A high-purity aluminum anti-pollution packaging auxiliary device

By introducing a traction module and a shielding film structure into the high-purity aluminum packaging device, the problem of foreign matter contamination during the multi-layer packaging process of high-purity aluminum is solved, achieving efficient anti-contamination and convenient operation.

CN224491737UActive Publication Date: 2026-07-14NANTONG TADE ELECTRONICS MATERIAL TECH

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANTONG TADE ELECTRONICS MATERIAL TECH
Filing Date
2025-09-03
Publication Date
2026-07-14

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Abstract

The utility model relates to a kind of high-purity aluminium pollution-preventing packaging auxiliary device, the auxiliary device is installed between high-purity aluminium multilayer conveying structure, and high-purity aluminium multilayer conveying structure includes conveying frame and the conveying roller of being set on conveying frame;Including traction module, shielding film, support hoop module and plug-in module;In the utility model, traction module is used for traction the shielding film along the extension direction of conveying frame to move shielding by being set on the upper surface of the both sides of conveying frame, the structure can effectively prevent the problem that sundry falls and pollutes high-purity aluminium on multilayer high-purity aluminium conveying frame, and the structure can control mobile opening and closing, can understand internal conveying condition at any time;This arc hoop is installed in traction frame and moving frame using plug-in mode, when replacing shielding film subsequently, only need to unload plug-in module and can be quickly replaced;It is convenient and fast to operate;The device greatly guarantees the pollution-preventing effect of multilayer conveying frame conveying high-purity aluminium to be packaged.
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Description

Technical Field

[0001] This utility model relates to the field of high-purity aluminum processing technology, and in particular to an auxiliary device for anti-pollution packaging of high-purity aluminum. Background Technology

[0002] For multi-layer high-purity aluminum ingot packaging conveyor lines, high-purity aluminum is generally supported and conveyed using conveyor rollers. During the multi-layer packaging and conveying of high-purity aluminum, contaminants such as debris and impurities from the upper layer can easily fall onto the lower packaging conveyor line, which can easily lead to contamination of the high-purity aluminum during the conveying and packaging process. Therefore, in order to address this issue, it is necessary to design an auxiliary structure that can prevent high-purity aluminum from being contaminated by debris falling from the upper layer during the conveying and packaging process. Utility Model Content

[0003] The technical problem to be solved by this utility model is to provide an auxiliary device for anti-pollution packaging of high-purity aluminum, which can solve the problem that high-purity aluminum to be packaged in general multi-layer conveying is easily contaminated by falling objects from the upper layer during the conveying process.

[0004] To solve the above-mentioned technical problems, the technical solution of this utility model is as follows: a high-purity aluminum anti-pollution packaging auxiliary device, which is installed between high-purity aluminum multi-layer conveying structures, and the high-purity aluminum multi-layer conveying structure includes a conveying frame and conveying rollers arranged on the conveying frame; its innovation lies in: including a traction module, a shielding film, a support hoop module and a plug-in module;

[0005] The traction module has a pair and is installed on the upper surfaces on both sides of the conveyor frame in the direction of extension; the traction module includes a traction guide rail, a traction frame, a traction motor, and guide support rollers; the traction guide rail has a pair and is arranged parallel to each other on the upper surface of the conveyor frame edge; the traction guide rail has an I-shaped structure; the traction frame has a U-shaped structure and is inverted on the upper surface of the traction guide rail; one side of the traction frame has a connection hole for the output end of the traction motor to pass through, and the traction motor is installed on the side of the traction frame; the guide support roller has a pair and is respectively arranged on the inner sidewalls on both sides of the traction frame, and one of the guide support rollers is connected to the output end of the traction motor, and the guide support roller rests on the upper surface of the upper flange of the traction guide rail;

[0006] The support hoop module comprises several units, each including an arc-shaped hoop and a movable frame. The movable frame is fastened to the traction guide rail, and its inner wall is provided with clamping guide wheels that vertically clamp the upper flange of the traction guide rail. The arc-shaped hoop spans the conveyor frame and is connected to the movable frame and the traction frame via a plug-in module. A pair of movable frames located at one end of the conveyor frame in the support hoop module are fixed to the traction guide rail. The arc-shaped hoop located at the other end of the conveyor frame in the support hoop module is connected to the traction frame.

[0007] The shielding film covers the arc-shaped hoop of the support hoop module. The support hoop module is moved along the extension direction of the traction guide rail by the traction motor, so as to shield and open the entire conveyor frame with the shielding film.

[0008] Furthermore, the plug-in module includes a C-shaped buckle, a pin head, a limiting pin, and a hinge shaft; the C-shaped buckle is installed on the outer wall of the moving frame and the outer wall of the traction frame; the pin head is installed at the bottom end of the arc-shaped hoop, and the arc-shaped hoop is embedded in the C-shaped buckle through the pin head; a cavity for accommodating the limiting pin is provided near the bottom end of the pin head, and a hinge hole is horizontally provided on the pin head located at the cavity position, and the hinge shaft is disposed in the hinge hole, and the hinge shaft... One end extends from the pin head into the cavity that accommodates the limiting pin; the limiting pin is disposed in the cavity on the pin head and connected to the hinge shaft, rotating with the hinge shaft; the center of gravity of the limiting pin is located obliquely above the hinge shaft and biased towards the outside of the C-shaped buckle; the end of the limiting pin is rotated out of the cavity by its own weight and supported on the lower surface of the C-shaped buckle, and the bottom end of the limiting pin is pressed against the side wall of the cavity for limiting when the top end of the limiting pin rotates out of the cavity.

[0009] Furthermore, the inner wall of the traction frame is also provided with limiting rollers; the limiting rollers include longitudinal limiting rollers and lateral limiting rollers; the longitudinal limiting rollers are installed on the inner sidewalls of both sides of the traction frame, and the longitudinal limiting rollers are located on the lower surface of the upper flange of the traction guide rail; the lateral limiting rollers are installed on the inner sidewalls of both sides of the traction frame, and the outer contours of the lateral limiting rollers are located on both sides of the middle plate of the traction guide rail and are in close contact with the middle plate.

[0010] The advantages of this utility model are:

[0011] 1) In this utility model, traction modules are set on the upper surfaces of both sides of the conveyor frame to pull the entire shielding film along the extension direction of the conveyor frame to move and shield. This structure can effectively prevent debris from falling from the multi-layer high-purity aluminum conveyor frame and contaminating the high-purity aluminum. On the other hand, the structure can control the opening and closing of the movement, and can monitor the internal conveying status at any time. In addition, the arc-shaped hoop is installed on the traction frame and the moving frame by plugging it in. When replacing the shielding film, it can be quickly replaced by simply removing the plugging module. The operation is convenient and quick. This device greatly ensures the anti-contamination effect of the multi-layer conveyor frame conveying the high-purity aluminum to be packaged. Attached Figure Description

[0012] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.

[0013] Figure 1 This is a schematic diagram of the structure of an auxiliary tooling for high-purity aluminum anti-pollution packaging according to the present invention.

[0014] Figure 2 This is a partially enlarged view of the structure of an auxiliary tooling for high-purity aluminum anti-pollution packaging according to this utility model. Detailed Implementation

[0015] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations.

[0016] Therefore, the following detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without inventive effort are within the scope of protection of the present invention.

[0017] like Figures 1 to 2 The diagram shows an auxiliary device for anti-pollution packaging of high-purity aluminum. The auxiliary device is installed between high-purity aluminum multi-layer conveying structures, and the high-purity aluminum multi-layer conveying structures include a conveying frame and conveying rollers arranged on the conveying frame; it includes a traction module 1, a shielding film 2, a support hoop module 3, and a plug-in module 4.

[0018] The traction module 1 has a pair and is installed on the upper surfaces of both sides of the conveyor frame in the direction of extension; the traction module 1 includes a traction guide rail 11, a traction frame 12, a traction motor 13 and guide support rollers 14; the traction guide rail 11 has a pair and is arranged parallel to each other on the upper surface of the conveyor frame edge; the traction guide rail 11 has an I-shaped structure; the traction frame 12 has a U-shaped structure and is upside down on the upper surface of the traction guide rail 11; one side of the traction frame 12 has a connection hole for accommodating the output end of the traction motor 13, and the traction motor 13 is installed on the side of the traction frame 12; the guide support rollers 14 have a pair and are respectively arranged on the inner sidewalls of both sides of the traction frame 12, and one of the guide support rollers 14 is connected to the output end of the traction motor 13, and the guide support roller 14 rests on the upper surface of the upper flange of the traction guide rail 11.

[0019] The support hoop module 3 has several components, including an arc-shaped hoop 31 and a movable frame 32. The movable frame 32 is fastened to the traction guide rail 11, and the inner wall of the movable frame 32 is provided with clamping guide wheels that clamp the upper flange of the traction guide rail 11 in the vertical direction. The arc-shaped hoop 31 spans the conveyor frame and is connected to the movable frame 32 and the traction frame 12 through the plug-in module 4. A pair of movable frames located at the end of the conveyor frame in the support hoop module 3 are fixed to the traction guide rail 11. The arc-shaped hoop located at the other end of the conveyor frame in the support hoop module 3 is connected to the traction frame 12.

[0020] The shielding film 2 covers the arc-shaped hoop of the support hoop module 3. The support hoop module 3 is driven by the traction motor 13 to move along the extension direction of the traction guide rail 11, so as to shield and open the entire conveyor frame by the shielding film 2.

[0021] The plug-in module 4 includes a C-shaped buckle 41, a pin head 42, a limiting pin 43, and a hinge shaft 44. The C-shaped buckle 41 is installed on the outer wall of the movable frame 32 and the outer wall of the traction frame 12. The pin head 42 is installed at the bottom end of the arc-shaped hoop 31, and the arc-shaped hoop 31 is embedded in the C-shaped buckle 41 through the pin head 42. A cavity for accommodating the limiting pin 43 is provided near the bottom end of the pin head 42, and a hinge hole is horizontally provided on the pin head 42 located at the cavity position. The hinge shaft 44 is disposed in the hinge hole, and one side of the hinge shaft 44... The pin head 42 extends out to the cavity that accommodates the limiting pin piece 43; the limiting pin piece 43 is disposed in the cavity on the pin head 42 and connected to the hinge shaft 44 and rotates with the hinge shaft 44; the center of gravity of the limiting pin piece 43 is located obliquely above the hinge shaft 44 and biased towards the outside of the C-shaped buckle 41; by its own weight, the end of the limiting pin piece 43 is rotated out of the cavity and supported on the lower surface of the C-shaped buckle 41, and the bottom end of the limiting pin piece 43 presses against the side wall of the cavity for limiting when the top end of the limiting pin piece 43 rotates out of the cavity.

[0022] The inner wall of the traction frame 12 is also provided with limiting rollers; the limiting rollers include longitudinal limiting rollers 15 and lateral limiting rollers 16; the longitudinal limiting rollers 15 are installed on the inner sidewalls on both sides of the traction frame 12, and the longitudinal limiting rollers 15 are located on the lower surface of the upper flange of the traction guide rail 11; the lateral limiting rollers 16 are installed on the inner sidewalls on both sides of the traction frame 12, and the outer contour of the lateral limiting rollers 16 is located on both sides of the middle plate of the traction guide rail 11 and is in close contact with the middle plate.

[0023] The working principle of this invention is as follows: A traction module is installed on the upper surface of both sides of the conveyor frame to pull the entire shielding film along the extension direction of the conveyor frame. This structure effectively prevents debris from falling onto the multi-layer high-purity aluminum conveyor frame and contaminating the high-purity aluminum. Furthermore, the structure allows for control of the opening and closing of the movement, enabling real-time monitoring of the internal conveying process. In addition, the arc-shaped clamp is installed on the traction frame and the moving frame via a plug-in connection. When replacing the shielding film, simply remove the plug-in module for quick replacement; operation is convenient and fast. This device greatly ensures the anti-contamination effect of the multi-layer conveyor frame conveying the high-purity aluminum to be packaged.

[0024] Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of this utility model as claimed.

Claims

1. A high-purity aluminum anti-contamination packaging auxiliary device, wherein the auxiliary device is installed between high-purity aluminum multi-layer conveying structures, and the high-purity aluminum multi-layer conveying structure includes a conveying frame and conveying rollers disposed on the conveying frame; characterized in that: Includes traction module, shielding membrane, support hoop module and plug-in module; The traction module has a pair and is installed on the upper surfaces on both sides of the conveyor frame in the direction of extension; the traction module includes a traction guide rail, a traction frame, a traction motor, and guide support rollers; the traction guide rail has a pair and is arranged parallel to each other on the upper surface of the conveyor frame edge; the traction guide rail has an I-shaped structure; the traction frame has a U-shaped structure and is inverted on the upper surface of the traction guide rail; one side of the traction frame has a connection hole for the output end of the traction motor to pass through, and the traction motor is installed on the side of the traction frame; the guide support roller has a pair and is respectively arranged on the inner sidewalls on both sides of the traction frame, and one of the guide support rollers is connected to the output end of the traction motor, and the guide support roller rests on the upper surface of the upper flange of the traction guide rail; The support hoop module comprises several units, each including an arc-shaped hoop and a movable frame. The movable frame is fastened to the traction guide rail, and its inner wall is provided with clamping guide wheels that vertically clamp the upper flange of the traction guide rail. The arc-shaped hoop spans the conveyor frame and is connected to the movable frame and the traction frame via a plug-in module. A pair of movable frames located at one end of the conveyor frame in the support hoop module are fixed to the traction guide rail. The arc-shaped hoop located at the other end of the conveyor frame in the support hoop module is connected to the traction frame. The shielding film covers the arc-shaped hoop of the support hoop module. The support hoop module is moved along the extension direction of the traction guide rail by the traction motor, so as to shield and open the entire conveyor frame with the shielding film.

2. The high-purity aluminum anti-pollution packaging auxiliary device according to claim 1, characterized in that: The plug-in module includes a C-shaped buckle, a pin head, a limiting pin, and a hinge shaft. The C-shaped buckle is installed on the outer wall of the moving frame and the outer wall of the traction frame. The pin head is installed at the bottom end of the arc-shaped hoop, and the arc-shaped hoop is embedded in the C-shaped buckle through the pin head. A cavity for accommodating the limiting pin is provided near the bottom end of the pin head, and a hinge hole is horizontally provided on the pin head at the location of the cavity. The hinge shaft is located in the hinge hole, and one end of the hinge shaft extends out of the pin head into the cavity for accommodating the limiting pin. The limiting pin is located in the cavity on the pin head and is connected to the hinge shaft, rotating with the hinge shaft. The center of gravity of the limiting pin is located diagonally above the hinge shaft and biased towards the outside of the C-shaped buckle. The limiting pin rotates out of the cavity by its own weight and is supported on the lower surface of the C-shaped buckle. The bottom end of the limiting pin presses against the side wall of the cavity for limiting when the top end of the limiting pin rotates out of the cavity.

3. The high-purity aluminum anti-pollution packaging auxiliary device according to claim 1, characterized in that: The inner wall of the traction frame is also provided with limiting rollers; the limiting rollers include longitudinal limiting rollers and lateral limiting rollers; the longitudinal limiting rollers are installed on the inner sidewalls of both sides of the traction frame, and the longitudinal limiting rollers are located on the lower surface of the upper flange of the traction guide rail; the lateral limiting rollers are installed on the inner sidewalls of both sides of the traction frame, and the outer contours of the lateral limiting rollers are located on both sides of the middle plate of the traction guide rail and are in close contact with the middle plate.