A device for preparing a viscous paint

By designing a viscous pigment preparation device, and utilizing the combination of rotary drive and cylinder-driven rotating tube and lifting plate, efficient mixing of viscous pigment with other raw materials was achieved, solving the problem of low mixing efficiency and improving work efficiency.

CN122273384APending Publication Date: 2026-06-26JIANGSU MEIBIAO HOME TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
JIANGSU MEIBIAO HOME TECH CO LTD
Filing Date
2026-04-09
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Thick pigments are difficult to mix with other raw materials, resulting in low work efficiency.

Method used

A device for preparing viscous pigments was designed. The device uses a rotary drive and a cylinder to drive a rotating tube and a lifting plate to achieve the stirring and injection of raw materials. Multiple channels are used to add raw materials simultaneously, and the flow of raw materials is controlled by a lifting ring and an arc plate to prevent backflow.

Benefits of technology

It improves the mixing efficiency of viscous pigments with other raw materials, reduces stirring time, and increases work efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention relates to the technical field of pigment preparation and discloses an apparatus for preparing viscous pigments, including a tank body. An annular plate is fixedly mounted on the tank body, and several L-shaped plates are fixedly mounted on the annular plate. Support rings are fixedly mounted on the L-shaped plates, and rotating plates are attached to both the upper and lower sides of the support rings. By placing the viscous raw material into the tank body, and then placing the raw material to be mixed with it into a circular box, the rotation drive and cylinder a are activated. This causes the circular plate to rotate via gears and racks, thereby driving a rotating tube, which in turn drives a long box to rotate for stirring. Simultaneously, cylinder a drives a lifting plate to move downwards, squeezing the internal raw material into the rotating tube. The raw material in the circular box then contacts the raw material in the tank body through a groove on the long box, allowing for the addition of raw material while stirring. Simultaneously injecting raw material through multiple grooves improves the mixing efficiency of the raw materials.
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Description

Technical Field

[0001] This invention relates to the technical field of pigment preparation, specifically to an apparatus for preparing viscous pigments. Background Technology

[0002] Pigments are substances that can color objects. Pigments can be soluble or insoluble, and can be inorganic or organic. Inorganic pigments are generally mineral-based substances. Humans have known how to use inorganic pigments for a long time, utilizing colored soil and minerals to paint on rock walls and apply to the body. Organic pigments are generally derived from plants and marine animals, such as indigo, gamboge, and the purple extracted from shellfish in ancient Rome. Some liquid pigments are quite viscous, making it difficult for other ingredients to penetrate when mixing them, thus making mixing and color blending time-consuming and laborious, affecting work efficiency. Summary of the Invention

[0003] To address the shortcomings of existing technologies, this invention provides a device for preparing viscous pigments, which has advantages such as improving the mixing efficiency of raw materials. It solves the problem that some liquid pigments are quite viscous, making it difficult for other raw materials to penetrate the viscous pigment when it is mixed with other materials, thus making the mixing and color matching process time-consuming, labor-intensive, and affecting work efficiency.

[0004] To achieve the aforementioned goal of improving the mixing efficiency of raw materials, the present invention provides the following technical solution: a viscous pigment preparation apparatus, comprising a tank, an annular plate fixedly mounted on the tank, several L-shaped plates fixedly mounted on the annular plate, support rings fixedly mounted on the several L-shaped plates, rotating plates attached to both the upper and lower sides of the support rings, rotating tubes fixedly passing through two rotating plates, the lower end of the rotating tubes sealed, a circular box fixedly connected to the upper end of the rotating tubes, a top cover fixedly mounted on the circular box, a mounting bracket a fixedly mounted on the top cover, and a cylinder a fixedly mounted on the mounting bracket a. The output shaft of cylinder a movably passes through the top cover. A lifting plate is movably connected inside the round box. A rubber ring is fixedly fitted on the lifting plate and fits against the inner side wall of the round box. A feed pipe is fixedly connected through the lifting plate and movably passes through the top cover. Six long boxes are fixedly connected to the rotating tube. Several through slots are opened on the upper wall of each long box. A round plate is fixedly fitted on the rotating tube. A rack is fixedly installed on the round plate. Gears are meshed on the rack. A mounting bracket b is fixedly installed on the ring plate. A rotary drive is fixedly installed on the mounting bracket b. The output shaft of the rotary drive is fixedly connected to the gear.

[0005] Preferably, a circular block is movably sleeved on the rotating tube, two limiting rings are fixedly sleeved on the circular block, a lifting ring is provided between the two limiting rings, the lifting ring is movably sleeved on the circular block, and two lifting bars are fixedly installed on the lifting ring.

[0006] Preferably, each of the two lifting bars is provided with a cylinder b, and each of the two cylinder b is fixedly mounted with a mounting bracket c. Both mounting brackets c are fixedly connected to the annular plate, and the lower ends of the output shafts of the two cylinders b are respectively fixedly connected to the upper side of the lifting bar.

[0007] Preferably, a lifting tube is fixedly installed on the lower side of the circular block. The lifting tube is movably sleeved on the rotating tube. Three rings are provided below the lifting tube. Two long plates are fixedly installed on each of the three rings. Vertical strips are fixedly installed on both sides of each long plate. Each vertical strip is respectively attached to both sides of each long box.

[0008] Preferably, two sets of arc-shaped plates are provided on the three rings, and the two sets of arc-shaped plates are fixedly connected to the three rings respectively. The uppermost ring among the three rings is fixedly connected to the lifting tube.

[0009] Preferably, a plurality of small rings are fixedly installed on the lower side of each of the long plates, a thin rod is fixedly installed inside each small ring, and a small block is fixedly installed at the lower end of each thin rod.

[0010] Preferably, each of the small blocks is fixedly installed with a fixing ring on its upper side, each fixing ring has four grooves, each groove has a short rod fixedly installed in it, each short rod has a movable strip movably sleeved on it, each small ring has several small slots, and each movable strip is movably connected to each small slot.

[0011] Compared with the prior art, the present invention provides an apparatus for preparing viscous pigments, which has the following beneficial effects: The apparatus for preparing this viscous pigment involves placing the viscous raw material into a container, then placing the raw material to be mixed into a circular box. Activating the rotary drive and cylinder a causes the circular plate to rotate via gears and racks, which in turn drives a rotating tube. This, in turn, causes the long box to rotate for stirring. Simultaneously, cylinder a moves a lifting plate downwards, forcing the internal raw material into the rotating tube. The raw material in the circular box then comes into contact with the raw material in the container through a channel on the long box. This allows for the addition of raw material while stirring, and the simultaneous injection of raw material through multiple channels improves the mixing efficiency.

[0012] The apparatus for preparing this viscous pigment uses two cylinders (b) to move a lifting bar up and down. This, in turn, moves a circular block up and down via a lifting ring and a limiting ring. This, in turn, moves a lifting pipe up and down, which in turn moves three circular rings up and down via two sets of arc plates. This, in turn, moves a long plate up and down. When injecting raw material into the round box into the tank, the long plate can be moved upward while blocking the feed pipe. This causes the lifting plate to move downward, squeezing the raw material into the tank. When it is necessary to replenish the raw material in the round box, the long plate can be moved downward to block the through slot. This allows the feed pipe to be opened and the lifting plate to be moved upward, preventing the raw material in the tank from being sucked into the round box. Thus, the raw material can be injected into the round box via the feed pipe.

[0013] The apparatus for preparing this viscous pigment allows for the simultaneous injection of raw materials into the container and stirring by moving the long plate upwards. This separation of the long plate from the container during stirring allows the long plate to be used to assist in the stirring process.

[0014] The apparatus for preparing viscous pigments can use small rings to block the passageway as the long plate moves downwards, thereby further preventing the raw materials in the tank from entering the long box through the passageway.

[0015] The apparatus for preparing viscous pigments works by simultaneously moving the small ring downwards, which in turn causes the fixed ring and the movable strip to move downwards. When the movable strip contacts the edge of the through groove, it rotates and moves upwards due to the squeezing force, thus allowing it to enter successfully. When the long plate moves upwards to stir, the movable strip moves upwards and separates from the through groove. As stirring progresses, the movable strip opens up to assist in stirring. Attached Figure Description

[0016] Figure 1 This is a frontal perspective view of the present invention; Figure 2 This is a three-dimensional structural diagram of the tank body of the present invention; Figure 3 This is a three-dimensional structural diagram of the tank body of the present invention; Figure 4 This is a three-dimensional structural diagram of the circular box of the present invention; Figure 5 This is a three-dimensional structural diagram of the rotation drive of the present invention; Figure 6 This is a three-dimensional structural diagram of the L-shaped plate of the present invention; Figure 7 This is a three-dimensional structural diagram of the rotating tube of the present invention; Figure 8 This is a cross-sectional perspective view of the three-dimensional structure of the long plate of the present invention; Figure 9 For the present invention Figure 8 A magnified schematic diagram of the partial structure at point A in the middle; Figure 10 This is a three-dimensional structural diagram of the small component of the present invention.

[0017] In the diagram: 1. Tank body; 2. Annular plate; 3. L-shaped plate; 4. Rack; 5. Circular plate; 6. Top cover; 7. Mounting bracket a; 8. Cylinder a; 9. Feed pipe; 10. Rotary drive; 11. Mounting bracket b; 12. Circular box; 13. Cylinder b; 14. Mounting bracket c; 15. Lifting bar; 16. Rotating plate; 17. Rotating tube; 18. Long plate; 19. Support ring; 20. Circular block; 21. Gear; 22. Lifting tube; 23. Lifting ring; 24. Limiting ring; 25. Vertical bar; 26. Circular ring; 27. Arc plate; 28. Through groove; 29. ​​Long box; 30. Small block; 31. Fixing ring; 32. Groove; 33. Thin rod; 34. Movable bar; 35. Small ring; 36. Short rod; 37. Rubber ring; 38. Lifting plate; 39. Small groove. Detailed Implementation

[0018] The present invention will be further described in detail below with reference to the accompanying drawings, wherein the same parts are indicated by the same reference numerals. It should be noted that the terms “front”, “rear”, “left”, “right”, “upper” and “lower”, “bottom surface” and “top surface” used in the following description refer to the directions in the drawings, and the terms “inner” and “outer” refer to the directions toward or away from the geometric center of a specific part, respectively.

[0019] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0020] Please see Figures 1-10The present invention provides a technical solution: a device for preparing viscous pigment, comprising a tank 1, an annular plate 2 fixedly mounted on the tank 1, several L-shaped plates 3 fixedly mounted on the annular plate 2, a support ring 19 fixedly mounted on the several L-shaped plates 3, rotating plates 16 attached to the upper and lower sides of the support ring 19, rotating tubes 17 fixedly passing through two rotating plates 16, the lower end of the rotating tubes 17 being sealed, a circular box 12 fixedly connected to the upper end of the rotating tubes 17, a top cover 6 fixedly mounted on the circular box 12, a mounting bracket a7 fixedly mounted on the top cover 6, a cylinder a8 fixedly mounted on the mounting bracket a7, the output shaft of the cylinder a8 movably passing through the top cover 6, a lifting plate 38 movably connected inside the circular box 12, a rubber ring 37 fixedly sleeved on the lifting plate 38, the rubber ring 37 and the circular box 12 being connected to the lifting plate 12. 2. The inner sidewall is fitted together. A feed pipe 9 is fixedly inserted through the lifting plate 38. The feed pipe 9 movably passes through the top cover 6. Six long boxes 29 are fixedly connected to the rotating pipe 17. Each long box 29 has several through slots 28 on its upper wall. A circular plate 5 is fixedly sleeved on the rotating pipe 17. A ring rack 4 is fixedly installed on the circular plate 5. A gear 21 is meshed on the rack 4. A mounting bracket b11 is fixedly installed on the ring plate 2. A rotary drive 10 is fixedly installed on the mounting bracket b11. The output shaft of the rotary drive 10 is fixedly connected to the gear 21. By putting the viscous raw material into the tank 1, and then placing the raw material to be mixed with it into the circular box 12, the rotary drive 10 and cylinder a8 are started. In this way, the circular plate 5 can be rotated by the gear 21 and the rack 4. The rotating tube 17 can be driven, which in turn drives the long box 29 to rotate for stirring. Simultaneously, the cylinder a8 moves the lifting plate 38 downwards, squeezing the internal raw materials into the rotating tube 17. Then, the raw materials in the round box 12 will contact the raw materials in the tank 1 through the through-slot 28 on the long box 29, allowing for the addition of raw materials while stirring. The simultaneous injection of raw materials through multiple through-slots 28 improves the mixing efficiency. A round block 20 is movably fitted onto the rotating tube 17, and two limiting rings 24 are fixedly fitted onto the round block 20. A lifting ring 23 is positioned between the two limiting rings 24, movably fitted onto the round block 20. Two lifting bars 15 are fixedly installed on the lifting ring 23, and each lifting bar 15 is equipped with a cylinder b13. Two cylinders b13 are each fixedly mounted with a mounting bracket c14, and both mounting brackets c14 are fixedly connected to the annular plate 2. The lower ends of the output shafts of the two cylinders b13 are fixedly connected to the upper side of the lifting bar 15. A lifting tube 22 is fixedly mounted on the lower side of the circular block 20. The lifting tube 22 is movably sleeved on the rotating tube 17. Three circular rings 26 are provided below the lifting tube 22. Two long plates 18 are fixedly mounted on each of the three circular rings 26. Vertical strips 25 are fixedly mounted on both sides of each long plate 18. Each vertical strip 25 is respectively attached to the sides of each long box 29. Two sets of arc plates 27 are provided on the three circular rings 26. The two sets of arc plates 27 are fixedly connected to the three circular rings 26 respectively. The uppermost circular ring 26 is fixedly connected to the lifting tube 22.By using two cylinders b13 to move the lifting bar 15 up and down, the lifting ring 23, in conjunction with the limiting ring 24, moves the round block 20 up and down. This, in turn, moves the lifting pipe 22 up and down, which in turn moves the three rings 26 up and down via two sets of arc plates 27. This, in turn, moves the long plate 18 up and down. Thus, when injecting raw materials into the round box 12 into the tank 1, the feed pipe 9 is blocked while the long plate 18 moves upward. This causes the lifting plate 38 to move downward, squeezing the raw materials into the tank 1. When replenishment is needed... When filling the round box 12 with raw materials, the long plate 18 can be moved downwards to block the through groove 28. This allows the lifting plate 38 to be moved upwards after opening the feed pipe 9, preventing the raw materials in the tank 1 from being sucked into the round box 12. Raw materials can then be injected into the round box 12 through the feed pipe 9. Moving the long plate 18 upwards allows for simultaneous injection and stirring of raw materials into the tank 1. During stirring, the long plate 18 separates from the long box 29, allowing the long plate 18 to assist in stirring. Each long plate 18 has a fixed installation on its lower side. There are several small rings 35, and a thin rod 33 is fixedly installed inside each small ring 35. A small block 30 is fixedly installed at the lower end of each thin rod 33. A fixing ring 31 is fixedly installed on the upper side of each small block 30. Each fixing ring 31 has four grooves 32. A short rod 36 is fixedly installed inside each groove 32. A movable strip 34 is movably sleeved on each short rod 36. Each small ring 35 has several small slots 39. Each movable strip 34 is movably connected to each small slot 39. The small rings 35 can be used to move along the long plate 18. When moving downwards, the small ring 35 enters the through groove 28 to block it, thereby further preventing the raw materials in tank 1 from entering the long box 29 through the through groove 28. Simultaneously, as the small ring 35 moves downwards, it drives the fixed ring 31 and the movable strip 34 downwards. When the movable strip 34 contacts the edge of the through groove 28, it rotates upwards due to the squeezing force, allowing it to enter successfully. When the long plate 18 moves upwards to stir, the movable strip 34 moves upwards and separates from the through groove 28. As stirring, the movable strip 34 opens to assist in stirring.

[0021] In use, the first step is to put the viscous raw material into the tank 1, and then place the raw material to be mixed into the round box 12. Start the rotary drive 10 and cylinder a8, so that the gear 21 and rack 4 drive the round plate 5 to rotate, which in turn drives the rotating tube 17, which in turn drives the long box 29 to rotate for stirring. At the same time, the cylinder a8 drives the lifting plate 38 to move downward and squeeze the raw material into the rotating tube 17. Then the raw material in the round box 12 will come into contact with the raw material in the tank 1 through the through groove 28 on the long box 29, so that raw material can be added while stirring. At the same time, the raw material is injected through multiple through grooves 28, which can improve the mixing efficiency of the raw material.

[0022] Step 2: By using two cylinders b13 to drive the lifting bar 15 to move up and down, the lifting ring 23, in conjunction with the limiting ring 24, can drive the round block 20 to move up and down. This, in turn, can drive the lifting pipe 22 to move up and down, which in turn can drive the three rings 26 to move up and down through the two sets of arc plates 27. This, in turn, can drive the long plate 18 to move up and down. Thus, when injecting raw materials into the round box 12 into the tank 1, the feed pipe 9 is blocked while the long plate 18 is moved upward. This causes the lifting plate 38 to move downward, squeezing the raw materials into the tank 1. When it is necessary to replenish the raw materials in the round box 12, the long plate 18 can be moved downward, thereby blocking the through groove 28. After opening the feed pipe 9, moving the lifting plate 38 upward can prevent the raw materials in the tank 1 from being sucked into the round box 12. This allows the raw materials to be injected into the round box 12 through the feed pipe 9. By moving the long plate 18 upward, the raw materials can be injected into the tank 1 while stirring. During stirring, the long plate 18 separates from the long box 29, thus allowing the long plate 18 to assist in stirring.

[0023] Step 3: When the long plate 18 moves downward, the small ring 35 can enter the through groove 28 to block it, thereby further preventing the raw materials in the tank 1 from entering the long box 29 through the through groove 28. At the same time, when the small ring 35 moves downward, it can drive the fixed ring 31 and the movable strip 34 to move downward. When the movable strip 34 contacts the edge of the through groove 28, it will rotate and move upward due to the squeezing force, thus allowing it to enter successfully. When the long plate 18 moves upward to stir, the movable strip 34 will move upward and separate from the through groove 28. Thus, as stirring, the movable strip 34 will open to assist in stirring.

[0024] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. An apparatus for preparing a viscous pigment, comprising a tank (1) and an annular plate (2) fixedly mounted on the tank (1), characterized in that: Several L-shaped plates (3) are fixedly installed on the annular plate (2). Support rings (19) are fixedly installed on the several L-shaped plates (3). Rotating plates (16) are attached to both the upper and lower sides of the support rings (19). Rotating tubes (17) are fixedly inserted through the two rotating plates (16). The lower end of the rotating tubes (17) is sealed. A round box (12) is fixedly connected to the upper end of the rotating tubes (17). A top cover (6) is fixedly installed on the round box (12). A mounting bracket a (7) is fixedly installed on the top cover (6). A cylinder a (8) is fixedly installed on the mounting bracket a (7). The output shaft of the cylinder a (8) movably passes through the top cover (6). A lifting plate (38) is movably connected inside the round box (12). A fixed sleeve is fitted on the lifting plate (38). A rubber ring (37) is attached to the inner wall of the round box (12). A feed pipe (9) is fixedly inserted through the lifting plate (38). The feed pipe (9) movably passes through the top cover (6). Six long boxes (29) are fixedly connected to the rotating tube (17). Several through slots (28) are opened on the upper wall of each long box (29). A round plate (5) is fixedly sleeved on the rotating tube (17). A rack (4) is fixedly installed on the round plate (5). A gear (21) is meshed on the rack (4). A mounting bracket b (11) is fixedly installed on the ring plate (2). A rotary drive (10) is fixedly installed on the mounting bracket b (11). The output shaft of the rotary drive (10) is fixedly connected to the gear (21).

2. The apparatus for preparing a viscous pigment according to claim 1, characterized in that: A circular block (20) is movably sleeved on the rotating tube (17). Two limiting rings (24) are fixedly sleeved on the circular block (20). A lifting ring (23) is provided between the two limiting rings (24). The lifting ring (23) is movably sleeved on the circular block (20). Two lifting bars (15) are fixedly installed on the lifting ring (23).

3. The apparatus for preparing a viscous pigment according to claim 2, characterized in that: Each of the two lifting bars (15) is equipped with a cylinder b (13), and each of the two cylinders b (13) is fixedly mounted with a mounting bracket c (14). Both mounting brackets c (14) are fixedly connected to the annular plate (2). The lower ends of the output shafts of the two cylinders b (13) are fixedly connected to the upper side of the lifting bar (15).

4. The apparatus for preparing a viscous pigment according to claim 2, characterized in that: A lifting tube (22) is fixedly installed on the lower side of the circular block (20). The lifting tube (22) is movably sleeved on the rotating tube (17). Three circular rings (26) are set below the lifting tube (22). Two long plates (18) are fixedly installed on each of the three circular rings (26). Vertical strips (25) are fixedly installed on both sides of each long plate (18). Each vertical strip (25) is attached to both sides of each long box (29).

5. The apparatus for preparing a viscous pigment according to claim 1, characterized in that: Two sets of arc plates (27) are provided on the three rings (26). The two sets of arc plates (27) are fixedly connected to the three rings (26) respectively. The uppermost ring (26) among the three rings (26) is fixedly connected to the lifting tube (22).

6. The apparatus for preparing a viscous pigment according to claim 1, characterized in that: Each of the long plates (18) has several small rings (35) fixedly installed on its lower side. Each small ring (35) has a thin rod (33) fixedly installed inside it. Each thin rod (33) has a small block (30) fixedly installed at its lower end.

7. The apparatus for preparing a viscous pigment according to claim 6, characterized in that: Each of the small blocks (30) is fixedly installed with a fixing ring (31) on its upper side. Each fixing ring (31) has four grooves (32) on it. Each groove (32) has a short rod (36) fixedly installed in it. Each short rod (36) has a movable strip (34) movably sleeved on it. Each small ring (35) has several small slots (39) on it. Each movable strip (34) is movably connected to each small slot (39).