Waterproof and anticorrosive coating construction device
By incorporating a top support and a movable component into the waterproof and anti-corrosion coating application device, the pipe can be flipped and the clamping components replaced, solving the problem of the spray gun being unable to access the bottom of the pipe and improving spraying efficiency and device maintenance efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI JINZHUO CONSTR ENG CO LTD
- Filing Date
- 2025-07-16
- Publication Date
- 2026-06-26
Smart Images

Figure CN224405458U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of waterproof and anti-corrosion coating technology, and in particular to a waterproof and anti-corrosion coating application device. Background Technology
[0002] Waterproof and anti-corrosion coating application equipment refers to specialized equipment or tools used for applying, spraying, or brushing waterproof and anti-corrosion coatings, designed to ensure uniform coverage, strong adhesion, and to achieve the desired effect.
[0003] The patent with publication number CN222035337U mentions a waterproof and anti-corrosion coating application device.
[0004] The device includes an operating table, with clamping and fixing assemblies on both sides of its top. Each clamping and fixing assembly includes a clamping block and a bidirectional screw. The bidirectional screw is inserted into the clamping block, with a first bearing at one end and a first handle at the other. Two sets of first moving blocks are symmetrically arranged on the surface of the bidirectional screw, and each first moving block has a first threaded hole at its bottom. In this invention, when spraying a pipe, the pipe can be placed on the surface of the clamping block, and then the first handle can be rotated to rotate the bidirectional screw, causing both sets of clamps to move inward simultaneously. This allows for clamping and fixing pipes of different sizes, avoiding the problem of existing clamping devices being unable to fix pipes of different sizes.
[0005] Although the existing device can clamp and fix pipes of different sizes, it creates a physical obstacle under the pipe during actual operation, making it impossible for the spray gun to approach and thus affecting the normal spraying.
[0006] Therefore, this solution provides a waterproof and anti-corrosion coating application device to solve the above problems. Utility Model Content
[0007] The purpose of this utility model is to provide a waterproof and anti-corrosion coating application device to solve the problem that although the existing device can clamp and fix pipes of different sizes, it creates a physical obstacle under the pipe during actual operation, making it impossible for the spray gun to approach and thus affecting the normal spraying.
[0008] To solve the above-mentioned technical problems, the basic technical solution proposed by this utility model is as follows:
[0009] A waterproof and anti-corrosion coating application device includes a machine tool. The machine tool has a groove, in which a first movable component is installed. A first top support and a second top support are sequentially installed on the first movable component. The first top support and the second top support are sequentially installed on the end face of the machine tool away from the first movable component. The second movable component is located between the first and the second top support. The second movable component has symmetrically arranged movable parts, and clamping parts are installed on the movable parts.
[0010] The top support component includes a mounting frame and an electric push rod. Connecting blocks are installed at both ends of the electric push rod. A rotating shaft is fixedly installed inside the connecting block. The rotating shaft is rotatably mounted on the mounting frame.
[0011] The top support component two includes a mounting frame three and a fixing frame. A rotating shaft two is fixedly mounted on the fixing frame, and the rotating shaft two is rotatably mounted on the mounting frame three.
[0012] Preferably, the moving component includes a motor, which is mounted on the side wall of the machine tool. The power output shaft of the motor penetrates the outer wall of the machine tool and extends into the interior of the machine tool. A one-way threaded rod is mounted on the power output shaft of the motor, and a moving block is threadedly connected to the one-way threaded rod. The left and right side walls of the moving block are in contact with the inner side walls of the groove, respectively.
[0013] Preferably, one of the mounting frames is disposed on the end face of the movable block one, and the fixing frame is disposed on the end face of the movable block one.
[0014] Preferably, a mounting frame 2 is provided on the side of the end face of the machine tool away from the moving component 1, and a fixing frame is provided on the side of the end face of the machine tool close to the mounting frame 2.
[0015] Preferably, the second movable component includes a first mounting frame, the bottom surface of which is connected to a third mounting frame, and the bottom surface of the first mounting frame is connected to the second mounting frame.
[0016] Motor 2 is installed on the side wall of the mounting frame 1. The power output shaft of motor 2 passes through the outer wall of the mounting frame 1 and extends into the interior of the mounting frame 1. A bidirectional threaded rod is connected to the end of the power output shaft of motor 2. Two moving parts are symmetrically threaded onto the bidirectional threaded rod.
[0017] Preferably, the movable component includes two movable blocks, two movable blocks are symmetrically threaded on a bidirectional threaded rod, each movable block has a snap-fit groove at one end, and two snap-fit grooves are respectively provided on the side of each of the two snap-fit grooves that are close to each other. The two snap-fit grooves are staggered and communicate with the outside. Insertion blocks are respectively installed on the side of each of the two movable blocks that are close to each other. The two insertion blocks are staggered.
[0018] A clamping element is engaged in the first snap-fit slot.
[0019] Preferably, the clamping member includes a clamping frame, a mounting plate is mounted on the bottom surface of the clamping frame, a mounting groove is provided on the side wall of the mounting plate, a spring is installed in the inner cavity of the mounting groove, and a limit block is connected to the side of the spring away from the mounting groove;
[0020] The mounting plate is snapped into slot one, and the limiting block is snapped into slot two.
[0021] The beneficial effects of this utility model are:
[0022] I. By setting up top support component one and top support component two, the above structures cooperate with each other during the use of the device to facilitate the flipping of the clamped pipe, thereby changing the direction of the pipe and avoiding affecting the normal spraying of the pipe.
[0023] I. By setting up a movable component, a clamping component, and a movable component, this utility model achieves the effect of easily replacing deformed clamping components through the cooperation between the above structures during the use of the device, thereby further improving the maintenance efficiency of the device. Attached Figure Description
[0024] Figure 1 This is one of the perspective views of this utility model;
[0025] Figure 2 This is a second perspective view of the present invention;
[0026] Figure 3 This is a schematic diagram of the structure of the top support component two in this utility model;
[0027] Figure 4 This is a schematic diagram of the structure of the movable block two in this utility model;
[0028] Figure 5 This is a schematic diagram of the clamping component in this utility model.
[0029] Explanation of reference numerals in the attached drawings: 1. Machine tool; 2. Control panel; 3. Moving component one; 301. Motor one; 302. One-way threaded rod; 303. Moving block one; 4. Moving component two; 401. Mounting frame one; 402. Motor two; 403. Two-way threaded rod; 5. Clamping component; 501. Clamping frame; 502. Mounting plate; 503. Mounting groove; 504. Spring; 505. Limiting block; 6. Groove; 7. Moving component; 701. Moving block two; 702. Snap-fit groove one; 703. Snap-fit groove two; 704. Insertion block; 8. Top support component one; 801. Mounting frame two; 802. Rotating shaft one; 803. Connecting block; 804. Electric push rod; 9. Top support component two; 901. Mounting frame three; 902. Rotating shaft two; 903. Fixed frame. Detailed Implementation
[0030] Please refer to the following. Figures 1 to 5 As shown, the technical solutions in the embodiments of this utility model are clearly and completely described. Obviously, the described embodiments are only a part of the embodiments of this utility model, and not all of them. Based on the embodiments of this utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of this utility model.
[0031] It should be noted that, in the embodiments of this utility model, the directions shown in the accompanying drawings shall prevail, such as front and back. Figure 1 For the sake of accuracy, the specific details should be as follows: Figure 1 The left side is the front. Figure 1 The right side is the rear; at the same time, as Figure 2 As shown, the horizontal direction is roughly defined as left and right, and the vertical direction is defined as up and down. If a specific orientation changes, the directional indication will also change accordingly.
[0032] This utility model provides a waterproof and anti-corrosion coating construction device, including a machine tool 1. The machine tool 1 has a groove 6, and a moving component 3 is installed in the groove 6. A top support 8 and a top support 9 are installed sequentially on the moving component 3. The top support 8 and the top support 9 are installed sequentially on the end face of the machine tool 1 away from the moving component 3. A moving component 4 is provided between the top support 9 and the top support 8. Moving components 7 are symmetrically arranged in the moving component 4. A clamping component 5 is installed on the moving component 7.
[0033] The top support component 8 includes a mounting frame 801 and an electric push rod 804. Connecting blocks 803 are installed at both ends of the electric push rod 804. A rotating shaft 802 is fixedly installed inside the connecting block 803. The rotating shaft 802 is rotatably mounted on the mounting frame 801.
[0034] The top support component 29 includes a mounting frame 3 901 and a fixing bracket 903. A rotating shaft 2 902 is fixedly mounted on the fixing bracket 903, and the rotating shaft 2 902 is rotatably mounted on the mounting frame 3 901.
[0035] In this example, the pipe is sprayed. During the spraying process, the two electric push rods 804 are started by the control panel 2. Then, the electric push rods 804 drive the moving component 2 4 and the mounting frame 3 901 to rotate around the rotating shaft 2 902, thereby changing the display direction of the pipe, which makes it easier to spray the pipe and improves the efficiency of spraying.
[0036] Furthermore, a control panel 2 is installed on the side wall of the machine tool 1. The control panel 2 contains a control module that synchronously controls the two electric push rods.
[0037] In a further embodiment, the moving component 3 includes a motor 301. The motor 301 is mounted on the side wall of the machine tool 1. The power output shaft of the motor 301 passes through the outer wall of the machine tool 1 and extends into the interior of the machine tool 1. A one-way threaded rod 302 is mounted on the power output shaft of the motor 301. A moving block 303 is threadedly connected to the one-way threaded rod 302. The left and right side walls of the moving block 303 are in contact with the inner side walls of the groove 6, respectively.
[0038] In this embodiment, the position between the moving block 303 and the two moving components 4 is adjusted by starting the motor 301 to drive the one-way threaded rod 302 to rotate, thereby facilitating the clamping of pipes of different lengths.
[0039] In a further embodiment, a second mounting frame 801 is disposed on the end face of the first moving block 303, and a fixing frame 903 is disposed on the end face of the first moving block 303; the end face of the machine tool 1 is provided with the second mounting frame 801 on the side away from the first moving component 3, and the end face of the machine tool 1 is provided with the fixing frame 903 on the side close to the second mounting frame 801; the second moving component 4 includes a first mounting frame 401, the bottom surface of the first mounting frame 401 is connected to the third mounting frame 901, and the bottom surface of the first mounting frame 401 is connected to the second mounting frame 801.
[0040] Motor 2 402 is installed on the side wall of mounting frame 1 401. The power output shaft of motor 2 402 passes through the outer wall of mounting frame 1 401 and extends into the interior of mounting frame 1 401. The end of the power output shaft of motor 2 402 is connected to a bidirectional threaded rod 403. Two moving parts 7 are symmetrically threaded onto the bidirectional threaded rod 403.
[0041] In this embodiment, during the use of the device, the pipe to be processed is placed between two clamping frames 501, and then the motor 402 is started to drive the bidirectional threaded rod 403 to rotate, and then the pipe is clamped between two adjacent clamping frames 501.
[0042] In a further embodiment, the movable component 7 includes a second movable block 701. The two second movable blocks 701 are symmetrically threaded on the bidirectional threaded rod 403. The end of the second movable block 701 is provided with a first snap-fit groove 702. The two first snap-fit grooves 702 are respectively provided with a second snap-fit groove 703 on the side close to each other. The two second snap-fit grooves 703 are staggered and communicate with the outside. The two second movable blocks 701 are respectively installed with a plug-in block 704 on the side close to each other. The two plug-in blocks 704 are staggered.
[0043] The 702 slot is fitted with a clamping component 5;
[0044] In this embodiment, when the clamping frame 501 deforms after long-term use, the second motor 402 is started to drive the bidirectional threaded rod 403 to rotate. Subsequently, the two moving blocks 701 will move closer to each other. Then, the plug-in blocks 704 on the moving blocks 701 will be cross-inserted into the interlocking slots 703 and abut against the limiting block 505, compressing the limiting block 505 into the mounting slot 503. This releases the limiting block 505 from restricting the positional relationship between the mounting plate 502 and the moving block 701, making it easier to replace the entire clamping component 5.
[0045] When installing the new clamping component 5, manually press the limiting block 505 into the mounting slot 503, and then insert the mounting plate 502 into the first snap-fit slot 702. When the limiting block 505 corresponds to the second snap-fit slot 703, the limiting block 505 will snap into the second snap-fit slot 703 under the action of the spring 504, thereby limiting the position between the clamping component 5 and the moving component 7.
[0046] In a further embodiment, the clamping member 5 includes a clamping frame 501, a mounting plate 502 is mounted on the bottom surface of the clamping frame 501, a mounting groove 503 is provided on the side wall of the mounting plate 502, a spring 504 is installed in the inner cavity of the mounting groove 503, and a limit block 505 is connected to the side of the spring 504 away from the mounting groove 503.
[0047] Mounting plate 502 is snapped into slot 1 702, and limit block 505 is snapped into slot 2 703.
[0048] The working principle of this utility model is as follows: During the use of the device, the pipe to be processed is placed between two clamping frames 501, and then the motor 402 is started to drive the bidirectional threaded rod 403 to rotate, and then the pipe is clamped between two adjacent clamping frames 501.
[0049] The pipes are then sprayed. During the spraying process, the two electric push rods 804 are activated by the control panel 2. The electric push rods 804 then drive the moving component 2 4 and the mounting frame 3 901 to rotate around the rotating shaft 2 902, thereby changing the display direction of the pipes, which facilitates the spraying of the pipes and improves the efficiency of the spraying.
[0050] Based on the disclosure and teachings of the above specification, those skilled in the art can make changes and modifications to the above embodiments. Therefore, this utility model is not limited to the specific embodiments disclosed and described above, and some modifications and changes to this utility model should also fall within the protection scope of the claims of this utility model. Furthermore, although some specific terms are used in this specification, these terms are only for convenience of explanation and do not constitute any limitation on this utility model.
Claims
1. A waterproof and anti-corrosion coating application device, comprising a machine tool (1), characterized in that, The machine tool (1) has a groove (6) and a moving component (3) is installed in the groove (6). A top support (8) and a top support (9) are installed sequentially on the moving component (3). A top support (8) and a top support (9) are installed sequentially on the end face of the machine tool (1) away from the moving component (3). A moving component (4) is provided between the top support (9) and the top support (8). A moving component (7) is symmetrically arranged in the moving component (4). A clamping component (5) is installed on the moving component (7). The top support component (8) includes a mounting frame (801) and an electric push rod (804). Connecting blocks (803) are respectively installed at both ends of the electric push rod (804). A rotating shaft (802) is fixedly installed inside the connecting block (803). The rotating shaft (802) is rotatably mounted on the mounting frame (801). The top support component 2 (9) includes a mounting frame 3 (901) and a fixing frame (903). A rotating shaft 2 (902) is fixedly mounted on the fixing frame (903), and the rotating shaft 2 (902) is rotatably mounted on the mounting frame 3 (901).
2. The waterproof and anti-corrosion coating application device according to claim 1, characterized in that: The moving component 1 (3) includes a motor 1 (301). The motor 1 (301) is installed on the side wall of the machine tool (1). The power output shaft of the motor 1 (301) passes through the outer wall of the machine tool (1) and extends into the interior of the machine tool (1). A one-way threaded rod (302) is installed on the power output shaft of the motor 1 (301). A moving block 1 (303) is threadedly connected to the one-way threaded rod (302). The left and right side walls of the moving block 1 (303) respectively contact the inner side walls of the groove (6).
3. The waterproof and anti-corrosion coating application device according to claim 2, characterized in that: A mounting frame two (801) is disposed on the end face of the movable block one (303), and the fixing frame (903) is disposed on the end face of the movable block one (303).
4. The waterproof and anti-corrosion coating application device according to claim 1, characterized in that: The end face of the machine tool (1) away from the moving component (3) is provided with a mounting frame (801), and the end face of the machine tool (1) near the mounting frame (801) is provided with a fixing frame (903).
5. The waterproof and anti-corrosion coating application device according to claim 1, characterized in that: The second movable component (4) includes a first mounting frame (401), the bottom surface of which is connected to a third mounting frame (901), and the bottom surface of the first mounting frame (401) is connected to the second mounting frame (801). A second motor (402) is installed on the side wall of the first mounting frame (401). The power output shaft of the second motor (402) passes through the outer wall of the first mounting frame (401) and extends into the interior of the first mounting frame (401). A bidirectional threaded rod (403) is connected to the end of the power output shaft of the second motor (402). Two moving parts (7) are symmetrically threaded onto the bidirectional threaded rod (403).
6. The waterproof and anti-corrosion coating application device according to claim 5, characterized in that: The movable component (7) includes two movable blocks (701), which are symmetrically threaded on a bidirectional threaded rod (403). Each movable block (701) has a snap-fit groove (702) at one end. The two snap-fit grooves (702) are respectively provided with snap-fit grooves (703) on the side close to each other. The two snap-fit grooves (703) are staggered and communicate with the outside. The two movable blocks (701) are respectively installed with plug-in blocks (704) on the side close to each other. The two plug-in blocks (704) are staggered. A clamping member (5) is clamped in the first (702) of the snap-fit slot.
7. The waterproof and anti-corrosion coating application device according to claim 6, characterized in that: The clamping member (5) includes a clamping frame (501), a mounting plate (502) is mounted on the bottom surface of the clamping frame (501), a mounting groove (503) is provided on the side wall of the mounting plate (502), a spring (504) is installed in the inner cavity of the mounting groove (503), and a limit block (505) is connected to the side of the spring (504) away from the mounting groove (503); The mounting plate (502) is snapped into the first snap-fit groove (702), and the limiting block (505) is snapped into the second snap-fit groove (703).