Steel structural member anticorrosion coating device

By designing anti-corrosion coating devices for the lifting unit and support arm, the problem of uneven spraying caused by the height and irregular shape of steel structure components was solved, achieving efficient and uniform coating effect and reducing operation difficulty and labor intensity.

CN224486453UActive Publication Date: 2026-07-14MAIGAITI COUNTY ZHONGCHUANG STEEL STRUCTURE ENGINEERING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
MAIGAITI COUNTY ZHONGCHUANG STEEL STRUCTURE ENGINEERING CO LTD
Filing Date
2025-06-19
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

In existing technologies, steel structure components are often tall and have various shapes. Traditional anti-corrosion coating devices are inconvenient to operate, resulting in uneven spraying, time-consuming and labor-intensive processes, and high labor intensity, making it difficult to meet the coating needs under complex working conditions.

Method used

An anti-corrosion coating device was designed, comprising a device carrier, an anti-corrosion paint container, a pump body, a delivery pipe, a nozzle, a guide rail, a support arm, and a lifting unit. Through the cooperation of the lifting unit and the support arm, the height and position of the nozzle can be flexibly adjusted to ensure the comprehensiveness and uniformity of the coating. The nozzle is easy to install and replace quickly.

Benefits of technology

It improves coating quality, reduces labor intensity and operational difficulty, and can adapt to steel structure components of different shapes, heights and sizes, meeting coating needs under complex working conditions.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of steel structural member anticorrosive coating devices, relate to component processing equipment technical field.The steel structural member anticorrosive coating device includes device carrier, anticorrosive paint container, pump body, conveying pipe and joint, nozzle, guide rail, support arm and lifting unit.The steel structural member anticorrosive coating device is designed by device carrier, so that device overall is convenient to move, flexible and convenient, with the design of lifting unit and support arm, the height of nozzle is conveniently adjusted flexibly, ensure the comprehensiveness and uniformity of coating, improve coating quality, at the same time, nozzle is convenient for quick installation replacement, so that operating personnel can easily carry out coating operation, device can adapt to steel structural member of different shapes, heights and sizes, can satisfy coating demand under various complex working conditions, reduce labor intensity and operation difficulty.
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Description

Technical Field

[0001] This utility model relates to the field of component processing equipment technology, specifically to a steel structure component anti-corrosion coating device. Background Technology

[0002] Anti-corrosion coatings form a protective film that prevents steel from contacting air, water, and corrosive media, thus preventing oxidation and chemical corrosion and extending the service life of the steel. Effective anti-corrosion coatings can reduce the frequent maintenance and replacement costs caused by steel corrosion.

[0003] In the prior art, many steel structure components are located near buildings and are quite tall. Traditional anti-corrosion coating devices typically involve operators holding a spray nozzle and spraying the coating step by step. Due to the height, this is inconvenient, and the steel structure components have various shapes. Therefore, in actual operation, it is not easy to evenly spray and cover the anti-corrosion coating. The operation is cumbersome, time-consuming, labor-intensive, and cannot meet the usage requirements. In view of the shortcomings of the prior art, this utility model provides an anti-corrosion coating device for steel structure components to solve the above problems. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides a steel structure component anti-corrosion coating device. Through the design of the device carrier, the entire device is easy to move and flexible. The design of the lifting unit and support arm allows for convenient and flexible adjustment of the nozzle height, ensuring comprehensive and uniform coating and improving coating quality. Simultaneously, the nozzles are easy to install and replace quickly, enabling operators to easily perform coating operations. The device can adapt to steel structure components of different shapes, heights, and sizes, meeting coating needs under various complex working conditions, and reducing labor intensity and operational difficulty.

[0005] To achieve the above objectives, this utility model is implemented through the following technical solution: a steel structure component anti-corrosion coating device, comprising a device carrier, an anti-corrosion paint container, a pump body, a delivery pipe and connector, a nozzle, a guide rail, a support arm and a lifting unit;

[0006] The anti-corrosion paint container is mounted on the device carrier;

[0007] The pump body is mounted on the anti-corrosion paint container;

[0008] A delivery pipe is installed on the pump body and extends into the interior of the anti-corrosion paint container, and a connector is provided at the end of the delivery pipe;

[0009] The nozzle is snapped into the connector;

[0010] The guide rail is mounted on the device carrier;

[0011] The support arm is movably latched onto the guide rail and used to support the connector;

[0012] The lifting unit is mounted on the guide rail and is used to adjust the height of the support arm.

[0013] Preferably, the lifting unit includes:

[0014] The lifting platform is slidably connected to the guide rail;

[0015] A first motor is mounted on the carrier of the device;

[0016] A lead screw is located at the output end of the first motor and is threadedly connected to the lifting platform.

[0017] Preferably, the lifting platform is provided with a lateral movement unit for adjusting the position of the support arm, the lateral movement unit comprising:

[0018] A limiting seat is provided on the lifting platform;

[0019] The adjustment platform is movable and latched onto the limiting seat and is used to support the support arm.

[0020] Preferably, the support arm is provided with a second threaded opening, which is threadedly connected to the adjustment table.

[0021] Preferably, a second motor is fixedly connected to the side of the limiting seat, and the output end of the second motor is provided with a bidirectional screw, which is threadedly connected to the adjusting table.

[0022] Preferably, the support arm is provided with a first threaded opening, which is threadedly connected to the connector.

[0023] Preferably, the nozzle is provided with a third threaded opening, which is threadedly connected to the connector.

[0024] Preferably, the device carrier is equipped with casters and a push handle.

[0025] Preferably, the anti-corrosion paint container is provided with a bracket for mounting the pump body.

[0026] This utility model discloses an anti-corrosion coating device for steel structure components, which has the following beneficial effects:

[0027] This anti-corrosion coating device for steel structure components is designed to be easy to move and flexible. The lifting unit and support arm allow for easy adjustment of the nozzle height, ensuring comprehensive and uniform coating and improving coating quality. At the same time, the nozzles are easy to install and replace quickly, allowing operators to easily carry out coating operations. The device can adapt to steel structure components of different shapes, heights and sizes, and can meet the coating needs under various complex working conditions, reducing labor intensity and operating difficulty. Attached Figure Description

[0028] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0029] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0030] Figure 2 This is a schematic diagram of the lifting unit of this utility model;

[0031] Figure 3 This is a schematic diagram of the transverse movement unit of this utility model;

[0032] Figure 4 This is a disassembly diagram of the connector of this utility model.

[0033] In the diagram: 1. Device carrier; 11. Casters; 12. Push handle; 2. Anti-corrosion paint container; 3. Pump body; 31. Bracket; 4. Delivery pipe; 41. Connector; 5. Nozzle; 51. Third threaded joint; 6. Guide rail; 7. Support arm; 71. First threaded joint; 72. Second threaded joint; 8. Lifting unit; 81. Lifting platform; 82. First motor; 83. Lead screw; 9. Lateral movement unit; 91. Limit seat; 92. Adjusting platform; 93. Second motor; 94. Bidirectional screw. Detailed Implementation

[0034] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions in the embodiments of this utility model are described clearly and completely. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0035] This application provides a steel structure component anti-corrosion coating device, which solves the problems in the prior art where many steel structure components are located near buildings and are quite high. Traditional anti-corrosion coating devices usually require operators to hold a spray nozzle and spray layer by layer. Due to the height, this is inconvenient, and the steel structure components have different shapes. Therefore, in actual operation, it is not easy to evenly spray and cover the anti-corrosion coating. The operation is cumbersome, time-consuming, labor-intensive, and cannot meet the usage requirements.

[0036] To better understand the above technical solutions, the following will provide a detailed explanation of the technical solutions in conjunction with the accompanying drawings and specific implementation methods.

[0037] Example 1: This utility model embodiment discloses a steel structure component anti-corrosion coating device, according to the attached... Figures 1-4 As shown, it includes a device carrier 1, an anti-corrosion paint container 2, a pump body 3, a delivery pipe 4 and a connector 41, a nozzle 5, a guide rail 6, a support arm 7 and a lifting unit 8;

[0038] The device carrier 1 serves as the base for the entire coating device, supporting and securing other components. It is equipped with guide rails 6 to provide a track for the movement of the support arm 7; it also houses the anti-corrosion paint container 2. The device carrier 1 is equipped with casters 11 and push handles 12 to facilitate the movement and transfer of the entire equipment.

[0039] The anti-corrosion paint container 2 is mounted on the device carrier 1 and is used to store the anti-corrosion paint. The anti-corrosion paint container 2 is equipped with a bracket 31 for mounting the pump body 3.

[0040] The pump body 3 is mounted on the bracket 31 and connected to the inside of the anti-corrosion paint container 2 via the delivery pipe 4. The function of the pump body 3 is to draw the anti-corrosion paint from the anti-corrosion paint container 2 and deliver it to the nozzle 5 through the delivery pipe 4.

[0041] The delivery pipe 4 connects to the pump body 3 and extends into the anti-corrosion paint container 2, with a connector 41 at its end. The connector 41 is threadedly connected to the nozzle 5, facilitating the quick installation and replacement of the nozzle 5, thereby allowing adjustment of the nozzle 5's model and shape to adapt to different steel structure components.

[0042] The nozzle 5 is provided with a third threaded port 51. The nozzle 5 is threadedly connected to the connector 41 through the third threaded port 51. The nozzle 5 is easy to disassemble and assemble, and the model is easy to replace, thereby realizing the uniform spraying of anti-corrosion paint on the surface of steel structure components.

[0043] The guide rail 6 is fixed on the device carrier 1, providing a moving track for the support arm 7, so that the support arm 7 can move along the direction of the guide rail 6.

[0044] The support arm 7 is movably engaged with the guide rail 6. The support arm 7 is used to support and fix the connector 41 and the nozzle 5. The support arm 7 is provided with a first threaded joint 71 and a second threaded joint 72. The first threaded joint 71 and the second threaded joint 72 are respectively threadedly connected to the connector 41 and the adjusting table 92 of the transverse moving unit 9.

[0045] The lifting unit 8 includes a lifting platform 81, a first motor 82, and a lead screw 83. The lifting platform 81 is slidably connected to the guide rail 6; the first motor 82 is mounted on the device carrier 1, and its output end is connected to the lead screw 83, which is threadedly connected to the lifting platform 81. By rotating the first motor 82 forward and backward, the lead screw 83 is driven to rotate, thereby causing the lifting platform 81 to move up and down on the guide rail 6, thus adjusting the height of the support arm 7.

[0046] The lateral movement unit 9 is mounted on the lifting platform 81 and is used to adjust the position of the support arm 7 in the horizontal direction. The lateral movement unit 9 includes a limit seat 91, an adjusting platform 92, a second motor 93, and a bidirectional screw 94.

[0047] The limiting seat 91 is fixed on the lifting platform 81; the adjusting platform 92 is movably engaged with the limiting seat 91 and threadedly connected to the second threaded joint 72 on the support arm 7; the second motor 93 is fixed to the side of the limiting seat 91, and its output end is connected to the bidirectional screw 94, which is threadedly connected to the adjusting platform 92. By rotating the second motor 93 forward and backward, the bidirectional screw 94 is driven to rotate, causing the adjusting platform 92 to move left and right on the limiting seat 91, thereby adjusting the horizontal position of the support arm 7.

[0048] When this device is in use:

[0049] First, the device is pushed to the vicinity of the steel structure component to be painted using the casters 11 and push handle 12, and its position is adjusted so that the device is in a suitable working area.

[0050] Second, pour the anti-corrosion paint into anti-corrosion paint container 2, ensuring that there is enough paint in the container to meet the coating requirements.

[0051] Third, select a suitable nozzle 5 according to the shape of the component and the coating requirements, and connect it to the connector 41 by threading through the third thread 51 to complete the installation of the nozzle 5.

[0052] Fourth, adjust the position:

[0053] Start the first motor 82, which drives the lifting platform 81 to move up and down through the lead screw 83, and adjust the height of the support arm 7 so that the nozzle 5 is approximately at the height of the component to be coated.

[0054] Start the second motor 93, and drive the adjusting table 92 to move left and right through the bidirectional screw 94 to adjust the horizontal position of the support arm 7 so that the nozzle 5 can easily wrap around and align with the starting coating position of the component to be coated.

[0055] Fifth, start pump 3 to draw the anti-corrosion paint from anti-corrosion paint container 2 and deliver it to nozzle 5 through delivery pipe 4. The operator controls nozzle 5 to spray evenly on the surface of the component. During the coating process, the position of nozzle 5 can be adjusted at any time as needed through lifting unit 8 and lateral movement unit 9 to adapt to the coating requirements of different parts.

[0056] Sixth, after completing the coating, turn off the pump body 3, remove the nozzle 5, and clean and store it properly. Move the equipment to the storage location using the casters 11 and store it properly for future use.

[0057] The device, through the design of the carrier 1, makes the whole device easy to move and flexible. With the help of the lifting unit 8 and the support arm 7, the height of the nozzle 5 can be flexibly adjusted to ensure the comprehensiveness and uniformity of the coating and improve the coating quality. At the same time, the nozzle 5 can be quickly installed and replaced, allowing operators to easily carry out coating operations. The device can adapt to steel structure components of different shapes, heights and sizes, and can meet the coating needs under various complex working conditions, reducing labor intensity and operation difficulty.

[0058] It should be noted that, in this document, relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes the element.

[0059] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. 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 the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A steel structure component anti-corrosion coating device, characterized in that, include: Device carrier (1); The anti-corrosion paint container (2) is disposed on the device carrier (1); Pump body (3) is mounted on the anti-corrosion paint container (2); A delivery pipe (4) is provided on the pump body (3) and extends into the interior of the anti-corrosion paint container (2). The end of the delivery pipe (4) is provided with a connector (41). The nozzle (5) is movably snapped onto the connector (41); A guide rail (6) is mounted on the device carrier (1); The support arm (7) is movably latched onto the guide rail (6) and is used to support the connector (41); The lifting unit (8) is mounted on the guide rail (6) and is used to adjust the height of the support arm (7).

2. The anti-corrosion coating device for steel structure components according to claim 1, characterized in that, The lifting unit (8) includes: The lifting platform (81) is slidably connected to the guide rail (6); A first motor (82) is mounted on the device carrier (1); A lead screw (83) is located at the output end of the first motor (82) and threadedly connected to the lifting platform (81).

3. The anti-corrosion coating device for steel structure components according to claim 2, characterized in that, The lifting platform (81) is provided with a transverse unit (9) for adjusting the position of the support arm (7), the transverse unit (9) comprising: A limiting seat (91) is provided on the lifting platform (81); The adjustment platform (92) is movable and snapped onto the limiting seat (91) and is used to support the support arm (7).

4. The anti-corrosion coating device for steel structure components according to claim 3, characterized in that, The support arm (7) is provided with a second threaded joint (72), which is threadedly connected to the adjustment table (92).

5. The anti-corrosion coating device for steel structure components according to claim 3, characterized in that, The limiting seat (91) is fixedly connected to a second motor (93) on its side. The output end of the second motor (93) is provided with a bidirectional screw (94), which is threadedly connected to the adjusting table (92).

6. The anti-corrosion coating device for steel structure components according to claim 1, characterized in that, The support arm (7) is provided with a first threaded opening (71), which is threadedly connected to the connector (41).

7. The anti-corrosion coating device for steel structure components according to claim 1, characterized in that, The nozzle (5) is provided with a third threaded opening (51), which is threadedly connected to the connector (41).

8. The anti-corrosion coating device for steel structure components according to claim 1, characterized in that, The device carrier (1) is equipped with casters (11) and a push handle (12).

9. The anti-corrosion coating device for steel structure components according to claim 1, characterized in that, The anti-corrosion paint container (2) is provided with a bracket (31) for mounting the pump body (3).