A paint remover production mixing device

By incorporating a storage tank, a partition structure, and a stirring mechanism into the paint remover production mixing device, the problem of uneven manual feeding was solved, achieving quantitative feeding and uniform mixing, thus improving production quality and efficiency.

CN224462607UActive Publication Date: 2026-07-07SHAANXI MINE METAL SURFACE TREATMENT TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHAANXI MINE METAL SURFACE TREATMENT TECHNOLOGY CO LTD
Filing Date
2025-08-11
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In the production of paint remover, manual feeding leads to uneven paint addition, making it difficult to ensure that the amount added each time is the same, which affects the production quality.

Method used

Design a paint remover production mixing device. Multiple storage tanks are set above the mixing tank. The space inside the storage tanks is divided into independent sealed cavities by installing partitions. The number of sealed cavities in the discharge pipe is controlled by a rotating mechanism to achieve quantitative dispensing. The mixing efficiency is improved by combining a stirring mechanism.

Benefits of technology

It enables precise quantitative dispensing and uniform mixing of paint, improving the quality and efficiency of paint remover production.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224462607U_ABST
    Figure CN224462607U_ABST
Patent Text Reader

Abstract

The utility model discloses a paint remover production mixing device, specifically related to paint remover technical field, include: base, the top of base is provided with the fixing frame, and the top of base is located in the fixed frame and is equipped with the mixing jar, the bottom of mixing jar is provided with the discharge pipe, and is equipped with the stirring mechanism in mixing jar, the fixed column. The utility model discloses through setting multiple groups of storage barrels above the mixing jar, and multiple baffle plates are rotatably installed in the storage barrel, multiple baffle plates can divide the space of hemisphere and form adjacent independent sealed cavities, with the rotation of baffle plate, paint can be filled in each sealed cavity in turn, and then can make the sealed cavity drive filled paint gradually move to the discharge pipe and be discharged from the discharge pipe and be put into the mixing jar below, and the number of sealed cavities of discharge is controlled through rotation, thereby can realize the quantitative feeding of various paints, and the operation is simple and convenient, and the feeding is accurate and reliable, greatly guarantees the production mixing quality of paint remover.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of paint remover technology, specifically to a paint remover production and mixing device. Background Technology

[0002] Paint remover is a chemical product specifically designed to remove paint or coatings from the surface of various substrates. It removes the paint layer from the substrate surface through methods such as softening the paint film, chemical reaction, and liquid immersion. It is widely used in fields such as construction, furniture, automobiles, and ships, and has the advantages of high efficiency and convenience.

[0003] Currently, in the production process of paint remover, it is usually necessary to mix various paints and water together in a certain proportion. However, the paint is mostly added manually, and it is often added while mixing, which is a frequent process. Therefore, it is difficult to ensure that the amount added each time is the same, which can easily lead to too much or too little material being added, thus greatly affecting the production quality of paint remover. Utility Model Content

[0004] The purpose of this invention is to provide a paint remover production and mixing device. Multiple storage tanks are installed above the mixing tank, and multiple baffles are rotatably installed inside the storage tanks. These baffles divide the hemispherical space into adjacent, independent sealed cavities. As the baffles rotate, paint can be sequentially filled into each sealed cavity. The sealed cavities then move the filled paint towards the discharge pipe and discharge it into the mixing tank below. By controlling the number of sealed cavities for discharge through rotation, quantitative dispensing of various paints can be achieved. The operation is simple and convenient, and the dispensing is accurate and reliable, greatly ensuring the production and mixing quality of the paint remover, thus solving the aforementioned shortcomings in the technology.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a paint remover production mixing device, comprising:

[0006] The base has a fixed frame on its top, and a mixing tank is located inside the fixed frame on the top of the base. A discharge pipe is provided at the bottom of the mixing tank, and a stirring mechanism is provided inside the mixing tank.

[0007] A fixed column is rotatably connected to the middle of the inner top of the fixed frame via a bearing, and a turntable is fixed at the bottom of the fixed column near the top of the mixing tank. A rotating mechanism is provided at the top of the fixed column.

[0008] The turntable has multiple storage bins arranged in a circular array on its sidewall. Each storage bin has a discharge pipe on its bottom side and a hemispherical bottom. A connecting shaft is rotatably connected to the bottom of the storage bin. Multiple partitions are arranged in a circular array on the sidewall of the connecting shaft. The arc-shaped edge of the partition fits against the hemispherical inner wall of the storage bin. A second motor is fixedly connected to the sidewall of the storage bin via a bracket. The output end of the second motor is connected to the connecting shaft.

[0009] Preferably, the rotating mechanism includes a first motor fixedly connected to the top side of the fixed frame, a first gear fixed to the top of the fixed column, and a second gear meshing with the first gear connected to the output end of the first motor.

[0010] Preferably, the stirring mechanism includes a first rotating rod rotatably connected to the middle of the bottom side inside the mixing tank via bearings. Multiple first stirring rods are fixed to the side wall of the first rotating rod. Multiple second rotating rods are arranged in a circular array inside the bottom side of the mixing tank via bearings. Multiple second stirring rods are arranged on the side wall of the second rotating rods, and the second stirring rods and the first stirring rods are staggered. A transmission assembly is provided between the first rotating rod and the second rotating rod.

[0011] Preferably, the transmission assembly includes a support frame fixedly connected to the bottom side of the mixing tank, a third motor fixed in the middle of the bottom side of the support frame, the output end of the third motor extending into the support frame and connected to a drive gear, the bottom end of the first rotating rod extending out of the mixing tank and connected to the drive gear, and the bottom ends of a plurality of second rotating rods extending out of the mixing tank and provided with driven gears meshing with the drive gear.

[0012] Preferably, a hollow cavity is provided between the inner and outer sides of the mixing tank, and a heating wire is provided inside the hollow cavity.

[0013] Preferably, the fixing frame is provided with handles on both sides, and a reinforcing rib is provided between the fixing frame and the base.

[0014] The technical effects and advantages provided by this utility model in the above technical solution are as follows:

[0015] By setting multiple sets of storage tanks above the mixing tank, and installing multiple baffles inside the storage tanks, the hemispherical space can be divided into adjacent independent sealed cavities. As the baffles rotate, the paint can be filled into each sealed cavity in sequence. Then, the sealed cavity can move the filled paint to the discharge pipe and discharge it into the mixing tank below. By rotating to control the number of sealed cavities for discharge, the quantitative addition of various paints can be achieved. The operation is simple and convenient, and the addition is accurate and reliable, which greatly ensures the production and mixing quality of the paint remover.

[0016] By setting up a fixed column, a turntable, and a rotating mechanism, the rotating mechanism can drive the fixed column to rotate the turntable slowly, so that the turntable drives multiple sets of storage bins to rotate slowly above the mixing tank, thereby allowing the materials in the storage bins to be evenly fed into the mixing tank, and thus allowing the materials to be mixed together more quickly and evenly.

[0017] By arranging multiple sets of first and second stirring rods alternately inside the mixing tank, and with the cooperation of the transmission assembly, the first rotating rod drives the first stirring rod to rotate while multiple second rotating rods drive the second stirring rods to rotate inside the mixing tank. This allows for efficient and uniform mixing of the materials inside the mixing tank, greatly improving mixing efficiency. Attached Figure Description

[0018] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in this utility model. For those skilled in the art, other drawings can be obtained based on these drawings.

[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0020] Figure 2 This is a schematic diagram of the internal structure of the present invention;

[0021] Figure 3 This is a three-dimensional structural diagram of the mixing tank of this utility model, viewed from below.

[0022] Figure 4 This is a schematic diagram of the internal structure of the storage bin of this utility model;

[0023] Figure 5 This is a schematic diagram of the connection structure between the first gear and the second gear of this utility model.

[0024] Explanation of reference numerals in the attached figures:

[0025] 1. Base; 2. Fixing frame; 3. Mixing tank; 4. Discharge pipe; 5. Storage tank; 6. Outlet pipe; 7. Fixing column; 8. Turntable; 9. First gear; 10. Second gear; 11. First motor; 12. Connecting shaft; 13. Partition plate; 14. Second motor; 15. Support frame; 16. Third motor; 17. Drive gear; 18. Driven gear; 19. First rotating rod; 20. First stirring rod; 21. Second rotating rod; 22. Second stirring rod. Detailed Implementation

[0026] To enable those skilled in the art to better understand the technical solution of this utility model, the present utility model will be further described in detail below with reference to the accompanying drawings.

[0027] This utility model provides, for example Figures 1-5 The paint remover production mixing apparatus shown includes:

[0028] The base 1 has a fixed frame 2 on its top, and a mixing tank 3 is located inside the fixed frame 2. A discharge pipe 4 is located at the bottom of the mixing tank 3, and a stirring mechanism is located inside the mixing tank 3.

[0029] A hollow cavity is provided between the inner and outer sides of the mixing tank 3, and a heating wire is installed inside the hollow cavity. Based on this, the material inside the mixing tank 3 can be heated by the heating wire.

[0030] Handles are provided on both sides of the fixing frame 2, and reinforcing ribs are provided between the fixing frame 2 and the base 1. Based on this, the handles facilitate the handling of the device, and the reinforcing ribs greatly enhance the stability of the structure.

[0031] The stirring mechanism includes a first rotating rod 19 rotatably connected to the middle of the bottom side inside the mixing tank 3 via bearings. Multiple first stirring rods 20 are fixed to the side wall of the first rotating rod 19. Multiple second rotating rods 21 are arranged in a ring array inside the bottom side of the mixing tank 3 via bearings. Multiple second stirring rods 22 are arranged on the side wall of the second rotating rods 21, and the second stirring rods 22 and the first stirring rods 20 are staggered. A transmission assembly is provided between the first rotating rod 19 and the second rotating rods 21.

[0032] The transmission assembly includes a support frame 15 fixedly connected to the bottom side of the mixing tank 3. A third motor 16 is fixed in the middle of the bottom side of the support frame 15. The output end of the third motor 16 extends into the support frame 15 and is connected to a drive gear 17. The bottom end of the first rotating rod 19 extends out of the mixing tank 3 and is connected to the drive gear 17. The bottom ends of multiple second rotating rods 21 all extend out of the mixing tank 3 and are provided with driven gears 18 that mesh with the drive gear 17.

[0033] By starting the third motor 16, the third motor 16 can drive the drive gear 17 to rotate. The drive gear 17 can drive the first rotating rod 19 to rotate, causing the first rotating rod 19 to drive multiple sets of first stirring rods 20 to rotate inside the mixing tank 3. At the same time, the drive gear 17 can drive multiple driven gears 18 to rotate synchronously, causing the driven gears 18 to drive the second rotating rod 21 to rotate. Then, the second rotating rod 21 can drive the second stirring rod 22 to rotate inside the mixing tank 3. The multiple sets of second stirring rods 22 are staggered with the first stirring rods 20, thereby efficiently and uniformly stirring the materials inside the mixing tank 3, greatly improving the mixing efficiency.

[0034] The fixed column 7 is rotatably connected to the middle of the inner top of the fixed frame 2 via a bearing, and the bottom of the fixed column 7 is fixed with a turntable 8 near the top of the mixing tank 3. The top of the fixed column 7 is provided with a rotating mechanism.

[0035] The rotating mechanism includes a first motor 11 fixedly connected to the top side of the fixed frame 2, a first gear 9 fixed to the top of the fixed column 7, and a second gear 10 meshing with the first gear 9 connected to the output end of the first motor 11.

[0036] By starting the first motor 11, the first motor 11 can drive the first gear 9 to rotate, and then the first gear 9 can drive the second gear 10 to rotate. The second gear 10 can then drive the turntable 8 to rotate slowly through the fixed column 7. After that, the turntable 8 can drive multiple sets of storage bins 5 to rotate slowly above the mixing tank 3, so that the materials in the storage bins 5 can be evenly put into the mixing tank 3, and the materials can be mixed together more quickly and evenly.

[0037] The sidewall of the turntable 8 is arranged in a circular array with multiple storage bins 5. The bottom of the storage bins 5 is provided with a discharge pipe 6, and the bottom of the storage bins 5 is a hemispherical structure. The bottom of the storage bins 5 is rotatably connected to a connecting shaft 12. The sidewall of the connecting shaft 12 is arranged in a circular array with multiple partitions 13. The arc-shaped edge of the partition 13 fits against the hemispherical inner wall of the storage bins 5. The sidewall of the storage bins 5 is fixedly connected to a second motor 14 by a bracket. The output end of the second motor 14 is connected to the connecting shaft 12.

[0038] By setting multiple storage tanks 5 above the mixing tank 3, different paints can be stored in the storage tanks 5 respectively. When in use, the second motor 14 can be started to drive the connecting shaft 12 to rotate. Then the connecting shaft 12 can drive multiple partitions 13 to rotate at the hemispherical bottom of the storage tank 5. The multiple partitions 13 can divide the hemispherical space into adjacent independent sealed cavities. As it rotates, the paint can be filled into each sealed cavity in turn, and the sealed cavity will move the filled paint to the discharge pipe 6. After the discharge pipe 6 is opened by the control valve, the paint in the sealed cavity can be discharged and fall into the mixing tank 3 below. Then the materials can be stirred and mixed together. By controlling the number of sealed cavities for discharge by rotation, the quantitative addition of various paints can be achieved. The operation is simple and convenient, and the addition is accurate and reliable, which greatly ensures the production and mixing quality of the paint remover.

[0039] The foregoing description only illustrates certain exemplary embodiments of the present invention. Undoubtedly, those skilled in the art can modify the described embodiments in various ways without departing from the spirit and scope of the present invention. Therefore, the above drawings and descriptions are illustrative in nature and should not be construed as limiting the scope of protection of the claims of the present invention.

Claims

1. A paint remover production mixing apparatus, characterized in that, include: The base (1) is provided with a fixed frame (2) on the top of the base (1), and a mixing tank (3) is provided inside the fixed frame (2) on the top of the base (1). A discharge pipe (4) is provided at the bottom of the mixing tank (3), and a stirring mechanism is provided inside the mixing tank (3). A fixed column (7) is rotatably connected to the middle of the inner top of the fixed frame (2) by a bearing, and a turntable (8) is fixed at the bottom of the fixed column (7) near the top of the mixing tank (3). A rotating mechanism is provided at the top of the fixed column (7). The turntable (8) has multiple storage bins (5) arranged in a ring array on its side wall. The storage bins (5) have discharge pipes (6) arranged on their bottom side. The bottom of the storage bins (5) has a hemispherical structure. The bottom of the storage bins (5) is rotatably connected to a connecting shaft (12). The side wall of the connecting shaft (12) has multiple partitions (13) arranged in a ring array. The arc-shaped edge of the partition (13) fits against the hemispherical inner wall of the storage bins (5). The side wall of the storage bins (5) is fixedly connected to a second motor (14) by a bracket. The output end of the second motor (14) is connected to the connecting shaft (12).

2. The paint remover production mixing device according to claim 1, characterized in that: The rotating mechanism includes a first motor (11) fixedly connected to the top side of the fixed frame (2), a first gear (9) fixed to the top of the fixed column (7), and a second gear (10) meshing with the first gear (9) connected to the output end of the first motor (11).

3. The paint remover production mixing device according to claim 1, characterized in that: The stirring mechanism includes a first rotating rod (19) rotatably connected to the middle of the bottom side inside the mixing tank (3) via bearings. Multiple first stirring rods (20) are fixed on the side wall of the first rotating rod (19). Multiple second rotating rods (21) are arranged in a ring array inside the bottom side of the mixing tank (3) via bearings. Multiple second stirring rods (22) are arranged on the side wall of the second rotating rods (21). The second stirring rods (22) and the first stirring rods (20) are staggered. A transmission assembly is provided between the first rotating rod (19) and the second rotating rods (21).

4. The paint remover production mixing device according to claim 3, characterized in that: The transmission assembly includes a support frame (15) fixedly connected to the bottom side of the mixing tank (3). A third motor (16) is fixed in the middle of the bottom side of the support frame (15). The output end of the third motor (16) extends into the support frame (15) and is connected to a drive gear (17). The bottom end of the first rotating rod (19) extends out of the mixing tank (3) and is connected to the drive gear (17). The bottom ends of a plurality of second rotating rods (21) extend out of the mixing tank (3) and are provided with driven gears (18) that mesh with the drive gear (17).

5. The paint remover production mixing device according to claim 1, characterized in that: A hollow cavity is provided between the inner and outer sides of the mixing tank (3), and a heating wire is provided inside the hollow cavity.

6. The paint remover production mixing apparatus according to claim 1, characterized in that: The fixing frame (2) is provided with handles on both sides, and a reinforcing rib is provided between the fixing frame (2) and the base (1).