A cleaning and air-drying device for aluminum veneer production

By designing a cleaning and drying device for aluminum single-panel production, and adopting an automated design for clamping components and cleaning and drying components, the problems of low efficiency in traditional manual cleaning and environmental influence on the drying process are solved, achieving efficient cleaning and drying effects, and improving production efficiency and cleaning quality.

CN224372240UActive Publication Date: 2026-06-19BEIJING AOWEIGAO METAL PROD TECH DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIJING AOWEIGAO METAL PROD TECH DEV CO LTD
Filing Date
2025-07-11
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

In traditional aluminum panel production, manual cleaning is inefficient and cannot meet the needs of large-scale production. The cleaning is uneven and the quality depends on the workers' operation. The drying process is greatly affected by environmental factors, resulting in low production efficiency.

Method used

Design a cleaning and drying device for aluminum single-panel production, including a clamping component and a cleaning and drying component. The clamping component clamps the aluminum single-panel by a motor drive, the cleaning component cleans by spraying water through a nozzle, and the drying component dries the air after filtering it by a fan, thus realizing automated cleaning and drying.

Benefits of technology

It achieves efficient and automated cleaning and drying of aluminum panels, improves production efficiency, reduces problems such as uneven cleaning and drying speed being affected by the environment, and ensures cleaning quality.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to the technical field of aluminium veneer production, and disclose a kind of cleaning air drying device for aluminium veneer production, including bottom plate, the top of bottom plate equidistantly is equipped with support leg, fixedly installed with processing box between support leg, the front of processing box is provided with control panel, the front of processing box is equipped with feed inlet, the back of processing box is equipped with discharge port, the both sides of processing box are respectively equipped with sliding mouth, the inside of processing box is respectively provided with clamping assembly and cleaning air drying assembly.The utility model is pumped to start, water is pumped from water storage tank by water suction pipe, water is filtered by filter plate, is pumped to be connected with standpipe by pump, then it is respectively entered into upper connection box and lower connection box by connecting cross pipe, finally, it is sprayed from the opposite side nozzle of upper connection box and lower connection box, reach the effect that the upper and lower surfaces of aluminium veneer are cleaned conveniently.
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Description

Technical Field

[0001] This utility model relates to the field of aluminum panel production technology, specifically to a cleaning and drying device for aluminum panel production. Background Technology

[0002] Aluminum single-layer panels are mainly made of high-strength aluminum alloy sheets. Their chemical composition typically includes elements such as aluminum, magnesium, and silicon. The proper ratio of these elements gives aluminum single-layer panels good strength and toughness. As a commonly used building decoration material, aluminum single-layer panels are widely used in building curtain walls, interior decoration, and other fields. The cleaning and drying process in its production plays a decisive role in product quality.

[0003] In the early stages of aluminum panel production, the cleaning process faced numerous challenges. Traditional cleaning equipment was typically simple in structure, employing manual handheld spray guns or only basic spraying devices. Manual cleaning was not only inefficient and unable to meet the demands of large-scale production, but its quality also heavily relied on the worker's skill and responsibility, easily leading to uneven cleaning and residual stains on some areas of the aluminum panel surface. Furthermore, early drying equipment had serious flaws in the post-cleaning drying process. The common method was natural air drying, which was highly susceptible to environmental factors such as humidity, temperature, and ventilation conditions, resulting in slow drying speeds, significantly extending the production cycle, and severely restricting production efficiency. Utility Model Content

[0004] The purpose of this utility model is to provide a cleaning and drying device for aluminum single-panel production, which solves the technical problem that manual cleaning is not only inefficient but also difficult to meet the needs of large-scale production, thereby facilitating the cleaning and drying of aluminum single-panels and improving efficiency.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a cleaning and drying device for aluminum single-panel production, comprising a base plate, support legs equidistantly installed on the top of the base plate, a processing box fixedly installed between the support legs, a control panel on the front of the processing box, a feed inlet on the front of the processing box, a discharge outlet on the back of the processing box, sliding openings on both sides of the processing box, and a clamping assembly and a cleaning and drying assembly respectively disposed inside the processing box.

[0006] Preferably, the clamping assembly includes: a protective outer frame, symmetrically fixedly installed on both sides of the processing box; a motor, fixedly installed on the outer side of the protective outer frame; a first partition, fixedly installed inside the processing box; and a second partition, fixedly installed inside the processing box.

[0007] Preferably, the output end of the motor is provided with a threaded rod, the other end of which movably passes through one side of the outer wall of the protective frame, one side of the inner wall of the protective frame, and extends to the other side of the inner wall of the protective frame, and is rotatably connected to the protective frame through a bearing. A guide rod is fixedly installed inside another protective frame. A movable block is threadedly connected to the outer wall of the threaded rod. Another movable block is slidably sleeved on the outer wall of the guide rod. The inner side of the movable block movably passes through a sliding opening and is fixedly installed with a connecting vertical frame. A clamping base plate is fixedly installed between the connecting vertical frames. A second sliding opening is opened on the inner side of the connecting vertical frame. An electric guide rail is fixedly installed inside the connecting vertical frame. A slide block is slidably connected to the outer wall of the electric guide rail. A clamping top plate is fixedly installed on the inner side of the slide block. The clamping top plate movably passes through the second sliding opening. The second partition is located directly below the first partition.

[0008] The electric guide rail drives the slide block to slide, which in turn moves the clamping top plate downwards, cooperating with the clamping bottom plate to clamp the aluminum panel.

[0009] Preferably, the cleaning and drying assembly includes: a cleaning component disposed inside the processing chamber; and a drying component disposed on one side of the cleaning component.

[0010] Preferably, the cleaning component includes: a water storage tank, which is fixedly fitted onto the bottom of the treatment tank; an upper connecting box, which is fixedly installed inside the treatment tank; and a lower connecting box, which is fixedly installed inside the treatment tank.

[0011] Preferably, the lower connecting box is located directly below the upper connecting box. A filter plate is fixedly installed inside the water storage tank. A water pumping pipe is connected to one side of the water storage tank. The other end of the water pumping pipe passes through one side of the inner wall of the treatment tank and extends to one side of the outer wall of the treatment tank, and is connected to a pump. The output end of the pump is connected to a vertical connecting pipe. A horizontal connecting pipe is symmetrically connected to the inner side of the vertical connecting pipe. The other end of the horizontal connecting pipe passes through one side of the outer wall of the treatment tank and extends to one side of the inner wall of the treatment tank. The other end of the horizontal connecting pipe is connected to the upper connecting box. The other end of the horizontal connecting pipe is connected to the lower connecting box. Spray nozzles are equidistantly connected to the opposite sides of the upper and lower connecting boxes.

[0012] The nozzles are evenly distributed, allowing water to be sprayed onto the surface of the aluminum panel from multiple angles, ensuring that the cleaning water fully covers all parts of the aluminum panel.

[0013] Preferably, the air-drying components include: an air guide hood, symmetrically and fixedly installed inside the processing box; and a fan, fixedly installed on the top of the base plate.

[0014] Preferably, the output end of the fan is connected to a filter box, and the filter box is provided with an antistatic layer, a filter layer and a fine filter layer. The filter layer is located between the antistatic layer and the fine filter layer. A connecting pipe is connected to the other side of the filter box, and a U-shaped air guide pipe is connected to the other end of the connecting pipe. The other two ends of the U-shaped air guide pipe pass through the outer wall of the treatment box and extend into the interior of the treatment box, and are respectively connected to the air guide hood.

[0015] The anti-static layer inside the filter box can effectively eliminate static electricity in the air, preventing static electricity from attracting dust and other impurities to the surface of the aluminum panel and reducing the possibility of secondary pollution.

[0016] This utility model provides a cleaning and drying device for aluminum single-panel production. It has the following beneficial effects:

[0017] (1) This utility model starts by pumping water from the water storage tank through the pumping pipe. After the water is filtered by the filter plate, it is pumped to the connecting vertical pipe and then enters the upper connecting box and the lower connecting box through the connecting horizontal pipe. Finally, it is sprayed out from the nozzles on the opposite side of the upper and lower connecting boxes, so as to facilitate the cleaning of the upper and lower surfaces of the aluminum single panel.

[0018] (2) This utility model draws in outside air by starting a fan. The air first enters the filter box and is filtered through the anti-static layer, the filter layer and the fine filter layer in sequence to remove static electricity, dust and other impurities. The filtered air enters the U-shaped air guide pipe through the connecting pipe, and then enters the air guide hood from both ends of the U-shaped air guide pipe and is blown out from the air guide hood, so as to facilitate the drying of the cleaned aluminum panels. Attached Figure Description

[0019] Figure 1 This is a three-dimensional schematic diagram of the overall structure of this utility model;

[0020] Figure 2 This is a cross-sectional view of the clamping component structure of this utility model;

[0021] Figure 3 This is a cross-sectional view of the cleaning and drying assembly of this utility model;

[0022] Figure 4 This is a cross-sectional view of the air-drying component of this utility model.

[0023] In the diagram: 1. Base plate, 2. Support legs, 3. Processing box, 4. Control panel, 5. Clamping assembly, 6. Cleaning and drying assembly;

[0024] 511 Protective outer frame, 512 Motor, 513 Threaded rod, 514 Movable block, 515 Connecting vertical frame, 516 Clamping base plate, 517 Slide block, 518 Clamping top plate, 519 Partition 1, 5111 Partition 2, 5112 Guide rod, 5113 Electric guide rail.

[0025] 61 Cleaning components, 611 Water storage tank, 612 Filter plate, 613 Upper connecting box, 614 Lower connecting box, 615 Nozzle, 616 Connecting horizontal pipe, 617 Connecting vertical pipe, 618 Pump, 619 Pumping pipe;

[0026] 62 Air drying components, 621 Air guide hood, 622 Fan, 623 Filter box, 624 Antistatic layer, 625 Filter layer, 626 Fine filter layer, 627 Connecting pipe, 628 U-shaped air guide duct. Detailed Implementation

[0027] 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.

[0028] Examples of the embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, and should not be construed as limiting the present invention.

[0029] Example 1:

[0030] Based on the current problem that manual cleaning is not only inefficient but also fails to meet the needs of large-scale production, the present invention provides a preferred embodiment of a cleaning and drying device for aluminum single-panel production, for example... Figure 1-4As shown: A cleaning and drying device for aluminum single-panel production includes a base plate 1, with support legs 2 evenly spaced on the top of the base plate 1, and a processing box 3 fixedly installed between the support legs 2. A control panel 4 is provided on the front of the processing box 3, an inlet is provided on the front of the processing box 3, an outlet is provided on the back of the processing box 3, and sliding openings are provided on both sides of the processing box 3. A clamping assembly 5 and a cleaning and drying assembly 6 are respectively provided inside the processing box 3. The clamping assembly 5 includes: a protective outer frame 511, symmetrically fixedly installed on both sides of the processing box 3; a motor 512, fixedly installed on the outside of the protective outer frame 511; a first partition 519, fixedly installed inside the processing box 3; a second partition 5111, fixedly installed inside the processing box 3; and a threaded rod 513 provided at the output end of the motor 512, the other end of which movably passes through one side of the outer wall of the protective outer frame 511. One side of the inner wall of 1 extends to the other side of the inner wall of the protective outer frame 511, and is rotatably connected to the protective outer frame 511 via a bearing. A guide rod 5112 is fixedly installed inside the other protective outer frame 511. A movable block 514 is threadedly connected to the outer wall of the threaded rod 513. Another movable block 514 is slidably sleeved on the outer wall of the guide rod 5112. The inner side of the movable block 514 movably passes through the sliding opening and is fixedly installed with a connecting vertical frame 515. A clamping base plate 516 is fixedly installed between the connecting vertical frames 515. A second sliding opening is opened on the inner side of the connecting vertical frame 515. An electric guide rail 5113 is fixedly installed inside the connecting vertical frame 515. A slide seat 517 is slidably connected to the outer wall of the electric guide rail 5113. A clamping top plate 518 is fixedly installed on the inner side of the slide seat 517. The clamping top plate 518 movably passes through the second sliding opening. The second partition 5111 is located directly below the first partition 519.

[0031] Furthermore, in this embodiment, by activating the electric guide rail 5113, the electric guide rail 5113 drives the slide block 517 to slide, thereby causing the clamping top plate 518 to move downward and cooperate with the clamping bottom plate 516 to clamp the aluminum panel. The motor 512 is activated through the control panel 4, and the motor 512 drives the threaded rod 513 to rotate. Since the threaded rod 513 is threadedly connected to the movable block 514, the movable block 514 moves on the threaded rod 513. At the same time, the aluminum panel drives another movable block 514 to slide on the guide rod 5112, thereby driving the aluminum panel to move inside the processing box 3 towards the discharge port.

[0032] Example 2:

[0033] Based on Embodiment 1, a preferred embodiment of the cleaning and drying device for aluminum single-panel production provided by this utility model is as follows: Figure 1-4As shown: The cleaning and drying assembly 6 includes: a cleaning component 61, disposed inside the processing chamber 3; and a drying component 62, disposed on one side of the cleaning component 61. The cleaning component 61 includes: a water storage tank 611, fixedly fitted onto the bottom of the processing chamber 3; an upper connecting box 613, fixedly installed inside the processing chamber 3; and a lower connecting box 614, fixedly installed inside the processing chamber 3. The lower connecting box 614 is located directly below the upper connecting box 613. A filter plate 612 is fixedly installed inside the water storage tank 611. A water pumping pipe 619 is connected to one side of the water storage tank 611, and the other end of the water pumping pipe 619 passes through the processing chamber 3. A pump 618 is connected to one side of the inner wall of the treatment box 3 and extends to one side of the outer wall of the treatment box 3. The output end of the pump 618 is connected to a connecting vertical pipe 617. A connecting horizontal pipe 616 is symmetrically connected to the inner side of the connecting vertical pipe 617. The other end of the connecting horizontal pipe 616 passes through one side of the outer wall of the treatment box 3 and extends to one side of the inner wall of the treatment box 3. The other end of the connecting horizontal pipe 616 is connected to the upper connecting box 613. The other end of the other connecting horizontal pipe 616 is connected to the lower connecting box 614. Spray nozzles 615 are equidistantly connected to the opposite sides of the upper connecting box 613 and the lower connecting box 614.

[0034] Furthermore, in this embodiment, water is drawn from the water storage tank 611 by starting the pump 618 and pumping water through the water pipe 619. After being filtered by the filter plate 612, the water is pumped by the pump 618 to the connecting vertical pipe 617, and then enters the upper connecting box 613 and the lower connecting box 614 through the connecting horizontal pipe 616 respectively. Finally, the water is sprayed out from the nozzles 615 on the opposite side of the upper connecting box 613 and the lower connecting box 614.

[0035] Example 3:

[0036] Based on Embodiments 1 and 2, a preferred embodiment of the cleaning and drying device for aluminum single-panel production provided by this utility model is, for example... Figure 1-4 As shown: the air drying component 62 includes: an air guide hood 621, symmetrically and fixedly installed inside the processing box 3; a fan 622, fixedly installed on the top of the base plate 1; the output end of the fan 622 is connected to a filter box 623, the filter box 623 is respectively provided with an antistatic layer 624, a filter layer 625 and a fine filter layer 626, the filter layer 625 is located between the antistatic layer 624 and the fine filter layer 626, the other side of the filter box 623 is connected to a connecting pipe 627, the other end of the connecting pipe 627 is connected to a U-shaped air guide duct 628, the other two ends of the U-shaped air guide duct 628 respectively penetrate through the outer wall of the processing box 3 and extend into the interior of the processing box 3, and are respectively connected to the air guide hood 621.

[0037] Furthermore, in this embodiment, the fan 622 is started to draw in outside air. The air first enters the filter box 623 and passes through the antistatic layer 624, the filter layer 625 and the fine filter layer 626 in sequence to remove static electricity, dust and other impurities. The filtered air enters the U-shaped air guide duct 628 through the connecting pipe 627, and then enters the air guide hood 621 from both ends of the U-shaped air guide duct 628, and is blown out from the air guide hood 621.

[0038] In use, the aluminum panel is first placed on top of the clamping base plate 516 through the feed inlet. The electric guide rail 5113 is then activated, driving the slide block 517 to slide, which in turn moves the clamping top plate 518 downwards, engaging with the clamping base plate 516 to clamp the aluminum panel. The motor 512 is then activated via the control panel 4, causing the threaded rod 513 to rotate. Since the threaded rod 513 is threadedly connected to the movable block 514, the movable block 514 moves along the threaded rod 513. Simultaneously, the aluminum panel drives another movable block 514 to slide along the guide rod 5112, thus moving the aluminum panel inside the processing box 3 towards the discharge port. During this movement, the panel first passes through the cleaning component 61, then through the drying component 62. When passing through the cleaning component 61, the pump 618 is activated, drawing water from the water storage tank 611 through the water pipe 619. The water is filtered through the filter plate 612 and then discharged... Pump 618 delivers the air to connecting vertical pipe 617, and then through connecting horizontal pipe 616 into upper connecting box 613 and lower connecting box 614 respectively. Finally, the air is sprayed out from nozzle 615 on the opposite side of upper connecting box 613 and lower connecting box 614 to clean the upper and lower surfaces of the aluminum panel. After cleaning, fan 622 starts to draw in outside air. The air first enters filter box 623 and passes through antistatic layer 624, filter layer 625 and fine filter layer 626 in sequence to remove static electricity, dust and other impurities. The filtered air enters U-shaped air guide pipe 628 through connecting pipe 627, and then enters air guide hood 621 from both ends of U-shaped air guide pipe 628 and is blown out from air guide hood 621 to air dry the cleaned aluminum panel. After cleaning and air drying, motor 512 reverses, driving connecting vertical frame 515 and the clamped aluminum panel to move towards the discharge port, and finally sending the aluminum panel out of processing box 3 from the discharge port.

[0039] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A cleaning and air-drying device for the production of aluminum veneer comprising a base plate (1), characterized in that: Support legs (2) are equidistantly installed on the top of the base plate (1). A processing box (3) is fixedly installed between the support legs (2). A control panel (4) is provided on the front of the processing box (3). A feed inlet is provided on the front of the processing box (3). A discharge outlet is provided on the back of the processing box (3). Sliding openings are provided on both sides of the processing box (3). A clamping assembly (5) and a cleaning and drying assembly (6) are respectively provided inside the processing box (3).

2. The cleaning and drying device for producing aluminum veneer according to claim 1, characterized in that: The clamping assembly (5) includes: The protective outer frame (511) is symmetrically fixed on both sides of the processing box (3); The motor (512) is fixedly installed on the outside of the protective frame (511); Partition 1 (519) is fixedly installed inside the processing box (3); Partition 2 (5111) is fixedly installed inside the processing box (3).

3. The cleaning and drying device for aluminum single-panel production according to claim 2, characterized in that: The output end of the motor (512) is provided with a threaded rod (513). The other end of the threaded rod (513) movably passes through one side of the outer wall of the protective frame (511), one side of the inner wall of the protective frame (511), and extends to the other side of the inner wall of the protective frame (511). It is rotatably connected to the protective frame (511) through a bearing. A guide rod (5112) is fixedly installed inside another protective frame (511). A movable block (514) is threadedly connected to the outer wall of the threaded rod (513). Another movable block (514) is slidably sleeved on the outer wall of the guide rod (5112). The inner side of the sliding opening is movable through the sliding opening, and a connecting vertical frame (515) is fixedly installed. A clamping base plate (516) is fixedly installed between the connecting vertical frames (515). A second sliding opening is opened on the inner side of the connecting vertical frame (515). An electric guide rail (5113) is fixedly installed inside the connecting vertical frame (515). A slide block (517) is slidably connected to the outer wall of the electric guide rail (5113). A clamping top plate (518) is fixedly installed on the inner side of the slide block (517). The clamping top plate (518) is movable through the second sliding opening. The second partition plate (5111) is located directly below the first partition plate (519).

4. The cleaning and drying device for aluminum single-panel production according to claim 1, characterized in that: The cleaning and drying assembly (6) includes: The cleaning component (61) is located inside the processing box (3); The air-drying component (62) is located on one side of the cleaning component (61).

5. The cleaning and drying device for aluminum single-panel production according to claim 4, characterized in that: The cleaning component (61) includes: The water storage tank (611) is fixedly fitted onto the bottom of the treatment tank (3); The upper connecting box (613) is fixedly installed inside the processing box (3); The lower connecting box (614) is fixedly installed inside the processing box (3).

6. The cleaning and drying device for aluminum single-panel production according to claim 5, characterized in that: The lower connecting box (614) is located directly below the upper connecting box (613). A filter plate (612) is fixedly installed inside the water storage tank (611). A water pumping pipe (619) is connected to one side of the water storage tank (611). The other end of the water pumping pipe (619) passes through one side of the inner wall of the treatment tank (3) and extends to one side of the outer wall of the treatment tank (3), and is connected to a pump (618). The output end of the pump (618) is connected to a connecting vertical pipe (617). A connecting horizontal pipe (616) is symmetrically connected to the inner side of the pipe (617). The other end of the connecting horizontal pipe (616) passes through one side of the outer wall of the treatment box (3) and extends to one side of the inner wall of the treatment box (3). The other end of the connecting horizontal pipe (616) is connected to the upper connecting box (613). The other end of the other connecting horizontal pipe (616) is connected to the lower connecting box (614). The upper connecting box (613) and the lower connecting box (614) are respectively equidistantly connected to each other on opposite sides. Spray nozzles (615) are provided.

7. The cleaning and drying device for aluminum single-panel production according to claim 4, characterized in that: The air-drying component (62) includes: The air guide shroud (621) is symmetrically and fixedly installed inside the processing box (3); The fan (622) is fixedly installed on the top of the base plate (1).

8. The cleaning and drying device for aluminum single-panel production according to claim 7, characterized in that: The output end of the fan (622) is connected to a filter box (623). The filter box (623) is provided with an antistatic layer (624), a filter layer (625) and a fine filter layer (626). The filter layer (625) is located between the antistatic layer (624) and the fine filter layer (626). The other side of the filter box (623) is connected to a connecting pipe (627). The other end of the connecting pipe (627) is connected to a U-shaped air guide pipe (628). The other two ends of the U-shaped air guide pipe (628) penetrate the outer wall of the treatment box (3) and extend into the interior of the treatment box (3), and are respectively connected to the air guide cover (621).