Paper cup ultrasonic bacterium inhibiting treatment device

The ultrasonic antibacterial treatment device for paper cups, which combines a lifting device and a clamping component, solves the problem of shape changes caused by paper cups being piled up or unstablely clamped during ultrasonic treatment, and achieves stable clamping and efficient sterilization.

CN224321971UActive Publication Date: 2026-06-05JIANG SU SHAO NENG BO YING HUAN BAO KE JI YOU XIAN GONG SI

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANG SU SHAO NENG BO YING HUAN BAO KE JI YOU XIAN GONG SI
Filing Date
2025-07-04
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

During the ultrasonic antibacterial treatment of paper cups, the paper cups may change shape due to stacking or unstable clamping, which is difficult to solve effectively with existing technology.

Method used

An ultrasonic antibacterial treatment device for paper cups was designed. It adopts a combination of lifting device and clamping component. The paper cup is stably clamped by the threaded connection of the clamping component, and the reciprocating motion component enhances the flow and penetration of liquid on the surface of the paper cup, thereby enhancing the sterilization effect of cavitation.

Benefits of technology

This method achieves stable clamping of paper cups during ultrasonic treatment, preventing deformation, while also enhancing the sterilization effect and improving processing efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of paper cup ultrasonic bacteriostatic treatment device, it is related to bacteriostatic treatment device field, paper cup ultrasonic bacteriostatic treatment device includes ultrasonic cleaning machine main body, ultrasonic cleaning machine main body is equipped with lifting device, lifting device's lifting end is equipped with placing plate, central hole is opened on placing plate, two inner walls of central hole are symmetrically equipped with extension slot, driving rod is rotatably connected at central hole, a plurality of clamping pieces are installed on driving rod, clamping piece includes two outer plates and two inner plates, two inner plates are located between two outer plates, outer plate is equipped with outer clamping arc plate, inner plate is equipped with inner clamping arc plate, when driving rod rotates, two outer clamping arc plates are close to each other, two inner clamping arc plates are far from each other, the interval of inner clamping arc plate and adjacent outer clamping arc plate gradually reduces, the utility model is clamped to the mode of paper cup outer wall and inner wall simultaneously, so that paper cup is not prone to concave or expand in the process of clamping.
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Description

Technical Field

[0001] This utility model relates to the field of antibacterial treatment devices, and in particular to an ultrasonic antibacterial treatment device for paper cups. Background Technology

[0002] To ensure hygiene and safety during the production of paper cups, ultrasonic sterilization technology is often used. This technology utilizes the cavitation effect generated by high-frequency ultrasound in liquids to disrupt the cell walls of microorganisms, thereby effectively killing or inhibiting the growth of harmful microorganisms such as bacteria and mold. Compared to traditional chemical disinfection methods, ultrasonic sterilization has advantages such as no chemical residue, high processing efficiency, and environmental safety, making it particularly suitable for surface sterilization of food contact products.

[0003] When using an ultrasonic cleaner to treat paper cups for antibacterial purposes, if the paper cups are directly put into the ultrasonic cleaner, multiple paper cups may pile up and be squeezed, which will affect the shape of the paper cups. When placing the paper cups by clamping them on both sides, if the clamping force is too weak, the paper cups may not be held securely. If the clamping force is too strong, the paper cups may be deformed.

[0004] Therefore, it is necessary to provide a new ultrasonic antibacterial treatment device for paper cups to solve the above-mentioned technical problems. Utility Model Content

[0005] To solve the above-mentioned technical problems, this utility model provides an ultrasonic antibacterial treatment device for paper cups.

[0006] The ultrasonic antibacterial treatment device for paper cups provided by this utility model includes an ultrasonic cleaner body. A lifting device is installed on the ultrasonic cleaner body. A placement plate is installed on the lifting end of the lifting device. A central hole is opened on the placement plate. Extension grooves are opened on the two inner walls opposite to the central hole. A drive rod is rotatably connected to the central hole. Multiple clamping components are installed on the drive rod. The clamping components include two outer plates and two inner plates. The two inner plates are located between the two outer plates. Both the outer plates and the inner plates are threaded to the drive rod. Both ends of the outer plates and the inner plates are located in the extension grooves. An outer clamping arc plate is installed on the outer plate, and an inner clamping arc plate is installed on the inner plate. The top ends of the outer clamping arc plate and the inner clamping arc plate extend upward to the outside of the extension groove. When the drive rod rotates, the two outer clamping arc plates move closer to each other, and the two inner clamping arc plates move further apart. The distance between the inner clamping arc plate and the adjacent outer clamping arc plate gradually decreases.

[0007] Preferably, the lifting device includes a top plate, a support plate, a threaded rod, and two upright plates. The two upright plates are respectively fixed at the top ends of the ultrasonic cleaner body. The support plate is installed between the two upright plates. The threaded rod is rotatably connected to the support plate and threadedly connected to the top plate. Insert plates are fixed at both ends of the top plate. Both insert plates movably pass through the support plate, and one end of each insert plate is fixed to the placement plate.

[0008] Preferably, one end of the support plate is rotatably connected to the upright plate, and the other end of the support plate is fixed with a rotating rod, which is rotatably connected to another upright plate, and the end of the rotating rod is connected to a rotating device installed on the upright plate.

[0009] Preferably, the rotating device includes a pad, a reciprocating motion assembly, a gear, and a rack. The pad is fixed on the vertical plate, the reciprocating motion assembly is mounted on the pad, the reciprocating motion assembly has a reciprocating motion end, the rack is fixedly connected to the reciprocating motion end, and the gear is fixedly sleeved on the rotating rod, with the gear meshing with the rack.

[0010] Preferably, the reciprocating motion assembly includes a drive component, a pressing frame, and two guide frames. Both guide frames are fixed on a pad, the drive component is mounted on the pad, and the two ends of the pressing frame are slidably disposed inside the two guide frames. The pressing frame is fixedly connected to the rack.

[0011] Preferably, the driving component includes a motor, a turntable, and an extrusion rod. The motor is fixed on a pad, and the output end of the motor is fixedly connected to the center of the turntable. The extrusion rod is fixed near the edge of the top of the turntable, and one end of the extrusion rod is movably inserted into the inside of the extrusion frame.

[0012] Compared with related technologies, the ultrasonic antibacterial treatment device for paper cups provided by this utility model has the following beneficial effects:

[0013] Place the paper cups upside down on the placement board, with the two inner clamping arc plates located inside the paper cups and the two outer clamping arc plates located on either side of the paper cups. After placing multiple paper cups in sequence, rotate the drive rod. The drive rod causes the two inner clamping arc plates on the inside of the paper cups to move away from each other and towards the inner wall of the paper cups. The drive rod also causes the two outer clamping arc plates on the outside of the paper cups to move closer to each other and towards the outer wall of the paper cups. When the outer clamping arc plates contact the outer wall of the paper cups, the inner clamping arc plates contact the inner wall of the paper cups. By clamping both the outer and inner walls of the paper cups simultaneously, the paper cups are less likely to bulge inward or outward during the clamping process.

[0014] During the ultrasonic treatment, the motor can be started, which drives the turntable to rotate, thereby causing the extrusion rod to rotate inside the extrusion frame. The drive rod drives the extrusion frame to make reciprocating linear motion along the two guide frames. The guide frames drive the rack to move, and the rack drives the gear to make reciprocating arc swing. The swing can promote the flow and penetration of liquid on the surface of the paper cup, and enhance the cavitation effect to kill bacteria in the gaps between paper fibers. Attached Figure Description

[0015] Figure 1 A schematic diagram of the ultrasonic antibacterial treatment device for paper cups provided by this utility model;

[0016] Figure 2 for Figure 1 The diagram shows the structure of the placement plate and multiple clamping components.

[0017] Figure 3 for Figure 2 A schematic diagram of the bottom of the structure shown;

[0018] Figure 4 for Figure 2 The diagram shows the structure of the drive rod and multiple clamping components.

[0019] Figure 5 for Figure 1 A partial structural diagram of the structure shown.

[0020] Labels in the diagram: 1. Main body of the ultrasonic cleaner; 2. Placement plate; 3. Center hole; 4. Extension groove; 5. Drive rod; 6. Outer plate; 7. Inner plate; 8. Outer clamping arc plate; 9. Inner clamping arc plate; 10. Top plate; 11. Support plate; 12. Threaded rod; 13. Vertical plate; 14. Pad plate; 15. Gear; 16. Rack; 17. Extrusion frame; 18. Guide frame; 19. Motor; 20. Turntable; 21. Extrusion rod; 22. Water passage hole; 23. Rotating rod. Detailed Implementation

[0021] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0022] Please refer to the following: Figures 1-5 ,in, Figure 1 A schematic diagram of the ultrasonic antibacterial treatment device for paper cups provided by this utility model; Figure 2 for Figure 1 The diagram shows the structure of the placement plate and multiple clamping components. Figure 3 for Figure 2 A schematic diagram of the bottom of the structure shown; Figure 4 for Figure 2 The diagram shows the structure of the drive rod and multiple clamping components. Figure 5 for Figure 1A partial structural diagram of the structure shown.

[0023] In the specific implementation process, such as Figures 1-5 As shown, the ultrasonic cleaner includes a main body 1, model KQ5200E. A lifting device is installed on the main body 1, and a placement plate 2 is installed on the lifting end of the lifting device. A central hole 3 is formed on the placement plate 2, and extension grooves 4 are formed on the two inner walls opposite to the central hole 3. To increase water flow, water holes 22 can extend downwards from the bottom of the extension grooves 4. A drive rod 5 is rotatably connected to the central hole 3, and multiple clamping components are installed on the drive rod 5. The clamping components include two outer plates 6 and two inner plates 7, with the two inner plates 7 located between the two outer plates 6. Both ends of the outer plate 6 and the inner plate 7 are threaded to the drive rod 5. The outer plate 6 and the inner plate 7 are both located within the extension groove 4. An outer clamping arc plate 8 is installed on the outer plate 6, and an inner clamping arc plate 9 is installed on the inner plate 7. The tops of both the outer and inner clamping arc plates 8 and 9 extend upwards to the outside of the extension groove 4. When the drive rod 5 rotates, the two outer clamping arc plates 8 move closer to each other, while the two inner clamping arc plates 9 move further apart. The distance between the inner clamping arc plate 9 and the adjacent outer clamping arc plate 8 gradually decreases. The drive rod 5 has multiple sections of threads with opposite directions. Specifically, the threads on the two outer clamping arc plates 8 are in opposite directions, as are the threads on the two inner clamping arc plates 9. The threads of the inner clamping arc plates 9 and 8 are opposite in direction. This can be understood as the drive mechanism having segments of left, right, left, and right threads. Each clamping element is located on a segment of the left, right, left, and right threads on the drive rod 5. Therefore, when the drive rod 5 rotates, the two outer clamping arc plates 8 move closer together, while the two inner clamping arc plates 9 move further apart. The distance between the inner clamping arc plates 9 and the adjacent outer clamping arc plates 8 gradually decreases. In use, the paper cup is placed upside down on the placement plate 2, so that the two inner clamping arc plates 9 are located inside the paper cup, and the two outer clamping arc plates 8 are located on either side of the paper cup. Multiple... After the paper cups are placed in sequence, the drive rod 5 is rotated. The drive rod 5 causes the two inner clamping arc plates 9 on the inner side of the paper cup to move away from each other and towards the inner wall of the paper cup. The drive rod 5 causes the two outer clamping slide plates on the outer side of the paper cup to move closer to each other and towards the outer wall of the paper cup. When the outer clamping arc plate 8 contacts the outer wall of the paper cup, the inner clamping arc plate 9 contacts the inner wall of the paper cup. By clamping the outer and inner walls of the paper cup at the same time, the paper cup is less likely to be concave or convex during the clamping process. In order to better protect the paper cup, rubber pads can be fixedly installed on the outer clamping arc plate 8 and the inner clamping arc plate 9 to increase friction and prevent damage to the paper cup.

[0024] The lifting device includes a top plate 10, a support plate 11, a threaded rod 12, and two upright plates 13. The two upright plates 13 are fixed at the top ends of the main body 1 of the ultrasonic cleaner, respectively. The support plate 11 is installed between the two upright plates 13. The threaded rod 12 is rotatably connected to the support plate 11 and threadedly connected to the top plate 10. Both ends of the top plate 10 are fixed with insert plates. Both insert plates movably pass through the support plate 11. One end of both insert plates is fixed to the placement plate 2. After the paper cups are clamped onto the placement plate 2, the threaded rod 12 is rotated, causing the threaded rod 12 to drive the top plate 10 to move downward, thereby causing the placement plate 2 to immerse multiple paper cups in the cleaning liquid.

[0025] One end of the support plate 11 is rotatably connected to the upright plate 13, and the other end of the support plate 11 is fixed with a rotating rod 23. The rotating rod 23 is rotatably connected to another upright plate 13, and the end of the rotating rod 23 is connected to a rotating device installed on the upright plate 13. The rotating device includes a pad 14, a reciprocating motion assembly, a gear 15, and a rack 16. The pad 14 is fixed on the upright plate 13, and the reciprocating motion assembly is installed on the pad 14. The reciprocating motion assembly is provided with a reciprocating motion end, and the rack 16 is fixedly connected to the reciprocating motion end. The gear 15 is fixedly sleeved on the rotating rod 23, and the gear 15 meshes with the rack 16. The reciprocating motion assembly includes a driving component, a pressing frame 17, and two guide frames 18. Both guide frames 18 are fixed on the pad 14, and the driving component is installed on the pad 14. The two ends of the pressing frame 17 are slidably disposed inside the two guide frames 18, respectively. The rack 16 is fixedly connected, and the driving components include a motor 19, a turntable 20, and a pressing rod 21. The motor 19 is fixed on the pad 14, and the output end of the motor 19 is fixedly connected to the center of the turntable 20. The pressing rod 21 is fixed near the edge of the top of the turntable 20. One end of the pressing rod 21 is movably inserted into the inside of the pressing frame 17. During the ultrasonic treatment, the motor 19 can be started, and the motor 19 drives the turntable 20 to rotate, thereby causing the pressing rod 21 to rotate inside the pressing frame 17. The driving rod 5 drives the pressing frame 17 to make reciprocating linear motion along the two guide frames 18. The guide frames 18 drive the rack 16 to move, and the rack 16 drives the gear 15 to make reciprocating arc motion. The maximum angle of the arc motion can be 30 degrees. The rotation can promote the flow and penetration of liquid on the surface of the paper cup and enhance the cavitation effect to kill bacteria in the gaps between paper fibers.

[0026] It should be noted that the motor 19 can rotate at a low speed to prevent the paper cup from falling off in the cleaning solution.

[0027] The circuits and controls involved in this utility model are all existing technologies, and will not be described in detail here.

[0028] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the content of this utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.

Claims

1. A paper cup ultrasonic antibacterial treatment device, characterized in that, The ultrasonic cleaner includes a main body (1), on which a lifting device is installed. A placement plate (2) is installed on the lifting end of the lifting device. A central hole (3) is opened on the placement plate (2). An extension groove (4) is opened on each of the two inner walls opposite to the central hole (3). A drive rod (5) is rotatably connected to the central hole (3). Multiple clamping components are installed on the drive rod (5). The clamping components include two outer plates (6) and two inner plates (7). The two inner plates (7) are located between the two outer plates (6). Both the outer plate (6) and the inner plate (7) are threaded to the drive rod (5). Both ends of the outer plate (6) and the inner plate (7) are located in the extension groove (4). An outer clamping arc plate (8) is installed on the outer plate (6), and an inner clamping arc plate (9) is installed on the inner plate (7). The tops of the outer clamping arc plate (8) and the inner clamping arc plate (9) extend upward to the outside of the extension groove (4). When the drive rod (5) rotates, the two outer clamping arc plates (8) move closer to each other, and the two inner clamping arc plates (9) move further away from each other. The distance between the inner clamping arc plate (9) and the adjacent outer clamping arc plate (8) gradually decreases.

2. The ultrasonic antibacterial treatment device for paper cups according to claim 1, characterized in that, The lifting device includes a top plate (10), a support plate (11), a threaded rod (12), and two upright plates (13). The two upright plates (13) are respectively fixed at the top ends of the ultrasonic cleaner body (1). The support plate (11) is installed between the two upright plates (13). The threaded rod (12) is rotatably connected to the support plate (11). The threaded rod (12) is threadedly connected to the top plate (10). Both ends of the top plate (10) are fixed with insert plates. Both insert plates movably pass through the support plate (11). One end of both insert plates is fixed on the placement plate (2).

3. The ultrasonic antibacterial treatment device for paper cups according to claim 2, characterized in that, One end of the support plate (11) is rotatably connected to the upright plate (13), and the other end of the support plate (11) is fixed with a rotating rod (23). The rotating rod (23) is rotatably connected to another upright plate (13), and the end of the rotating rod (23) is connected to a rotating device installed on the upright plate (13).

4. The ultrasonic antibacterial treatment device for paper cups according to claim 3, characterized in that, The rotating device includes a pad (14), a reciprocating motion assembly, a gear (15), and a rack (16). The pad (14) is fixed on the upright plate (13). The reciprocating motion assembly is installed on the pad (14). The reciprocating motion assembly is provided with a reciprocating motion end. The rack (16) is fixedly connected to the reciprocating motion end. The gear (15) is fixedly sleeved on the rotating rod (23). The gear (15) meshes with the rack (16).

5. The ultrasonic antibacterial treatment device for paper cups according to claim 4, characterized in that, The reciprocating motion assembly includes a drive component, a pressing frame (17), and two guide frames (18). The two guide frames (18) are fixed on the pad (14). The drive component is installed on the pad (14). The two ends of the pressing frame (17) are slidably disposed inside the two guide frames (18). The pressing frame (17) is fixedly connected to the rack (16).

6. The ultrasonic antibacterial treatment device for paper cups according to claim 5, characterized in that, The driving component includes a motor (19), a turntable (20), and an extrusion rod (21). The motor (19) is fixed on the pad (14). The output end of the motor (19) is fixedly connected to the center of the turntable (20). The extrusion rod (21) is fixed at the top edge of the turntable (20). One end of the extrusion rod (21) is movably inserted into the inside of the extrusion frame (17).