on the cleaning bucket 5. The connecting pipe 901 passes through the through hole 501 and is movably connected to the cleaning bucket 5.

[0028] Using the above technical solution, after the placement bucket 4 is fully inserted into the cleaning bucket 5, the water inlet operation is performed first. The control valve of the water inlet pipe 8 is opened, and external water is injected into the cleaning bucket 5 through the water inlet pipe 8, which runs through the side wall of the workbench 1 and the cleaning bucket 5, until the water level submerges all the rubber parts inside the placement bucket 4. Then, the valve of the water inlet pipe 8 is closed. Next, cleaning agent is added. The water pump 902 at the top of the cleaning agent tank 9 is started. Under the action of the water pump 902, the cleaning agent in the cleaning agent tank 9 is pumped into the cleaning bucket 5 through the connecting pipe 901. After the addition is completed, the water pump 902 is turned off. Then, the third motor 601 is started to drive the impeller 6 to rotate, so that the water and cleaning agent in the cleaning bucket 5 are fully mixed and form a water flow to clean the rubber parts inside the placement bucket 4. After cleaning is completed, the control valve of the drain pipe 7 is opened, and the wastewater is discharged through the drain pipe 7, which runs through the bottom of the workbench 1 and the cleaning bucket 5. After the wastewater is drained, the valve of the drain pipe 7 is closed. Next, rinse with clean water to remove any residual detergent. Then, open the water inlet pipe 8 again to fill the cleaning tank 5 with clean water, repeating the above water inlet process. Once the water level reaches the target, the impeller 6 starts rotating again to perform a second rinse on the rubber parts. After rinsing, open the drain pipe 7 again to drain the clean water until it is completely drained, completing the entire cleaning process.

[0029] This utility model provides a technical solution: a drying barrel 10 is also provided on one side of the cleaning barrel 5. The drying barrel 10 has multiple ventilation holes 1001 on its body. Multiple second cavities 102 are provided on the two side walls of the workbench 1 near the drying barrel 10. A dryer 11 is provided in the second cavity 102. The air outlet of the dryer 11 is fixedly connected to one end of the air guide plate 1101, and the other end of the air guide plate 1101 is inserted into the ventilation hole 1001.

[0030] With the above technical solution, after the cleaning and rinsing process in the cleaning tub 5 is completed, the drying process begins. First, the first motor 202 drives the first transmission screw 201, causing the connecting frame 3 to lift the placement tub 4 until it is completely detached from the cleaning tub 5 and reaches a suitable height. Then, the second motor 303 drives the second transmission screw 301, causing the connecting block 302 and the placement tub 4 to move laterally until the placement tub 4 is directly above the drying tub 10. Next, the first motor 202 drives the first transmission screw 201 in the reverse direction, causing the connecting frame 3 to descend and slowly insert the placement tub 4 into the drying tub 10 until it is completely within the accommodating space of the drying tub 10 (ensuring the rubber parts are fully covered by the hot airflow). At this time, the dryer 11 in the second cavity 102 on both sides of the workbench 1 is started. The hot air generated by the dryer 11 is transmitted to the air guide plate 1101 through the air outlet. Since the other end of the air guide plate 1101 is connected to the ventilation hole 1001 of the drying barrel 10, the hot air is guided by the air guide plate 1101 and evenly sent into the interior of the drying barrel 10 through the ventilation hole 1001. During the drying process, the multiple ventilation holes 1001 on the body of the drying barrel 10 not only serve as hot air inlets, but also promote air circulation inside the barrel, so that the hot air flow forms a circulation inside the barrel, which fully acts on the rubber parts placed in the barrel 4 (the hollow structure of the barrel 4 and the bottom water filter hole further ensure that the hot air can penetrate to the surface of the rubber parts), accelerating the evaporation of moisture on the surface of the rubber parts. According to the material and moisture content of the rubber parts, the temperature and running time of the dryer 11 are set. After drying is completed, the dryer 11 is turned off. Finally, through the reverse linkage of the first motor 202 and the second motor 303, the placement bucket 4 is raised and moved out of the drying bucket 10, and then moved laterally to the material taking position on one side of the drying bucket 10 before descending. The operator can remove the dried rubber parts by disassembling the snap-fit ​​structure between the placement bucket 4 and the connecting block 302, thus completing the entire drying process.

[0031] The working principle of this utility model is as follows: During operation, the first motor 202 drives the first transmission screw 201, and the second motor 303 drives the second transmission screw 301, causing the connecting block 302 to move the placement bucket 4 to one side of the cleaning bucket 5. The operator places the rubber parts to be cleaned into the placement bucket 4, which is then fixed by the locking block 401 and the locking groove 3021. Then, the connecting frame 3 rises and moves laterally, moving the placement bucket 4 directly above the cleaning bucket 5 before descending, immersing the placement bucket 4 into the cleaning bucket 5. Clean water is injected through the water inlet pipe 8, and the water pump 902 is started to pump the cleaning agent in the cleaning agent tank 9 through the connecting pipe 902. 01. The cleaning solution is fed into the cleaning tank 5. The third motor 601 drives the impeller 6 to rotate and agitate the cleaning fluid to clean the rubber parts. After cleaning, the drain pipe 7 is opened to drain the wastewater, and then clean water is injected through the inlet pipe 8 for a second rinse. After rinsing, the drain pipe 7 is closed, and the connecting frame 3 rises to move the placement tank 4 out of the cleaning tank 5 and drain the water through the filter hole at the bottom of the placement tank 4. Then, the placement tank 4 is moved laterally to the top of the drying tank 10 and lowered into the drying tank 10. The dryer 11 in the second cavity 102 is started, and hot air is sent into the drying tank 10 through the ventilation hole 1001 via the air guide plate 1101 to dry the rubber parts. After drying, the placement tank 4 rises and moves laterally to the side of the drying tank 10 and lowers. The operator disassembles the placement tank 4 and removes the rubber parts, completing the entire cleaning and drying process.

[0032] 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 these 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 cleaning apparatus for rubber product production, characterized by: Includes a "U"-shaped workbench (1) and a cleaning bucket (5). Multiple support columns (2) are provided on the upper ends of both sides of the workbench (1). The support columns (2) are hollow inside and have openings on the inner side. A first transmission screw (201) is provided in the cavity of the support column (2). A first motor (202) is provided on the top of the support column (2). The first motor (202) is used to drive the first transmission screw (201). A connecting frame (3) is threaded onto the first transmission screw (201). The connecting frame (3) is hollow inside and has an opening on its inner side. A second transmission screw (301) is installed inside the cavity of the connecting frame (3). A second motor (303) is installed on one side of the connecting frame (3). The second motor (303) is used to drive the second transmission screw (301). A connecting block (302) is threaded onto the second transmission screw (301). A slot (3021) is provided on the connecting block (302). A placement bucket (4) is provided between the connecting blocks (302). The placement bucket (4) is a hollow placement bucket with an open top. A locking block (401) is provided on both sides of the upper end of the placement bucket (4). The placement bucket (4) and the connecting block (302) are detachably connected by locking the locking block (401) and the slot (3021). A cleaning bucket (5) is provided on the workbench (1). An impeller (6) is provided at the bottom of the cleaning bucket (5). A third motor (601) is provided below the impeller (6). The third motor (601) is used to drive the impeller (6).

2. The cleaning equipment for rubber product production according to claim 1, characterized in that: The bottom of the cleaning bucket (5) is equipped with a drain pipe (7) and the top of the cleaning bucket (5) is equipped with a water inlet pipe (8). The drain pipe (7) and the water inlet pipe (8) pass through the side wall of the workbench (1) and the cleaning bucket (5) in sequence.

3. The cleaning equipment for rubber product production according to claim 1, characterized in that: A first cavity (101) is provided on the side wall of the workbench (1) near the cleaning bucket (5). A cleaning agent tank (9) is provided in the first cavity (101). A connecting pipe (901) is provided above the cleaning agent tank (9). A water pump (902) is provided at the bottom of the connecting pipe (901). A through hole (501) is provided on the cleaning bucket (5). The connecting pipe (901) passes through the through hole (501) and is movably connected to the cleaning bucket (5).

4. The cleaning equipment for rubber product production according to claim 1, characterized in that: A drying barrel (10) is also provided on one side of the cleaning barrel (5). The body of the drying barrel (10) is provided with multiple ventilation holes (1001). Multiple second cavities (102) are provided on the two side walls of the workbench (1) near the drying barrel (10). A dryer (11) is provided in the second cavity (102). The air outlet of the dryer (11) is fixedly connected to one end of the air guide plate (1101), and the other end of the air guide plate (1101) is inserted into the ventilation hole (1001).

5. The cleaning equipment for rubber product production according to claim 1, characterized in that: The bottom of the container (4) has multiple filter holes.