Filling and sealing device for membrane oxidation bactericide production

By introducing a sponge ring cleaning component into the membrane oxidation bactericide filling device, and using the color change of alkaline reagent to indicate sealing problems, the corrosive damage caused by residual bactericide at the bottle opening is solved, and automated sealing detection and adjustment are achieved.

CN224428132UActive Publication Date: 2026-06-30CHANGZHOU SANMING JINGHUI ENVIRONMENTAL PROTECTION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHANGZHOU SANMING JINGHUI ENVIRONMENTAL PROTECTION TECH CO LTD
Filing Date
2025-04-22
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

During the filling process of membrane oxidation bactericide, bactericide residue may remain at the bottle opening, causing corrosive substances to damage the bottle body, and existing technologies have not been able to effectively solve this problem.

Method used

A cleaning assembly comprising a belt conveyor, a housing, and a sponge ring is designed. The sponge ring adsorbs an alkaline reaction reagent. By rotating and wiping the bottle mouth, the color change of the alkaline reagent indicates a sealing problem, thus achieving automated cleaning.

Benefits of technology

It effectively removes residual disinfectant from the bottle opening, ensuring airtightness, preventing bottle corrosion, and enabling automated airtightness detection and adjustment.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to a filling and sealing device for the production of membrane oxidation bactericides, including a workbench and a cleaning assembly mounted on the workbench. The cleaning assembly includes a belt conveyor, a housing, and a sponge ring. The belt conveyor is mounted on the workbench surface, and the sponge ring is fitted onto the inner wall of the housing. The housing is movably mounted above the belt conveyor. The belt conveyor includes a belt and two side plates. The belt is mounted between the two side plates, and the side plates are fixedly mounted on the workbench surface. Two sets of levers are movably mounted on the workbench surface, and the two sets of levers are movably mounted on both sides of the belt conveyor. The sponge ring wipes each bottle opening. The membrane oxidation bactericide is alkaline, and the alkaline reagent adsorbed inside the sponge ring will change color upon contact with the bactericide. If the sponge ring shows extensive discoloration, it indicates a sealing problem when the filling machine seals the bottle opening.
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Description

Technical Field

[0001] This utility model relates to the field of bactericide technology, and in particular to a filling and sealing device for the production of membrane oxidation bactericide. Background Technology

[0002] The membrane oxidation bactericide is an alkaline bactericide. After production, it needs to be filled and sealed on the filling and sealing production line. Then, the entire packaging bottle needs to be coated with a film to reduce volatilization and improve sealing.

[0003] During the filling process, some disinfectant may drip from the injection tube onto the bottle opening. During the subsequent sealing process, untreated disinfectant may remain on the outer wall of the bottle opening. Since disinfectant is corrosive, it may damage the bottle if not treated in time. Utility Model Content

[0004] The purpose of this application is to provide a filling and sealing device for the production of membrane oxidation bactericides, so as to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this application provides the following technical solution:

[0006] A filling and sealing device for producing a membrane oxidation bactericide includes a workbench and a cleaning assembly mounted on the workbench. The cleaning assembly includes a belt conveyor, a housing, and a sponge ring. The belt conveyor is mounted on the workbench surface, and the sponge ring is fitted against the inner wall of the housing. The housing is movably mounted above the belt conveyor. The belt conveyor includes a belt and two side plates. The belt is mounted between the two side plates, and the side plates are fixedly mounted on the workbench surface. Two sets of levers are movably mounted on the workbench surface, and the two sets of levers are movably mounted on both sides of the belt conveyor. The sponge ring is made of high-density sponge, and a certain amount of alkaline reaction reagent is adsorbed inside the sponge ring.

[0007] Preferably, two motors are fixedly mounted on the workbench, symmetrically mounted on both sides of the belt conveyor. A mounting ring is fixedly mounted on the output end of each motor, and multiple levers are fixedly mounted on the outer wall of the mounting ring in a circular array. Two cylinders are fixedly mounted on the workbench, both mounted on the side of the workbench away from the belt conveyor. Connecting rods are fixedly mounted on the output ends of the two cylinders. A second motor is fixedly mounted between the two connecting rods, directly above the end of the belt conveyor, with its output end facing the belt conveyor.

[0008] The beneficial effects of this utility model are: by setting up a cleaning component, the sponge ring will wipe each bottle mouth. The membrane oxidation bactericide is alkaline. The alkaline reagent adsorbed inside the sponge ring will change color when it comes into contact with the bactericide. If the sponge ring changes color over a large area, it means that there is a sealing problem when the filling machine seals the bottle mouth. The operators need to make adjustments and maintenance to the filling production line. Attached Figure Description

[0009] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0010] Figure 2 In this utility model Figure 1 A magnified schematic diagram of the structure of region A;

[0011] Figure 3 This is a schematic diagram showing the working state of the cleaning component in this utility model.

[0012] In the diagram: 1. Workbench; 2. Belt conveyor; 3. Motor 1; 4. Lever; 5. Cylinder; 6. Connecting rod; 7. Motor 2; 8. Housing; 9. Sponge ring. Detailed Implementation

[0013] The preferred embodiments of this utility model will now be described in detail with reference to the accompanying drawings, so that the advantages and features of this utility model can be more easily understood by those skilled in the art, thereby providing a clearer and more definite definition of the scope of protection of this utility model. The directional terms mentioned in this utility model, such as "up," "down," "front," "back," "left," "right," "top," and "bottom," are only for reference to the accompanying drawings. Therefore, the directional terms used are for the purpose of explaining and understanding this utility model, and not for limiting this utility model.

[0014] like Figure 1-3 The illustrated filling and sealing device for producing a membrane oxidation bactericide includes a workbench 1 and a cleaning assembly mounted on the workbench 1. The cleaning assembly includes a belt conveyor 2, a housing 8, and a sponge ring 9. The belt conveyor 2 is mounted on the surface of the workbench 1. The sponge ring 9 is fitted onto the inner wall of the housing 8. The housing 8 is movably mounted above the belt conveyor 2. The belt conveyor 2 includes a belt and two side plates. The belt is mounted between the two side plates, which are fixedly mounted on the surface of the workbench 1. Two sets of levers 4 are movably mounted on the workbench 1, and are movably mounted on both sides of the belt conveyor 2. The sponge ring 9 is made of high-density sponge, and a certain amount of alkaline reaction reagent is adsorbed inside the sponge ring 9.

[0015] Two motors 3 are fixedly mounted on the workbench 1, symmetrically positioned on either side of the belt conveyor 2. A mounting ring is fixedly mounted on the output end of each motor 3, and multiple levers 4 are fixedly mounted on the outer wall of the mounting ring in a circular array. Two cylinders 5 are fixedly mounted on the workbench 1, both on the side of the workbench 1 furthest from the belt conveyor 2. Connecting rods 6 are fixedly mounted on the output ends of both cylinders 5. A second motor 7 is fixedly mounted between the two connecting rods 6, directly above the end of the belt conveyor 2, with its output end facing the belt conveyor 2.

[0016] Example: Multiple filled disinfectant bottles are transported on a belt conveyor 2 on workbench 1. When they reach the position of lever 4, motor 3 starts rotating, driving multiple levers 4 to rotate. When the top of the disinfectant bottle is below the housing 8, motor 3 stops rotating, lever 4 stops the bottle, and cylinder 5 drives connecting rod 6, which in turn lowers housing 8. The shape of housing 8 aligns with the top of the bottle, causing the sponge ring 9 to fit against the outer wall of the bottle opening. Then, motor 7 drives housing 8 to rotate one revolution. After rotation, cylinder 5 raises housing 8 back to its original position, motor 3 starts rotating again, and lever 4 moves the bottle to the next station. This process repeats, with the sponge ring 9 wiping each bottle opening. Since the membrane oxidation disinfectant is alkaline, the alkaline reagent adsorbed inside the sponge ring 9 will change color upon contact with the disinfectant. If a large area of ​​the sponge ring 9 changes color, it indicates a sealing problem during bottle sealing, requiring adjustments and repairs by the operators on the filling production line.

[0017] It should be noted that the parts not covered in this utility model are the same as or can be implemented using existing technology; the various drives in this utility model can be implemented by corresponding power structures such as cylinders, oil cylinders, electric cylinders, and motors in conjunction with connecting rods, guide rods, etc., and are not limited to the structures described in the specification and the drawings.

[0018] The embodiments described above are merely examples of several implementations of this utility model, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these modifications and improvements all fall within the protection scope of this utility model.

Claims

1. A filling and sealing device for the production of membrane oxidation bactericide, comprising a workbench (1) and a cleaning assembly mounted on the workbench (1), characterized in that: The cleaning assembly includes a belt conveyor (2), a housing (8), and a sponge ring (9). The belt conveyor (2) is installed on the table surface of the workbench (1). The sponge ring (9) is fitted onto the inner wall of the housing (8). The housing (8) is movably installed above the belt conveyor (2). The belt conveyor (2) includes a belt and two side plates. The belt is installed between the two side plates. The side plates are fixedly installed on the table surface of the workbench (1). Two sets of levers (4) are movably installed on the table surface of the workbench (1). The two sets of levers (4) are movably installed on both sides of the belt conveyor (2).

2. The filling and sealing device for producing membrane oxidation bactericide according to claim 1, characterized in that: Two motors (3) are fixedly installed on the table surface of the workbench (1). The two motors (3) are symmetrically installed on both sides of the belt conveyor (2). An installation ring is fixedly installed on the output end of the motor (3). Multiple levers (4) are fixedly installed on the outer wall of the installation ring. The multiple levers (4) are distributed in a ring array on the outer wall of the installation ring.

3. The filling and sealing device for producing membrane oxidation bactericide according to claim 2, characterized in that: Two cylinders (5) are fixedly installed on the table surface of the workbench (1). Both cylinders (5) are installed on the side of the motor (3) away from the belt conveyor (2). Connecting rods (6) are fixedly installed at the output ends of the two cylinders (5).

4. The filling and sealing device for producing membrane oxidation bactericide according to claim 3, characterized in that: A second motor (7) is fixedly installed between the two connecting rods (6). The second motor (7) is installed directly above the end of the belt conveyor (2), and the output end of the second motor (7) faces the belt conveyor (2).

5. The filling and sealing device for producing membrane oxidation bactericide according to claim 1, characterized in that: The sponge ring (9) is made of high-density sponge, and a certain amount of alkaline reaction reagent is adsorbed inside the sponge ring (9).