Anti-corrosion tile anti-aging detection device

The design of the rotating disk and clamping block structure solves the problem of inconvenient operation of existing anti-aging test chambers, realizes the rapid fixing and removal of anti-corrosion tiles, improves testing efficiency, and can evaluate their performance in corrosive gases.

CN224436099UActive Publication Date: 2026-06-30FUJIAN KENAN NEW MATERIAL TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUJIAN KENAN NEW MATERIAL TECHNOLOGY CO LTD
Filing Date
2025-07-31
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing anti-aging test chambers are inconvenient to operate when placing and removing building materials, which affects testing efficiency.

Method used

An anti-aging detection device for anti-corrosion roofing sheets was designed. It adopts a rotating disk and clamping block structure. Through the cooperation of pulleys and telescopic springs, the anti-corrosion roofing sheets can be conveniently fixed and removed. It is combined with a spray pipe and ultraviolet lamp for detection.

Benefits of technology

It enables rapid fixing and removal of anti-corrosion roofing sheets, improves testing efficiency, and allows for the assessment of their durability and stability in corrosive gases.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of anti-corrosion tile testing technology, and more particularly to an anti-aging testing device for anti-corrosion tiles. This utility model provides an anti-aging testing device for anti-corrosion tiles that allows for convenient and quick fixing and removal, improving the efficiency of anti-corrosion tile testing. The anti-aging testing device includes a testing box and inlet / outlet water pipes. The inlet / outlet water pipes are connected to the upper left front side of the testing box, and also to the lower left rear side of the testing box. Valves are installed on both the inlet and outlet water pipes. This utility model places the anti-corrosion tile on a rotating disc, positioning it between clamping blocks. After placement, pushing the sealing door to the right resets it. At this time, the pulley compresses the guide block and the clamping blocks, causing them to move closer together. The telescopic spring stretches, causing the clamping blocks to hold and fix the anti-corrosion tile, achieving the effect of convenient and quick fixing and removal of the anti-corrosion tile, thus improving the efficiency of anti-corrosion tile testing.
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Description

Technical Field

[0001] This utility model relates to the field of anti-corrosion tile testing technology, and in particular to an anti-aging testing device for anti-corrosion tiles. Background Technology

[0002] Anti-corrosion roofing sheet anti-aging testing refers to evaluating the ability of anti-corrosion roofing sheets to resist aging under long-term exposure to natural or simulated environments through a series of standardized testing methods and techniques. These tests aim to simulate the effects of different conditions (such as ultraviolet radiation, temperature changes, humidity, chemical corrosion, etc.) on material properties to predict their lifespan and reliability in actual use. Anti-aging testing equipment is typically used.

[0003] For example, an anti-aging test chamber for building materials, disclosed in CN218629435U, includes a main body, a door, and a test chamber. Support structures are provided on both sides of the bottom of the main body, and the door is hinged to one end of the main body. The test chamber is located inside the main body, and a reinforcing structure is provided inside the door. A guide rod is fixed inside the placement plate, and a push block is provided outside the guide rod. A spring is fixed to one side of the push block, and one side of the spring is fixedly connected to the placement plate. This invention uses a limiting structure to limit the movement of building materials. During use, the building material needs to be placed inside the test chamber. To ensure stability, it needs to be fixed. The push block is pulled to both sides, and the guide rod guides the push block. As the push block moves, it compresses the spring, allowing the building material to be placed on top of the placement plate. Then, the push block is released, and the spring pushes the push block to clamp and fix the building material, thus limiting its movement. However, because this anti-aging test chamber requires pulling the push block to both sides when placing and removing building materials, the operation is inconvenient and affects testing efficiency.

[0004] Therefore, a device for testing the anti-aging properties of anti-corrosion roofing sheets has been developed that can conveniently and quickly fix and remove them, thereby improving the efficiency of anti-corrosion roofing sheet testing. Utility Model Content

[0005] To overcome the shortcomings of existing anti-aging test chambers, which require pulling the pusher to the sides when placing and removing building materials, making operation inconvenient and affecting testing efficiency, this utility model provides an anti-aging testing device for anti-corrosion tiles that can conveniently and quickly fix and remove them, thereby improving the testing efficiency of anti-corrosion tiles.

[0006] The technical implementation scheme of this utility model is as follows: an anti-corrosion tile anti-aging testing device, including a testing box, inlet and outlet water pipes, heating wire, ultraviolet lamp, sealing door and placement component. The inlet and outlet water pipes are connected to the upper left front side of the testing box, and the inlet and outlet water pipes are also connected to the lower left rear side of the testing box. Valves are provided on the inlet and outlet water pipes. The heating wire is connected inside the testing box. The ultraviolet lamp is connected to the upper inner side of the testing box. The sealing door is slidably connected to the left side of the testing box. The sealing door is provided with a placement component for placing the anti-corrosion tile.

[0007] Furthermore, the sealed door has two handles, one at the front and one at the back, on the left side.

[0008] Furthermore, it also includes a diffuser plate, which is connected to the upper part of the testing box and is located below the ultraviolet lamp.

[0009] Furthermore, it also includes a spray pipe, which is connected to the middle of the sealed door.

[0010] Furthermore, the placement assembly includes a support plate, a rotating disk, guide rods, clamping blocks, guide blocks, telescopic springs, support rods, pulleys, a motor, a rotating shaft, and bevel gears. A support plate is connected to the lower right side of the sealing door. A rotating disk is rotatably connected to the middle of the support plate. Guide rods are connected to both the front and rear sides of the rotating disk. Clamping blocks are slidably connected to the guide rods, and each clamping block is slidably connected to the rotating disk. Guide blocks are connected to the lower side of each clamping block. Telescopic springs are connected between each clamping block and the rotating disk, initially in a stretched state. Support rods are connected to the inner sides of both the front and rear sides of the detection box. Pulleys are rotatably connected to each support rod, and each pulley contacts an adjacent guide block. A motor is connected to the lower left side of the sealing door. A rotating shaft is connected to the motor's output shaft, and a bevel gear is connected to the rotating shaft. A bevel gear is also connected to the lower side of the rotating disk, and the bevel gears mesh with each other.

[0011] Furthermore, the heating wire, ultraviolet lamp, motor, and processor are electrically connected via a control module.

[0012] The present invention has the following advantages: 1. The present invention places the anti-corrosion tile on the rotating disk, so that the anti-corrosion tile is located between the clamping blocks. After placement, the sealing door is pushed to the right to reset and close. At this time, the pulley squeezes the guide block and the clamping block to move closer to each other, and the telescopic spring is stretched, so that the clamping block clamps and fixes the anti-corrosion tile. This achieves the effect of conveniently and quickly fixing and picking up the anti-corrosion tile, and improving the detection efficiency of the anti-corrosion tile.

[0013] 2. This utility model uses a spray pipe to introduce corrosive or oxidizing gases into the testing chamber, thereby facilitating the evaluation of the durability and stability of materials in corrosive or oxidizing gases. Attached Figure Description

[0014] Figure 1This is a three-dimensional structural diagram of the present invention.

[0015] Figure 2 This is a three-dimensional structural diagram of the detection box and sealing door of this utility model.

[0016] Figure 3 This is a three-dimensional structural diagram of the ultraviolet lamp and heating wire of this utility model.

[0017] Figure 4 This is a three-dimensional structural diagram of the rotating disk and clamping block of this utility model.

[0018] Figure 5 This is a three-dimensional structural diagram of the rotating shaft and bevel gear of this utility model.

[0019] In the attached diagram: 1: Detection box, 2: Inlet and outlet water pipes, 3: Heating wire, 4: Ultraviolet lamp, 5: Diffuser plate, 6: Sealing door, 7: Support plate, 8: Rotary disc, 9: Guide rod, 10: Clamping block, 11: Guide block, 12: Telescopic spring, 13: Support rod, 14: Pulley, 15: Motor, 16: Rotating shaft, 17: Bevel gear, 18: Spray pipe. Detailed Implementation

[0020] References to embodiments herein mean that a particular feature, structure, or characteristic described in connection with an embodiment may be included in at least one embodiment of the present invention. The appearance of this phrase in various places throughout the specification does not necessarily refer to the same embodiment, nor is it a separate or alternative embodiment mutually exclusive with other embodiments. It will be explicitly and implicitly understood by those skilled in the art that the embodiments described herein can be combined with other embodiments.

[0021] A device for detecting the anti-aging properties of anti-corrosion roofing sheets, such as Figures 1-5 As shown, the device includes a testing box 1, inlet and outlet water pipes 2, heating wire 3, ultraviolet lamp 4, diffuser plate 5, sealing door 6, spray pipe 18, and placement components. The inlet and outlet water pipes 2 are connected to the upper left front side of the testing box 1, and the inlet and outlet water pipes 2 are also connected to the lower left rear side of the testing box 1. Valves are provided on both the inlet and outlet water pipes 2. The heating wire 3 is connected inside the testing box 1. The ultraviolet lamp 4 is connected to the upper inner side of the testing box 1. The diffuser plate 5 is connected to the upper part of the testing box 1 and is located below the ultraviolet lamp 4. The sealing door 6 is slidably connected to the left side of the testing box 1. The sealing door 6 has two handles on the left side for easy gripping. The spray pipe 18 is connected to the middle of the sealing door 6. The placement components are provided on the sealing door 6.

[0022] like Figures 1-5As shown, the placement assembly includes a support plate 7, a rotating disk 8, guide rods 9, clamping blocks 10, guide blocks 11, a telescopic spring 12, a support rod 13, a pulley 14, a motor 15, a rotating shaft 16, and a bevel gear 17. The support plate 7 is connected to the lower right side of the sealing door 6. The rotating disk 8 is rotatably connected to the middle of the support plate 7. Guide rods 9 are connected to both the front and rear of the rotating disk 8. Clamping blocks 10 are slidably connected to the guide rods 9, and each clamping block 10 is slidably connected to the rotating disk 8. Guide blocks 11 are connected to the lower side of each clamping block 10, and each clamping block 10 is slidably connected to the rotating disk 8. A telescopic spring 12 is connected between them. Initially, the telescopic spring 12 is in a stretched state. Support rods 13 are connected to the inner sides of the front and rear parts of the detection box 1. Pulleys 14 are rotatably connected to the support rods 13. The pulleys 14 are in contact with the adjacent guide blocks 11. A motor 15 is connected to the lower left side of the sealing door 6. A rotating shaft 16 is connected to the output shaft of the motor 15. A bevel gear 17 is connected to the rotating shaft 16. A bevel gear 17 is also connected to the lower side of the rotating disk 8. The bevel gears 17 mesh with each other. The heating wire 3, the ultraviolet lamp 4, the motor 15 and the processor are electrically connected through the control module.

[0023] When using this utility model, first place the test box 1 in the anti-aging test area of ​​the anti-corrosion tile, then pull the sealing door 6 to the left by the handle, and drive the support plate 7 to move to the left. At this time, the guide block 11 moves away from the pulley 14 on the support rod 13, and the telescopic spring 12 rebounds, so that the clamping block 10 and the guide block 11 move away from each other along the guide rod 9. Then place the anti-corrosion tile on the rotating plate 8, so that the anti-corrosion tile is located between the clamping blocks 10. After placement, push the sealing door 6 to the right to reset and close it. At this time, the pulley 14 squeezes the guide block 11 and the clamping block 10 to move closer to each other, and the telescopic spring 12 stretches, so that the clamping block 10 clamps and fixes the anti-corrosion tile, thereby achieving the function of conveniently and quickly fixing and picking up the anti-corrosion tile, and improving the testing efficiency of the anti-corrosion tile.

[0024] During testing, water is introduced into the testing chamber 1 through the inlet / outlet pipe 2, and the heating wire 3 heats the water. The temperature in the testing chamber 1 is adjusted, and then the ultraviolet lamp 4 is turned on to irradiate the anti-corrosion tile. The diffuser plate 5 disperses the ultraviolet light evenly onto the anti-corrosion tile to perform anti-aging testing. The processor starts the motor 15 through the control module, which drives the rotating shaft 16 to rotate, causing the bevel gear 17 to mesh and rotate the rotating disk 8 and the anti-corrosion tile, so that the anti-corrosion tile is evenly irradiated by ultraviolet light. During testing, some corrosive or oxidizing gases can be introduced into the testing chamber 1 through the spray pipe 18 to evaluate the durability and stability of the material in corrosive or oxidizing gases. After the test is completed, the sealing door 6 is pulled out to the left, so that the clamping block 10 is detached from the anti-corrosion tile, so that the anti-corrosion tile can be removed.

[0025] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model and are not intended to limit the scope of protection of this utility model. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solutions of this utility model without departing from the essence and scope of the technical solutions of this utility model.

Claims

1. A device for detecting the anti-aging properties of anti-corrosion roofing sheets, characterized in that: It includes a testing box (1), inlet and outlet water pipes (2), heating wire (3), ultraviolet lamp (4), sealing door (6) and placement components. The inlet and outlet water pipes (2) are connected to the upper left front side of the testing box (1), and the inlet and outlet water pipes (2) are also connected to the lower left rear side of the testing box (1). Valves are provided on the inlet and outlet water pipes (2). The heating wire (3) is connected inside the testing box (1). The ultraviolet lamp (4) is connected to the upper inner side of the testing box (1). The sealing door (6) is slidably connected to the left side of the testing box (1). The sealing door (6) is equipped with a placement component that can place the anti-corrosion tile.

2. The anti-corrosion roofing tile anti-aging testing device according to claim 1, characterized in that: The sealed door (6) has two handles on the left side, one at the front and one at the back.

3. The anti-corrosion roofing tile anti-aging testing device according to claim 1, characterized in that: It also includes a diffuser plate (5), which is connected to the upper part of the detection box (1) and is located below the ultraviolet lamp (4).

4. The anti-corrosion roofing tile anti-aging testing device according to claim 1, characterized in that: It also includes a spray pipe (18), and the spray pipe (18) is connected to the middle of the sealing door (6).

5. The anti-corrosion roofing tile anti-aging testing device according to claim 1, characterized in that: The placement components include a support plate (7), a rotating disk (8), a guide rod (9), a clamping block (10), a guide block (11), a telescopic spring (12), a support rod (13), a pulley (14), a motor (15), a rotating shaft (16), and a bevel gear (17). The support plate (7) is connected to the lower right side of the sealing door (6). The rotating disk (8) is rotatably connected to the middle of the support plate (7). The front and rear parts of the rotating disk (8) are connected to guide rods (9). The clamping blocks (10) are slidably connected to the guide rods (9). The clamping blocks (10) are slidably connected to the rotating disk (8). The lower side of the clamping blocks (10) is connected to a guide. Block (11) and clamping block (10) are connected to the rotating disk (8) by a telescopic spring (12). Initially, the telescopic spring (12) is in a stretched state. Support rods (13) are connected to the inner sides of the front and rear parts of the detection box (1). Pulleys (14) are rotatably connected to the support rods (13). Pulleys (14) are in contact with the adjacent guide blocks (11). Motor (15) is connected to the lower left side of the sealing door (6). Rotary shaft (16) is connected to the output shaft of motor (15). Bevel gear (17) is connected to the rotating shaft (16). Bevel gear (17) is also connected to the lower side of the rotating disk (8). Bevel gear (17) meshes with each other.

6. The anti-corrosion roofing tile anti-aging testing device according to claim 5, characterized in that: The heating wire (3), ultraviolet lamp (4), motor (15) and processor are electrically connected through the control module.