A plastic product surface cleaning and wiping mechanism

Abstract

The utility model relates to plastic product cleaning technical field, concretely is a kind of plastic product surface cleaning wiping mechanism, including base, clamping device, height adjusting device, linear moving device, spraying device, wiping device, drying device and moving device, the bottom wall of base is equipped with the moving device, the top wall rear end of base is equipped with support seat, the side wall of support seat is equipped with control panel, the top seat is equipped in support seat by height adjusting device, along with the movement of moving plate, spraying device in its one end will be sprayed with appropriate amount of cleaning agent to plastic product surface, help soften stubborn stain, then after spraying, the wiping device installed in the middle of moving plate will carefully wipe the area sprayed with cleaning agent, remove stain, finally, the drying device installed in the other end of moving plate will be cleaned area is rapidly dried and handled, avoid water stain remains.

Description

Technical Field

[0001] This utility model relates to the field of plastic product cleaning technology, specifically a surface cleaning and wiping mechanism for plastic products. Background Technology

[0002] As is well known, during the production, processing, and use of plastic products, the surface is easily contaminated with dust, oil, fingerprints, or other pollutants, affecting the appearance quality and subsequent processing performance of the products. Therefore, surface cleaning of plastic products is an indispensable part of the production process. Traditional cleaning methods mainly rely on manual wiping or simple mechanical cleaning. Relying on manual operation is not only time-consuming, but also makes it difficult to ensure the consistency and uniformity of cleaning, resulting in problems such as low efficiency, unstable cleaning effect, and high labor intensity. In particular, for plastic products of different shapes, sizes, or heights, traditional wiping equipment is difficult to adapt to different shapes and sizes of plastic products, with poor versatility. Traditional methods are difficult to achieve rapid adaptation and precise cleaning, which can easily cause uneven cleaning or surface damage. Moreover, some equipment only has wiping function, which can easily lead to low cleaning efficiency. Utility Model Content

[0003] (a) Technical problems to be solved

[0004] To address the shortcomings of existing technologies, this utility model provides a surface cleaning and wiping mechanism for plastic products.

[0005] (II) Technical Solution

[0006] To achieve the above objectives, this utility model provides the following technical solution: a surface cleaning and wiping mechanism for plastic products, comprising a base, a clamping device, a height adjustment device, a linear moving device, a spraying device, a wiping device, a drying device, and a moving device. The moving device is installed on the bottom wall of the base, a support seat is installed at the rear end of the top wall of the base, a control panel is installed on the side wall of the support seat, a top seat is installed inside the support seat via the height adjustment device, a moving plate is installed on the bottom wall of the top seat via the linear moving device, the spraying device and the drying device are respectively installed at the left and right ends of the moving plate, the wiping device is installed in the middle of the bottom wall of the moving plate, and the clamping device is installed at both ends of the top wall of the base.

[0007] Furthermore, the present invention is improved in that the height adjustment device includes a first groove, a first screw, a first slider, a first motor, and a support rod. The first groove is vertically formed on the side wall of the support base near the base. The first screw is rotatably installed in the first groove. The first motor is installed through the top wall of the first groove at the top end of the first screw. The first slider is threaded onto the first screw. The support rod is fixedly installed on the side wall of the first slider. The side wall of the support rod is fixedly connected to the back wall of the top base.

[0008] Furthermore, the present invention is improved in that the linear moving device includes a second groove, a second screw, a second slider, and a second motor. The bottom wall of the top seat is laterally provided with the second groove. The second screw is rotatably installed in the second groove. One end of the second screw passes through the side wall of the second groove and is installed with the second motor. The second slider is threaded onto the second screw. The bottom wall of the second slider is fixedly connected to the top wall of the moving plate.

[0009] Furthermore, the present invention is improved in that the spraying device includes a liquid storage tank, a delivery pipe, a water distribution pipe, nozzles, and a pump body. The water distribution pipe is installed on one side wall of the movable plate, and a plurality of nozzles are installed on the bottom wall of the water distribution pipe. The liquid storage tank is fixedly installed on the back wall of the base, and the delivery pipe is installed on the top wall of the liquid storage tank. The output end of the delivery pipe is connected to the top wall of the water distribution pipe, and the pump body is installed on the outer wall of the delivery pipe.

[0010] Furthermore, the present invention is improved in that the wiping device includes a driving gear, a driven gear, a rotating shaft, a wiping block, a third motor, and a pressure sensor. The third motor is installed on the top wall of the moving plate. The bottom output end of the third motor passes through the top wall of the moving plate and extends into its inner cavity where the driving gear is installed. Multiple sets of driven gears are continuously meshed on the side wall of the driving gear. The rotating shaft is installed at the bottom end of each set of driven gears. The wiping block is installed through the bottom wall of the rotating shaft and is made of microfiber cloth. A pressure sensor is installed at one end of the bottom wall of the moving plate.

[0011] Furthermore, the present invention is improved in that the drying device includes a blower, an air distribution pipe and an air outlet. The blower is installed on the top wall of the top seat, the air outlet end of the blower is connected to the top wall of the air distribution pipe, the air distribution pipe is installed on the other end of the movable plate, and a plurality of air outlets are opened on the bottom wall of the air distribution pipe.

[0012] Furthermore, the present invention is improved in that the clamping device includes a fixed plate, an electric telescopic rod, a clamping plate and a V-groove. Two sets of the fixed plates are symmetrically installed on the top wall of the base. The electric telescopic rod is installed on the side wall of the two sets of fixed plates at opposite ends. The output ends of the two sets of electric telescopic rods are installed through the side wall of the fixed plate and are connected to the clamping plate. The V-groove is provided on the side wall of the two sets of clamping plates.

[0013] Furthermore, the present invention is improved in that the mobile device includes casters and a brake assembly, and casters are installed at the four corners of the bottom wall of the base. A brake assembly is provided on the casters, and the brake assembly is adapted to the casters.

[0014] (III) Beneficial Effects

[0015] Compared with the prior art, this utility model provides a surface cleaning and wiping mechanism for plastic products, which has the following beneficial effects:

[0016] This plastic product surface cleaning and wiping mechanism, through its clamping and height adjustment devices, precisely controls the clamping force via an electric telescopic rod, ensuring that plastic products are firmly fixed even during intensive cleaning, preventing movement or displacement and improving cleaning quality. The V-groove design on the clamping plate allows the device to flexibly handle plastic products of different shapes and sizes, increasing the equipment's versatility and practicality. Height adjustment using a first motor driving a first screw provides very high positioning accuracy, ensuring that the top seat and its components can be accurately positioned at any required height. This design allows the equipment to quickly adapt to plastic products of different heights, increasing its application range and flexibility.

[0017] This plastic product surface cleaning and wiping mechanism, through a linear movement device in conjunction with a spraying device, a wiping device, and a drying device, allows the moving plate to precisely move laterally along a predetermined path, ensuring that each area is thoroughly treated. This achieves a one-stop cleaning service from spraying to wiping to drying, improving overall work efficiency. The multiple nozzle design ensures that the cleaning agent or loosening agent is evenly covered on the surface of the plastic product to be cleaned, helping to soften stubborn stains for subsequent wiping. Multiple rotating wiping blocks work simultaneously, covering a large area and improving cleaning efficiency. The microfiber cloth material is soft and has good stain removal ability, effectively removing various types of stains. A pressure sensor monitors and adjusts the pressure applied to the surface of the plastic product in real time, ensuring cleaning effectiveness while avoiding surface damage caused by excessive pressure. The powerful airflow generated by the blower and discharged through multiple sets of air outlets can quickly remove surface moisture or cleaning agent residue, greatly shortening drying time and improving overall work efficiency. Attached Figure Description

[0018] Figure 1 This is a three-dimensional structural diagram of the present invention from a first angle;

[0019] Figure 2 This is a two-dimensional structural diagram of the present invention from a second angle;

[0020] Figure 3 This is a three-dimensional structural diagram of the present invention from a third angle;

[0021] Figure 4 This is a schematic diagram of the three-dimensional structure of the movable plate of this utility model.

[0022] In the diagram: 1. Base; 2. Support base; 3. Control panel; 4. Top base; 5. Movable plate; 6. First groove; 7. First screw; 8. First slider; 9. First motor; 10. Support rod; 11. Second groove; 12. Second screw; 13. Second slider; 14. Second motor; 15. Liquid storage tank; 16. Infusion pipe; 17. Water distribution pipe; 18. Nozzle; 19. Pump body; 20. Drive gear; 21. Driven gear; 22. Rotating shaft; 23. Wiping block; 24. Third motor; 25. Pressure sensor; 26. Blower; 27. Air distribution pipe; 28. Air outlet; 29. ​​Fixing plate; 30. Electric telescopic rod; 31. Clamping plate; 32. V-groove; 33. Universal wheel; 34. Brake assembly. Detailed Implementation

[0023] 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.

[0024] Please see Figure 1-4A surface cleaning and wiping mechanism for plastic products includes a base 1, a clamping device, a height adjustment device, a linear movement device, a spraying device, a wiping device, a drying device, and a moving device. The moving device is installed on the bottom wall of the base 1, and a support seat 2 is installed at the rear end of the top wall of the base 1. A control panel 3 is installed on the side wall of the support seat 2. A top seat 4 is installed inside the support seat 2 via the height adjustment device. A moving plate 5 is installed on the bottom wall of the top seat 4 via the linear movement device. The spraying device and the drying device are installed at the left and right ends of the moving plate 5, respectively. The wiping device is installed in the middle of the bottom wall of the moving plate 5. The clamping device is installed at both ends of the top wall of the base 1. In this embodiment, during use, the base 1 (the device) is moved to the target position using the moving device, and then the plastic product to be cleaned is placed on the base 1 and firmly fixed using the clamping devices at both ends of the base 1. The control panel on the side wall of the support seat 2... The equipment is started on plate 3, initiating the automatic cleaning process. Based on the height of the plastic product to be cleaned, the position of the top seat 4 is adjusted using a height adjustment device to ensure the wiping device accurately contacts and treats the product surface. During operation, a linear motion device drives the moving plate 5, mounted below the top seat 4, to move linearly left and right. As the moving plate 5 moves, a spraying device at one end sprays an appropriate amount of cleaning agent onto the surface of the plastic product to help soften stubborn stains. Following the spraying, a wiping device installed in the middle of the moving plate 5 rotates and wipes the area sprayed with cleaning agent to remove stains. Finally, a drying device installed at the other end of the moving plate 5 quickly dries the cleaned area to prevent water residue. After cleaning, the equipment stops, the clamping device is released, and the cleaned plastic product is removed. This automated process provides a one-stop cleaning service from spraying to wiping to drying, improving work efficiency and reducing the need for manual intervention.

[0025] Preferably, in this embodiment, the height adjustment device includes a first groove 6, a first screw 7, a first slider 8, a first motor 9, and a support rod 10. The support base 2 has a vertically formed first groove 6 on one side wall near the base 1. The first screw 7 is rotatably installed in the first groove 6. The first motor 9 is installed through the top wall of the first screw 7, and the first slider 8 is threaded onto the first screw 7. The support rod 10 is fixedly installed on the side wall of the first slider 8. The side wall of the support rod 10 is fixedly connected to the back wall of the top seat 4. The operator sets the required height adjustment parameters through the control panel 3. After receiving the command, the control system starts the first motor 9, which drives the first screw 7 to rotate. When the first screw 7 rotates, due to the threaded connection between the first slider 8 and the first screw 7, this... This causes the first slider 8 to move up and down along the direction of the first screw 7, i.e., vertically. As the first slider 8 moves, the support rod 10 fixed on its side wall also moves, thereby driving the top seat 4 connected to it to move up and down. By precisely controlling the speed and rotation time of the first motor 9, the height of the top seat 4 can be precisely adjusted to adapt to plastic products of different heights. When the first slider 8 and the top seat 4 connected to it reach the preset height, the control system will stop the operation of the first motor 9, keeping the top seat 4 in that position. At this time, the linear movement device, spray device, wiping device and drying device on the bottom wall of the top seat 4 are all ready and can start the cleaning operation according to the set program. The height adjustment by using the first motor 8 to drive the first screw 6 can provide very high positioning accuracy, ensuring that the top seat 4 and its components can be accurately positioned at any required height.

[0026] Preferably, in this embodiment, the linear motion device includes a second groove 11, a second screw 12, a second slider 13, and a second motor 14. The bottom wall of the top seat 4 has a second groove 11 horizontally formed. The second screw 12 is rotatably installed in the second groove 11. One end of the second screw 12 passes through the side wall of the second groove 11 and is fitted with the second motor 14. The second slider 13 is threaded onto the second screw 12. The bottom wall of the second slider 13 is fixedly connected to the top wall of the moving plate 5. The operator sets the required movement parameters, such as the movement distance or target position, through the control panel 3. After receiving the command, the control system starts the second motor 14, which drives the second screw 12. When rod 12 rotates, the second screw 12 rotates. Due to the threaded connection between the second slider 13 and the second screw 12, the second slider 13 will move left and right along the direction of the second screw 12, i.e., the horizontal direction. As the second slider 13 moves, the moving plate 5 fixed on its bottom wall also moves. Since the spraying device, wiping device and drying device are all installed on the moving plate 5, these components will also move laterally in sync. By precisely controlling the speed and rotation time of the second motor 14, precise lateral movement of the moving plate 5 and its components can be achieved, realizing cleaning processes such as spraying, wiping or drying, ensuring that the cleaning operation covers the entire surface of the plastic product until the entire cleaning process is completed on the target surface.

[0027] Preferably, in this embodiment, the spraying device includes a storage tank 15, a delivery pipe 16, a water distribution pipe 17, nozzles 18, and a pump body 19. The water distribution pipe 17 is installed on one side wall of the moving plate 5, and several nozzles 18 are installed on the bottom wall of the water distribution pipe 17. The storage tank 15 is fixedly installed on the back wall of the base 1, and the delivery pipe 16 is installed on the top wall of the storage tank 15. The output end of the delivery pipe 16 is connected to the top wall of the water distribution pipe 17, and the pump body 19 is installed on the outer wall of the delivery pipe 16. When the moving plate 5 moves to the surface of the plastic product requiring spraying, the control system sends a command to the pump body 19 to start working. After the pump body 19 starts, from... The cleaning agent is drawn from the storage tank 15 and delivered to the distribution pipe 17 through the infusion tube 16. The cleaning agent is pumped into the distribution pipe 17 through the infusion tube 16 and then distributed to multiple nozzles 18 installed at the bottom of the distribution pipe 17. Each nozzle 18 sprays the cleaning agent evenly onto the surface of the plastic product to be cleaned according to the set pressure and flow rate, helping to soften stubborn stains for subsequent wiping. The design of multiple nozzles 18 ensures that the cleaning agent can be evenly covered on the surface of the plastic product to be cleaned, improving cleaning efficiency and effect. The pump body 19 is used to adjust the spray pressure and flow rate, and the amount of cleaning agent used can be adjusted according to different types of stains, which ensures the cleaning effect and avoids waste.

[0028] Preferably, in this embodiment, the wiping device includes a driving gear 20, a driven gear 21, a rotating shaft 22, a wiping block 23, a third motor 24, and a pressure sensor 25. The third motor 24 is installed on the top wall of the moving plate 5. The bottom output end of the third motor 24 penetrates the top wall of the moving plate 5 and extends into its inner cavity, where the driving gear 20 is installed. The side wall of the driving gear 20 continuously meshes with multiple sets of driven gears 21. The bottom end of each set of driven gears 21 is equipped with the rotating shaft 22. The bottom wall of the rotating shaft 22 penetrates the bottom wall of the moving plate 5, where the wiping block 23 is installed. The wiping block 23 is made of microfiber cloth. A pressure sensor 25 is installed at one end of the bottom wall of the moving plate 5. The control system sends a command to the third motor 24 to start working. After the third motor 24 starts, it drives the driving gear 20 to rotate. When the driving gear 20 rotates, it continuously meshes with the driven gear 21. Multiple driven gears 21 are driven to rotate synchronously in a combined manner. Each driven gear 21 has a rotating shaft 22 installed at its bottom. These rotating shafts 22 rotate with the rotation of the driven gears 21, thereby driving the wiping blocks 23 installed at their bottom to rotate. The wiping blocks 22, made of microfiber cloth, directly contact the surface of the plastic product to be cleaned and remove stains through rotational friction. A pressure sensor 25 installed at one end of the bottom wall of the moving plate 5 monitors and adjusts the pressure applied to the surface of the plastic product in real time to ensure the best wiping effect while avoiding damage to the surface. By having multiple rotating wiping blocks 23 work simultaneously, a larger area can be covered, improving cleaning efficiency. The microfiber cloth is soft and has good decontamination ability, which can effectively remove various types of stains. The pressure sensor 25 monitors and adjusts the pressure applied to the surface of the plastic product in real time, which can ensure the cleaning effect while avoiding surface damage caused by excessive pressure.

[0029] Preferably, in this embodiment, the drying device includes a blower 26, an air distribution pipe 27, and air outlets 28. The blower 26 is installed on the top wall of the top seat 4, and the air outlet end of the blower 26 is connected to the top wall of the air distribution pipe 27. The other end of the moving plate 5 is installed with the air distribution pipe 27, and the bottom wall of the air distribution pipe 27 has several air outlets 28. The control system sends a command to the blower 26 to start working. After the blower 26 starts, it generates airflow and sends air into the air distribution pipe 27 through its air outlet end. After receiving the airflow from the blower 26, the air distribution pipe 27... The airflow is evenly distributed to multiple air outlets 28 installed on its bottom wall. The airflow is sprayed out from the air outlets 28 and directly acts on the surface of the plastic product that has been wiped or cleaned, accelerating the drying process and preventing water stains or spots. The powerful airflow generated by the blower 26 can quickly remove surface moisture or cleaning agent residue, greatly shortening the drying time and improving overall work efficiency. The design of the air distribution pipe 27 allows the airflow to be evenly distributed and sprayed out through multiple air outlets 28, ensuring that each area can be fully dried and avoiding secondary pollution or water stains caused by local undried areas.

[0030] Preferably, in this embodiment, the clamping device includes a fixed plate 29, an electric telescopic rod 30, a clamping plate 31, and a V-groove 32. Two sets of fixed plates 29 are symmetrically installed on the top wall of the base 1. The electric telescopic rod 30 is installed on the side wall of each set of fixed plates 29 at a distance from each other. The output end of each set of electric telescopic rods 30 passes through the side wall of the fixed plate 29 and is installed with the clamping plate 31. The side wall of each set of clamping plates 31 is provided with the V-groove 32. The required clamping parameters (such as clamping force) are set through the control panel 3, and the control system sends a command to the electric telescopic rod 30 to start working. After the electric telescopic rod 30 starts, it pushes the clamping plate 31 to move inward. Since the two sets of clamping plates 31 are respectively installed on the two sides... The clamping plates 31 are located on opposite sides of the fixed plate 29 and each clamping plate 31 is provided with a V-groove 32, thus ensuring stable support for plastic products of different shapes and sizes. When the clamping plate 31 contacts the plastic product, the electric telescopic rod 30 stops advancing according to the preset pressure value, ensuring that the clamping force is moderate, which can firmly fix the object without causing damage. Throughout the cleaning process, including spraying, wiping and drying, the clamping device remains stable, ensuring that the plastic product will not move or shift due to external force, thus guaranteeing the quality and effect of cleaning. After cleaning, the control system sends a command to make the electric telescopic rod 30 move in the opposite direction, driving the clamping plate 31 to move outward and release the plastic product. The operator can then safely remove the cleaned plastic product.

[0031] Preferably, in this embodiment, the mobile device includes casters 33 and brake components 34. Casters 33 are installed at all four corners of the bottom wall of the base 1. Brake components 34 are provided on the casters 33. The brake components 34 are adapted to the casters 33. When the mobile device needs to be moved, ensure that the brake components 34 on all casters 33 are in the unlocked state. At this time, the casters 33 can rotate freely, allowing the device to move easily in all directions. When the device reaches the ideal working position, the operator should activate the brake components 34 on each caster 33. The brake components 34 lock the position of the casters 33 to prevent the device from moving due to accidental external forces such as collisions or uneven ground.

[0032] To illustrate the possible application scenarios, technical principles, implementable specific solutions, and achievable objectives and effects of this application in detail, the following description, in conjunction with the listed specific embodiments and accompanying drawings, provides a detailed explanation. The embodiments described herein are merely illustrative of the technical solutions of this application and are therefore intended to limit the scope of protection of this application.

[0033] 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 surface cleaning and wiping mechanism for plastic products, comprising a base (1), a clamping device, a height adjustment device, a linear movement device, a spraying device, a wiping device, a drying device, and a moving device, characterized in that: The base (1) has the moving device installed on its bottom wall, the support seat (2) is installed on the rear end of the top wall of the base (1), the control panel (3) is installed on the side wall of the support seat (2), the top seat (4) is installed inside the support seat (2) through the height adjustment device, the bottom wall of the top seat (4) is installed with a moving plate (5) through the linear moving device, the spraying device and the drying device are installed on the left and right ends of the moving plate (5) respectively, the wiping device is installed in the middle of the bottom wall of the moving plate (5), and the clamping device is installed on both ends of the top wall of the base (1).

2. The surface cleaning and wiping mechanism for plastic products according to claim 1, characterized in that: The height adjustment device includes a first groove (6), a first screw (7), a first slider (8), a first motor (9), and a support rod (10). The support base (2) has a vertically formed first groove (6) on one side wall near the base (1). The first screw (7) is rotatably installed in the first groove (6). The first motor (9) is installed through the top wall of the first groove (6) at the top end of the first screw (7). The first slider (8) is threaded onto the first screw (7). The support rod (10) is fixedly installed on the side wall of the first slider (8). The side wall of the support rod (10) is fixedly connected to the back wall of the top seat (4).

3. The surface cleaning and wiping mechanism for plastic products according to claim 2, characterized in that: The linear motion device includes a second groove (11), a second screw (12), a second slider (13), and a second motor (14). The bottom wall of the top seat (4) is laterally provided with the second groove (11). The second screw (12) is rotatably installed in the second groove (11). One end of the second screw (12) passes through the side wall of the second groove (11) and is installed with the second motor (14). The second slider (13) is threaded on the second screw (12). The bottom wall of the second slider (13) is fixedly connected to the top wall of the moving plate (5).

4. The surface cleaning and wiping mechanism for plastic products according to claim 3, characterized in that: The spraying device includes a storage tank (15), an infusion pipe (16), a water distribution pipe (17), a nozzle (18), and a pump body (19). The water distribution pipe (17) is installed on one side wall of the movable plate (5). Several nozzles (18) are installed on the bottom wall of the water distribution pipe (17). The storage tank (15) is fixedly installed on the back wall of the base (1). The infusion pipe (16) is installed on the top wall of the storage tank (15). The output end of the infusion pipe (16) is connected to the top wall of the water distribution pipe (17). The pump body (19) is installed on the outer wall of the infusion pipe (16).

5. The surface cleaning and wiping mechanism for plastic products according to claim 4, characterized in that: The wiping device includes a drive gear (20), a driven gear (21), a rotating shaft (22), a wiping block (23), a third motor (24), and a pressure sensor (25). The third motor (24) is installed on the top wall of the moving plate (5). The bottom output end of the third motor (24) passes through the top wall of the moving plate (5) and extends into its inner cavity where the drive gear (20) is installed. The side wall of the drive gear (20) continuously meshes with multiple sets of driven gears (21). The bottom end of each set of driven gears (21) is equipped with the rotating shaft (22). The bottom wall of the rotating shaft (22) passes through the bottom wall of the moving plate (5) where the wiping block (23) is installed. The wiping block (23) is made of microfiber cloth. A pressure sensor (25) is installed at one end of the bottom wall of the moving plate (5).

6. The surface cleaning and wiping mechanism for plastic products according to claim 5, characterized in that: The drying device includes a blower (26), a distribution pipe (27), and an air outlet (28). The blower (26) is installed on the top wall of the top seat (4). The air outlet of the blower (26) is connected to the top wall of the distribution pipe (27). The distribution pipe (27) is installed on the other end of the movable plate (5). The bottom wall of the distribution pipe (27) is provided with a plurality of air outlets (28).

7. The surface cleaning and wiping mechanism for plastic products according to claim 6, characterized in that: The clamping device includes a fixed plate (29), an electric telescopic rod (30), a clamping plate (31), and a V-groove (32). Two sets of the fixed plates (29) are symmetrically installed on the top wall of the base (1). The electric telescopic rod (30) is installed on the side wall of the two sets of fixed plates (29) that are far apart from each other. The output end of the two sets of electric telescopic rods (30) passes through the side wall of the fixed plate (29) and is installed with the clamping plate (31). The side wall of the two sets of clamping plates (31) is provided with the V-groove (32).

8. The surface cleaning and wiping mechanism for plastic products according to claim 7, characterized in that: The mobile device includes casters (33) and brake assembly (34). Casters (33) are installed at the four corners of the bottom wall of the base (1). Brake assembly (34) is provided on the casters (33) and the brake assembly (34) is adapted to the casters (33).

Images