An apparatus for producing an aqueous anticorrosive paint
By designing a sliding pin and clamping plate structure for automatically clamping containers, the problem of cumbersome operation of existing water-based anti-corrosion coating filling devices has been solved, achieving the effects of simplified operation and improved filling efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG DINGTAI NEW MATERIALS CO LTD
- Filing Date
- 2025-08-29
- Publication Date
- 2026-06-26
AI Technical Summary
Existing water-based anti-corrosion coating filling equipment is cumbersome to operate, requiring separate container movement and clamping, which reduces filling efficiency.
A water-based anti-corrosion coating production equipment was designed. It uses a rotating component to drive the placement platform to rotate intermittently. Combined with the sliding pin and the groove structure of the clamping plate, it realizes the automatic clamping and releasing of the container, simplifying the operation process.
The automatic container clamping system simplifies the filling process, improves filling efficiency, reduces unnecessary movement and clamping steps, and enhances work efficiency.
Smart Images

Figure CN224409833U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of water-based anti-corrosion coating production technology, and relates to a water-based anti-corrosion coating production equipment. Background Technology
[0002] Water-based anti-corrosion coatings are a type of anti-corrosion coating that uses water as the main solvent. They are widely used in heavy-duty anti-corrosion fields such as infrastructure construction, oil and gas power, shipbuilding, and chemical industry. The production of water-based anti-corrosion coatings includes steps such as raw material premixing, grinding and refining, resin emulsion blending, paint mixing and quality inspection, filtration and filling. Filling involves filling the water-based anti-corrosion coating into containers and sealing them for easy storage and transportation.
[0003] A coating filling device for water-based coating production disclosed in Chinese patent CN220010288U has several mounting plates installed on the bottom side of a turntable. A lifting plate is movably mounted on the mounting plates. A pneumatic cylinder is installed on the bottom side of the mounting plates. The lifting plate is installed on the telescopic end of the pneumatic cylinder. The operation of the pneumatic cylinder drives the lifting plate to move up and down. The lifting plate corresponds to the limiting groove. A support arm is installed on the base. A filling head is installed on the support arm. A filling cover is installed on the outside of the filling head. A baffle is installed on the support arm.
[0004] When filling, the filling device requires rotating the turntable to align the lifting plate with the filling head, and then operating the air pump to fix the limiting block to the filling cylinder. This process involves moving and fixing the tank separately, which is quite cumbersome.
[0005] The UV coating production and filling device disclosed in Chinese patent CN217893436U includes a filling device body, a base at the bottom of the filling device body, a support plate fixedly connected to the upper surface of the base, a controller fixedly connected to one side of the support plate, a filling mechanism fixedly connected to the front of the support plate, and a clamping mechanism fixedly connected to the upper surface of the base. The clamping mechanism includes a fixing plate, and the bottom surface of the fixing plate is fixedly connected to the upper surface of the base.
[0006] When using this filling device, a hydraulic telescopic rod is operated to clamp and fix the filling container before filling. After filling, the filled container needs to be disassembled and then re-fixed before the next filling can be carried out. The repeated disassembly and assembly increases the working time and reduces the filling efficiency.
[0007] To address the aforementioned problems, this utility model proposes a water-based anti-corrosion coating production equipment. Utility Model Content
[0008] To address the problems existing in the background technology, this utility model proposes a water-based anti-corrosion coating production equipment.
[0009] To achieve the above objectives, the technical solution adopted by this utility model is as follows: it includes a mounting base, a fixed platform is fixedly connected to the top of the mounting base, a placement platform is rotatably provided on the top of the fixed platform, and a rotating component is provided on the mounting base, which drives the placement platform to rotate intermittently.
[0010] The top of the placement platform is evenly provided with several placement slots. Inside the placement platform, two sliding frames are symmetrically and horizontally slidably arranged at each placement slot. The two sliding frames are respectively provided with clamping plates on the side that is close to each other by springs.
[0011] Each sliding frame is fixedly connected to a sliding pin at its bottom. The top surface of the fixed platform has two annular sliding grooves, and the two sliding pins located in the same placement groove are slidably connected in the two sliding grooves respectively.
[0012] Furthermore, the two slides are a first slide and a second slide, the second slide is located inside the first slide, and the second slide is scaled proportionally with respect to the first slide;
[0013] The first and second slide grooves are both composed of a first arc segment, a second arc segment, and a third arc segment. When two sliding pins located in the same placement groove slide through the first arc segment, the second arc segment, and the third arc segment in sequence, the distance between the two sliding pins gradually decreases.
[0014] A filling head is installed at a height that moves up and down directly above the end of the third arc segment, which is close to the first arc segment.
[0015] Furthermore, the rotating assembly includes a motor, which is fixedly connected to the bottom of the mounting base. A semi-circular turntable is fixedly connected to the output end of the motor, a connecting rod is fixedly connected to the top of the output end of the motor, and a cylindrical push block is fixedly connected to the bottom of the connecting rod away from the turntable.
[0016] A first rotating shaft is coaxially fixed through the middle of the placement platform. The first rotating shaft is vertically arranged, and its bottom rotates through the fixed platform. A grooved wheel is coaxially fixedly connected to the bottom end of the first rotating shaft. Several first slots and several second slots are evenly opened on the outer surface of the grooved wheel. The number of first slots and second slots is equal, and the first slot is located between two adjacent second slots. The push block is slidably disposed in the second slot, and the turntable is rotatably disposed in the first slot.
[0017] Furthermore, each of the placement slots has two symmetrically provided limiting slots at its bottom, and two sliding frames are slidably connected to the two limiting slots respectively. The spring is located inside the sliding frame, with one end of the spring fixedly connected to the inner wall of the sliding frame and the other end of the spring fixedly connected to one side of the clamping plate. The sliding pin slides through the bottom surface of the limiting slot.
[0018] Each of the two clamping plates in the placement slot has a V-shaped limiting plate fixedly connected to its adjacent side, and the corresponding two limiting plates have a rubber layer on their adjacent sides.
[0019] Furthermore, a C-shaped mounting plate is fixedly connected to the outer surface of the fixed platform, and an electric push rod is fixedly connected to the top of the mounting plate. The telescopic end of the electric push rod slides through the top of the mounting plate, and the filling head is fixedly connected to the bottom of the telescopic end of the electric push rod.
[0020] A water-based anti-corrosion coating production equipment includes a mounting base, a fixed platform fixedly connected to the top of the mounting base, a placement platform rotatably mounted on the top of the fixed platform, and a rotating component on the mounting base, which drives the placement platform to rotate intermittently.
[0021] The top of the placement platform is evenly provided with several placement slots, and the bottom of each placement slot is rotatably provided with three sets of clamping members.
[0022] The fixed platform is equipped with a first driving component and a second driving component. When the platform rotates, the first driving component drives three sets of clamping components to rotate in opposite directions, and the second driving component drives three sets of clamping components to rotate in opposite directions. A filling head is provided above the first driving component near the end of the second driving component.
[0023] Furthermore, the rotating assembly includes a motor, which is fixedly connected to the bottom of the mounting base. A semi-circular turntable is fixedly connected to the output end of the motor, a connecting rod is fixedly connected to the top of the output end of the motor, and a cylindrical push block is fixedly connected to the bottom of the connecting rod away from the turntable.
[0024] A first rotating shaft is coaxially fixed through the middle of the placement platform. The first rotating shaft is vertically arranged, and its bottom rotates through the fixed platform. A grooved wheel is coaxially fixedly connected to the bottom end of the first rotating shaft. Several first slots and several second slots are evenly opened on the outer surface of the grooved wheel. The number of first slots and second slots is equal, and the first slot is located between two adjacent second slots. The push block is slidably disposed in the second slot, and the turntable is rotatably disposed in the first slot.
[0025] Furthermore, six connecting plates are fixedly connected to the bottom surface of the placement platform at each placement slot, with each pair of connecting plates forming a group, and a second rotating shaft rotatably connecting the two connecting plates in each group;
[0026] Each set of clamping components includes two L-shaped push plates, the ends of which are respectively rotatably sleeved on the two ends of the same second rotating shaft. Each second rotating shaft is provided with two push plates, and the end of the push plate away from the second rotating shaft slides through the bottom surface of the placement groove.
[0027] Each of the two ends of the second rotating shaft is fitted with a torsion spring. One end of the torsion spring is fixedly connected to the second rotating shaft, and the other end of the torsion spring is fixedly connected to one side of the corresponding push plate.
[0028] Furthermore, the first driving member includes a first rack, and the second driving member includes a second rack. Both the first rack and the second rack are arranged in an arc shape, and both the first rack and the second rack are fixedly connected to the top of the fixed platform.
[0029] Each of the placement slots is rotatably connected to a worm gear at its bottom, and a worm wheel is fixedly sleeved in the middle of each of the second rotating shafts, with the worm wheel meshing with the corresponding worm gear;
[0030] A gear is fixedly connected to the bottom end of the worm gear, and the gear meshes with the first rack and the second rack.
[0031] Furthermore, a C-shaped mounting plate is fixedly connected to the outer surface of the fixed platform, and an electric push rod is fixedly connected to the top of the mounting plate. The telescopic end of the electric push rod slides through the top of the mounting plate, and the filling head is fixedly connected to the bottom of the telescopic end of the electric push rod.
[0032] Compared with the prior art, the present invention has the following beneficial effects:
[0033] 1. The water-based anti-corrosion coating production equipment is equipped with a first chute and a second chute. In use, the container to be filled is placed inside the placement chute and positioned between two clamping plates. The placement platform is driven to rotate by the rotating component, which moves the sliding frame. One sliding pin slides in the first chute and the other sliding pin slides in the second chute. When sliding to the third arc section, the two sliding pins approach each other and cause the two sliding frames to slide towards each other, so that the two clamping plates cooperate to clamp the container. This allows the container to be clamped during the movement of the container without the need for separate moving and clamping operations, making the operation simple.
[0034] 2. The water-based anti-corrosion coating production equipment is equipped with a push plate. When the rotating component drives the placement table to rotate, the placement table drives the push plate to move. The first rack drives the gear to rotate, causing the worm, worm wheel, and second rotating shaft to rotate. The second rotating shaft pulls the push plate to rotate through the torsion spring, so that the end of the push plate abuts against the outer surface of the container, thereby fixing the container. This allows the container to be clamped during the movement of the container, eliminating the need for separate moving and clamping operations, making the operation simple.
[0035] 3. The water-based anti-corrosion coating production equipment is equipped with a first chute and a second chute, and both the first chute and the second chute are composed of a first arc segment, a second arc segment, and a third arc segment. The clamping plate is automatically moved during the rotation of the placement table by the sliding pin, thereby automatically clamping and releasing the container, which facilitates continuous filling work and improves filling efficiency.
[0036] 4. The water-based anti-corrosion coating production equipment is equipped with a first rack and a second rack. When the placement platform drives the push plate to rotate, the first rack drives several push plates in the same placement slot to rotate in opposite directions to clamp the container. The second rack drives several push plates in the same placement slot to rotate in opposite directions to leave the container. This allows the container to be automatically clamped and released during the rotation process, which facilitates continuous filling and improves filling efficiency. Attached Figure Description
[0037] Figure 1 This is a three-dimensional structural schematic diagram of Embodiment 1 of this utility model;
[0038] Figure 2 This is a cross-sectional view of Embodiment 1 of this utility model;
[0039] Figure 3 This is a schematic diagram of the structure of the fixed platform in Embodiment 1 of this utility model;
[0040] Figure 4 This is a schematic diagram of the structure of the fixed platform in Embodiment 2 of this utility model;
[0041] Figure 5 This is a utility model Figure 4 Enlarged structural diagram of section A in the middle.
[0042] In the diagram: 1. Mounting base; 2. Fixing platform; 3. Slide groove; 31. First slide groove; 32. Second slide groove; 4. Motor; 5. Turntable; 6. Connecting rod; 7. Grooved wheel; 71. First slot; 72. Second slot; 8. First rotating shaft; 9. Placement platform; 10. Placement groove; 11. Sliding pin; 12. Sliding frame; 13. Spring; 14. Clamping plate; 15. Mounting plate; 16. Electric push rod; 17. Filling head; 18. Worm gear; 19. Worm wheel; 20. Connecting plate; 21. Second rotating shaft; 22. Push plate; 23. First rack; 24. Second rack; 25. Push block; 26. Gear. Detailed Implementation
[0043] 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.
[0044] Example 1: As Figures 1-3As shown, the technical solution adopted by this utility model is as follows: A water-based anti-corrosion coating production equipment includes a mounting base 1, a fixed platform 2 fixedly connected to the top of the mounting base 1, and a placement platform 9 rotatably mounted on the top of the fixed platform 2. A rotating component is provided on the mounting base 1, and the rotating component drives the placement platform 9 to rotate intermittently.
[0045] The rotating assembly includes a motor 4, which is fixedly connected to the bottom of the mounting base 1. A semi-circular turntable 5 is fixedly connected to the output end of the motor 4, and a connecting rod 6 is fixedly connected to the top of the output end of the motor 4. The connecting rod 6 is located on top of the turntable 5, and the motor 4 drives the turntable 5 and the connecting rod 6 to rotate together. A cylindrical push block 25 is fixedly connected to the bottom of the connecting rod 6 away from the turntable 5.
[0046] A first rotating shaft 8 is coaxially fixed through the middle of the placement platform 9, and the first rotating shaft 8 is vertically arranged. The bottom of the first rotating shaft 8 rotates through the fixed platform 2. The placement platform 9 is positioned on the top of the fixed platform 2 by the first rotating shaft 8.
[0047] A grooved wheel 7 is coaxially fixedly connected to the bottom end of the first rotating shaft 8. The outer surface of the grooved wheel 7 is evenly provided with several first slots 71 and several second slots 72. The number of first slots 71 and second slots 72 is equal, and the first slots 71 are located between two adjacent second slots 72. The first slots 71 are arc-shaped, and their shape is adapted to the turntable 5. The second slots 72 are straight slots, and their end faces are arc-shaped.
[0048] The push block 25 is slidably disposed within the second slot 72. When the output shaft of the motor 4 drives the push block 25 to rotate, the push block 25 moves into the second slot 72, thereby pushing the inner wall of the second slot 72 to rotate the grooved wheel 7. The turntable 5 is rotatably disposed within the first slot 71. The output shaft of the motor 4 drives the turntable 5 to rotate within the first slot 71, positioning the grooved wheel 7.
[0049] The top of the placement platform 9 is evenly provided with several placement slots 10. Inside the placement platform 9, two sliding frames 12 are symmetrically and horizontally slidably arranged at each placement slot 10. On the side of the two corresponding sliding frames 12 that are close to each other, a clamping plate 14 is slidably arranged via a spring 13. When the sliding frame 12 moves, it will drive the clamping plate 14 to move via the spring 13.
[0050] Each placement slot 10 has two symmetrically positioned limiting slots at its bottom, and two sliding frames 12 are slidably connected to the two limiting slots respectively. The limiting slots position the sliding frames 12 within the placement slot 10.
[0051] Spring 13 is located inside sliding frame 12. One end of spring 13 is fixedly connected to the inner wall of sliding frame 12, and the other end of spring 13 is fixedly connected to one side of clamping plate 14. In the initial state, spring 13 pushes one end of clamping plate 14 to extend outside sliding frame 12.
[0052] Each of the two clamping plates 14 in each placement slot 10 has a V-shaped limiting plate fixedly connected to its adjacent side, and the adjacent sides of the corresponding two limiting plates are provided with a rubber layer. This allows the clamping plates 14 to fix the filling container through the limiting plates, and the rubber layer has an anti-slip function.
[0053] Each sliding frame 12 is fixedly connected to a sliding pin 11 at its bottom, and the sliding pin 11 slides through the bottom surface of the limiting groove.
[0054] The top surface of the fixed platform 2 has two annular grooves 3, and two sliding pins 11 located in the same placement groove 10 are slidably connected in the two grooves 3 respectively. When the placement platform 9 rotates, it will drive the sliding pins 11 to slide in the corresponding grooves 3.
[0055] The two slides 3 are the first slide 31 and the second slide 32. The second slide 32 is located inside the first slide 31, and the second slide 32 is scaled proportionally with respect to the first slide 31.
[0056] Both the first slide groove 31 and the second slide groove 32 are composed of a first arc-shaped segment, a second arc-shaped segment, and a third arc-shaped segment. The centers of the first arc-shaped segment, the second arc-shaped segment, and the third arc-shaped segment do not coincide. When two sliding pins 11 located in the same placement groove 10 slide sequentially through the first arc-shaped segment, the second arc-shaped segment, and the third arc-shaped segment, the distance between the two sliding pins 11 gradually decreases. The sliding pins 11 will move along the layout direction of the slide groove 3.
[0057] A filling head 17 is installed above the end of the third arc segment, which is closer to the first arc segment. As the two sliding pins 11 move closer together when they slide to the third arc segment, the distance between the two sliding frames 12 is minimized, thereby clamping the container for filling with the clamping plate 14 and filling the container with water-based anti-corrosion coating at the clamping point.
[0058] A C-shaped mounting plate 15 is fixedly connected to the outer surface of the fixed platform 2, and an electric push rod 16 is fixedly connected to the top of the mounting plate 15. The telescopic end of the electric push rod 16 slides through the top of the mounting plate 15, and the filling head 17 is fixedly connected to the bottom of the telescopic end of the electric push rod 16. The filling head 17 is driven downward by the electric push rod 16 to perform filling. A pipe for conveying water-based anti-corrosion coating is connected to the filling head 17, and the pipe is a telescopic flexible hose.
[0059] Working principle:
[0060] In use, the container to be filled is placed in the placement groove 10 located directly above the first arc segment. As the two sliding pins 11 within the same placement groove 10 slide sequentially through the first, second, and third arc segments, the distance between them gradually decreases. Therefore, the distance between the two sliding pins 11 is greatest when both are located on the first arc segment. This ensures the container is positioned between the two clamping plates 14 within the placement groove 10.
[0061] Start motor 4. The output shaft of motor 4 drives turntable 5, connecting rod 6, and push block 25 to rotate. After turntable 5 rotates away from the first slot 71, push block 25 moves into the second slot 72. Then push block 25 pushes the inner wall of the second slot 72, causing the grooved wheel 7 to rotate.
[0062] After the pusher block 25 rotates away from the second slot 72, the turntable 5 will rotate into the first slot 71, thereby positioning the grooved wheel 7. At this time, the grooved wheel 7 will not rotate, thus achieving intermittent rotation of the grooved wheel 7.
[0063] The grooved wheel 7 drives the first rotating shaft 8 to rotate, causing the placement platform 9 to rotate. This causes the container in the placement groove 10 to move, causing the sliding pin 11 to slide on the first arc segment, and then the sliding pin 11 to slide on the second and third arc segments.
[0064] When the sliding pin 11 slides to the second and third arc segments, the second and third arc segments drive the two sliding pins 11 to move closer together. The sliding pins 11 drive the sliding frame 12 to move, and the sliding frame 12 slides within the limiting groove. The sliding frame 12 drives the spring 13 and the clamping plate 14 to move, causing the two clamping plates 14 to move closer together.
[0065] After the limiting plate at the end of the clamping plate 14 contacts the container, the clamping plate 14 can no longer move. Continued movement of the sliding frame 12 compresses the spring 13, which exerts a pushing force on the clamping plate 14, thereby pressing the limiting plate against the surface of the container. Thus, the container is clamped and fixed in place by the cooperation of the two clamping plates 14.
[0066] Since the filling head 17 is located directly above the end of the third arc segment near the first arc segment, the clamping plate 14 clamps the container after the container is moved directly below the filling head 17.
[0067] Activate the electric push rod 16; the telescopic end of the electric push rod 16 pushes the filling head 17 downward. Move the filling head 17 to the inside of the top of the container, and fill the container with the water-based anti-corrosion coating.
[0068] After filling is completed, the telescopic end of the electric push rod 16 pulls the filling head 17 upward, removing the filling head 17 from the container. Then, the placement platform 9 continues to rotate, moving the sliding pin 11 onto the first arc segment.
[0069] The first arc segment drives the two sliding pins 11 to move away from each other, and the sliding pins 11 drive the sliding frame 12 to move. As the spring 13 is compressed, the sliding frame 12 drives one end of the spring 13 to move, so that the clamping plate 14 continues to abut against the container.
[0070] After spring 13 returns to its initial state, sliding frame 12 moves spring 13 and clamping plate 14 together. This allows clamping plate 14 to release the container, making it easier to remove and place a new container.
[0071] Example 2: Figures 4-5 As shown, a water-based anti-corrosion coating production equipment includes a mounting base 1, a fixed platform 2 fixedly connected to the top of the mounting base 1, and a placement platform 9 rotatably mounted on the top of the fixed platform 2.
[0072] The mounting base 1 is equipped with a rotating component, which drives the placement platform 9 to rotate intermittently.
[0073] The rotating assembly includes a motor 4, which is fixedly connected to the bottom of the mounting base 1. A semi-circular turntable 5 is fixedly connected to the output end of the motor 4, and a connecting rod 6 is fixedly connected to the top of the output end of the motor 4. A cylindrical push block 25 is fixedly connected to the bottom of the connecting rod 6 away from the turntable 5. This causes the motor 4 to drive the turntable 5, connecting rod 6, and push block 25 to rotate.
[0074] A first rotating shaft 8 is coaxially fixed through the middle of the placement platform 9. The first rotating shaft 8 is vertically arranged, and its bottom rotates through the fixed platform 2. The placement platform 9 is positioned on the top of the fixed platform 2 by means of the first rotating shaft 8.
[0075] A grooved wheel 7 is coaxially fixedly connected to the bottom end of the first rotating shaft 8. The outer surface of the grooved wheel 7 is evenly provided with several first slots 71 and several second slots 72. The number of first slots 71 and second slots 72 is equal, and the first slots 71 are located between two adjacent second slots 72. A push block 25 is slidably disposed within a second slot 72, and a turntable 5 is rotatably disposed within a first slot 71. When the turntable 5 is located within a first slot 71, it positions the grooved wheel 7.
[0076] The top of the placement platform 9 is evenly provided with several placement slots 10, and the bottom of each placement slot 10 is rotatably provided with three sets of clamping parts.
[0077] Six connecting plates 20 are fixedly connected to the bottom surface of the placement platform 9 at each placement slot 10, with every two connecting plates 20 forming a group. A second rotating shaft 21 is rotatably connected between the two connecting plates 20 in each group. The three groups of connecting plates 20 and the three second rotating shafts 21 are arranged in a circular array about the placement slot 10.
[0078] Each clamping assembly includes two L-shaped push plates 22, with the ends of the two push plates 22 rotatably fitted onto the two ends of the same second rotating shaft 21. Each second rotating shaft 21 is equipped with two push plates 22, with the end of the push plate 22 away from the second rotating shaft 21 sliding through the bottom surface of the placement groove 10. The end of the push plate 22 away from the second rotating shaft 21 is an arc surface, facilitating rotation of the push plate 22 into the placement groove 10 to position the container.
[0079] Each of the two ends of the second rotating shaft 21 is fitted with a torsion spring. One end of the torsion spring is fixedly connected to the second rotating shaft 21, and the other end of the torsion spring is fixedly connected to one side of the corresponding push plate 22. When the second rotating shaft 21 rotates, it will pull the push plate 22 to move through the torsion spring.
[0080] The fixed platform 2 is internally equipped with a first driving component and a second driving component. When the placement platform 9 rotates, the first driving component drives the three sets of clamping components to rotate in opposite directions, and the second driving component drives the three sets of clamping components to rotate in opposite directions.
[0081] The first driving component includes a first rack 23, with teeth on the first rack 23 located on a side away from the outer surface of the fixed platform 2. The second driving component includes a second rack 24, with teeth on the second rack 24 located on a side close to the outer surface of the fixed platform 2. Both the first rack 23 and the second rack 24 are arc-shaped, and both the first rack 23 and the second rack 24 are fixedly connected to the top of the fixed platform 2.
[0082] Each placement slot 10 has a worm gear 18 rotatably connected to its bottom, and the worm gear 18 is vertically arranged. Each second rotating shaft 21 has a worm wheel 19 fixedly sleeved in the middle, and the worm wheel 19 meshes with the corresponding worm gear 18. This allows the three worm wheels 19 located in the same placement slot 10 to mesh with the same worm gear 18, so that the push plates 22 on the three second rotating shafts 21 can rotate synchronously.
[0083] A gear 26 is fixedly connected to the bottom end of the worm 18, and the gear 26 meshes with the first rack 23 and the second rack 24. When the platform 9 moves the worm 18, the first rack 23 and the second rack 24 drive the gear 26 to rotate, causing the worm 18 to rotate.
[0084] A filling head 17 is positioned vertically above the end of the first drive member closest to the second drive member, such that the filling head 17 is located at the top of the clamping part of the container.
[0085] A C-shaped mounting plate 15 is fixedly connected to the outer surface of the fixed platform 2, and an electric push rod 16 is fixedly connected to the top of the mounting plate 15. The telescopic end of the electric push rod 16 slides through the top of the mounting plate 15, and the filling head 17 is fixedly connected to the bottom of the telescopic end of the electric push rod 16. The filling head 17 is driven to move up and down by the electric push rod 16. A pipe for conveying water-based anti-corrosion coating is connected to the filling head 17, and the pipe is a telescopic flexible hose.
[0086] Working principle:
[0087] In use, the container to be filled is placed in the placement slot 10 at the end of the second rack 24 away from the first rack 23. The container will be located between the ends of the six push plates 22 that extend into the placement slot 10.
[0088] Start motor 4. The output shaft of motor 4 drives turntable 5, connecting rod 6, and push block 25 to rotate. After turntable 5 rotates away from the first slot 71, push block 25 moves into the second slot 72. Then push block 25 pushes the inner wall of the second slot 72, causing the grooved wheel 7 to rotate.
[0089] After the pusher block 25 rotates away from the second slot 72, the turntable 5 will rotate into the first slot 71, thereby positioning the grooved wheel 7. At this time, the grooved wheel 7 will not rotate, thus achieving intermittent rotation of the grooved wheel 7.
[0090] The grooved wheel 7 drives the first rotating shaft 8 to rotate, causing the placement platform 9 to rotate. This causes the container in the placement groove 10 to move, which in turn moves the worm gear 18, gear 26, and worm wheel 19.
[0091] The worm 18 moves to the first rack 23, which drives the gear 26 to rotate in the first direction, causing the worm 18 to rotate. The worm 18 drives the worm wheel 19 to rotate, and the worm wheel 19 drives the second shaft 21 to rotate.
[0092] The second rotating shaft 21 drives the push plate 22 to rotate via a torsion spring, causing the end of the push plate 22 away from the second rotating shaft 21 to extend into the placement groove 10.
[0093] When the end of the push plate 22 contacts the outer surface of the container, the push plate 22 can no longer rotate. The continued rotation of the second rotating shaft 21 will drive the torsion spring to twist, and the torsion spring will exert a torsional force on the push plate 22, thereby pressing the end of the push plate 22 against the outer surface of the container and fixing the container.
[0094] Since the filling head 17 is located directly above the end of the first drive member that is close to the second drive member, when the container moves directly below the filling head 17, the push plate 22 is in a clamping state on the container.
[0095] Activate the electric push rod 16; the telescopic end of the electric push rod 16 pushes the filling head 17 downward. Move the filling head 17 to the inside of the top of the container, and fill the container with the water-based anti-corrosion coating.
[0096] After filling is complete, the telescopic end of the electric push rod 16 pulls the filling head 17 upward, removing it from the container. Then, the placement platform 9 continues to rotate, causing the gear 26 to disengage from the first rack 23. The worm gear 18 stops rotating.
[0097] The worm 18 then moves to the second rack 24, which drives the gear 26 to rotate in the second direction, causing the worm 18 to rotate. The worm 18 then drives the worm wheel 19 to rotate, which in turn drives the second shaft 21 to rotate.
[0098] The second rotating shaft 21 pulls one end of the torsion spring, which, being in a torsional state, continues to press the end of the push plate 22 against the container. After the torsion spring returns to its initial state, it rotates the push plate 22, causing its end to move away from the container. This allows the container to be removed and facilitates the placement of a new container.
[0099] Although the present invention 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 the present invention should be included within the protection scope of the present invention.
Claims
1. A water-based anti-corrosion coating production equipment, characterized in that, Includes a mounting base (1), the top of which is fixedly connected to a fixed platform (2), and a placement platform (9) is rotatably mounted on the top of the fixed platform (2). A rotating component is provided on the mounting base (1), and the rotating component drives the placement platform (9) to rotate intermittently. The top of the placement platform (9) is evenly provided with several placement slots (10). Inside the placement platform (9), two sliding frames (12) are symmetrically and horizontally slidably arranged at each placement slot (10). The two sliding frames (12) are slidably arranged with clamping plates (14) on the side that is close to each other by springs (13). Each sliding frame (12) is fixedly connected to a sliding pin (11) at its bottom. The top surface of the fixed platform (2) has two annular grooves (3). The two sliding pins (11) located in the same placement groove (10) are slidably connected in the two grooves (3).
2. The water-based anti-corrosion coating production equipment according to claim 1, characterized in that: The two slides (3) are a first slide (31) and a second slide (32), respectively. The second slide (32) is located inside the first slide (31), and the second slide (32) is scaled proportionally with respect to the first slide (31). The first slide groove (31) and the second slide groove (32) are both composed of a first arc segment, a second arc segment and a third arc segment. When the two sliding pins (11) located in the same placement groove (10) slide through the first arc segment, the second arc segment and the third arc segment in sequence, the distance between the two sliding pins (11) gradually decreases. A filling head (17) is installed above the third arc segment, which is close to the end of the first arc segment.
3. The water-based anti-corrosion coating production equipment according to claim 1, characterized in that: The rotating assembly includes a motor (4), which is fixedly connected to the bottom of the mounting base (1). A semi-circular turntable (5) is fixedly connected to the output end of the motor (4). A connecting rod (6) is fixedly connected to the top of the output end of the motor (4). A cylindrical push block (25) is fixedly connected to the bottom of the end of the connecting rod (6) away from the turntable (5). The middle of the placement platform (9) is coaxially fixed with a first rotating shaft (8). The first rotating shaft (8) is vertically arranged. The bottom of the first rotating shaft (8) rotates through the fixed platform (2). The bottom end of the first rotating shaft (8) is coaxially fixedly connected with a grooved wheel (7). The outer surface of the grooved wheel (7) is evenly provided with a number of first slots (71) and a number of second slots (72). The number of first slots (71) and second slots (72) is equal, and the first slot (71) is located between two adjacent second slots (72). The push block (25) is slidably disposed in the second slot (72), and the turntable (5) is rotatably disposed in the first slot (71).
4. The water-based anti-corrosion coating production equipment according to claim 1, characterized in that: Two limiting grooves are symmetrically opened at the bottom of each of the placement slots (10). Two sliding frames (12) are slidably connected in the two limiting grooves respectively. The spring (13) is located inside the sliding frame (12). One end of the spring (13) is fixedly connected to the inner wall of the sliding frame (12), and the other end of the spring (13) is fixedly connected to one side of the clamping plate (14). The sliding pin (11) slides through the bottom surface of the limiting groove. Each of the two clamping plates (14) in each placement slot (10) has a V-shaped limiting plate fixedly connected to the side of the two clamping plates that are close to each other, and the side of the two limiting plates that are close to each other is provided with a rubber layer.
5. The water-based anti-corrosion coating production equipment according to claim 2, characterized in that: A C-shaped mounting plate (15) is fixedly connected to the outer surface of the fixed platform (2). An electric push rod (16) is fixedly connected to the top of the mounting plate (15). The telescopic end of the electric push rod (16) slides through the top of the mounting plate (15). The filling head (17) is fixedly connected to the bottom of the telescopic end of the electric push rod (16).
6. A water-based anti-corrosion coating production equipment, characterized in that, Includes a mounting base (1), the top of which is fixedly connected to a fixed platform (2), and a placement platform (9) is rotatably mounted on the top of the fixed platform (2). A rotating component is provided on the mounting base (1), and the rotating component drives the placement platform (9) to rotate intermittently. The top of the placement platform (9) is evenly provided with several placement slots (10), and the bottom of each placement slot (10) is rotatably provided with three sets of clamping members. The fixed platform (2) is equipped with a first driving member and a second driving member. When the placement platform (9) rotates, the first driving member drives the three sets of clamping members to rotate in opposite directions, and the second driving member drives the three sets of clamping members to rotate in opposite directions. A filling head (17) is raised and lowered directly above the end of the first driving member that is close to the second driving member.
7. The water-based anti-corrosion coating production equipment according to claim 6, characterized in that: The rotating assembly includes a motor (4), which is fixedly connected to the bottom of the mounting base (1). A semi-circular turntable (5) is fixedly connected to the output end of the motor (4). A connecting rod (6) is fixedly connected to the top of the output end of the motor (4). A cylindrical push block (25) is fixedly connected to the bottom of the end of the connecting rod (6) away from the turntable (5). The middle of the placement platform (9) is coaxially fixed with a first rotating shaft (8). The first rotating shaft (8) is vertically arranged. The bottom of the first rotating shaft (8) rotates through the fixed platform (2). The bottom end of the first rotating shaft (8) is coaxially fixedly connected with a grooved wheel (7). The outer surface of the grooved wheel (7) is evenly provided with a number of first slots (71) and a number of second slots (72). The number of first slots (71) and second slots (72) is equal, and the first slot (71) is located between two adjacent second slots (72). The push block (25) is slidably disposed in the second slot (72), and the turntable (5) is rotatably disposed in the first slot (71).
8. The water-based anti-corrosion coating production equipment according to claim 6, characterized in that: The bottom surface of the placement platform (9) is fixedly connected to six connecting plates (20) at each placement slot (10). Every two connecting plates (20) form a group, and a second rotating shaft (21) is rotatably connected between the two connecting plates (20) in each group. Each set of clamping components includes two L-shaped push plates (22), the ends of the two push plates (22) are respectively rotatably sleeved on the two ends of the same second rotating shaft (21), and each second rotating shaft (21) is provided with two push plates (22), the end of the push plate (22) away from the second rotating shaft (21) slides through the bottom surface of the placement groove (10); Each of the two ends of the second rotating shaft (21) is fitted with a torsion spring. One end of the torsion spring is fixedly connected to the second rotating shaft (21), and the other end of the torsion spring is fixedly connected to one side of the corresponding push plate (22).
9. The water-based anti-corrosion coating production equipment according to claim 8, characterized in that: The first driving component includes a first rack (23), and the second driving component includes a second rack (24). Both the first rack (23) and the second rack (24) are arranged in an arc shape, and both the first rack (23) and the second rack (24) are fixedly connected to the top of the fixed platform (2). Each of the placement slots (10) is rotatably connected to a worm (18) at its bottom, and a worm wheel (19) is fixedly sleeved in the middle of each of the second rotating shafts (21), with the worm wheel (19) meshing with the corresponding worm (18). The bottom end of the worm (18) is fixedly connected to a gear (26), which meshes with the first rack (23) and the second rack (24).
10. The water-based anti-corrosion coating production equipment according to claim 6, characterized in that: A C-shaped mounting plate (15) is fixedly connected to the outer surface of the fixed platform (2). An electric push rod (16) is fixedly connected to the top of the mounting plate (15). The telescopic end of the electric push rod (16) slides through the top of the mounting plate (15). The filling head (17) is fixedly connected to the bottom of the telescopic end of the electric push rod (16).