Uniformly mixable multi-paste dispensing device

By introducing a conical sleeve and impeller mixing structure into the multi-slurry delivery device, the problem of uneven slurry mixing is solved by utilizing high-strength shear force and axial thrust, thus achieving consistent quality and efficient delivery of multiple slurries.

CN224345715UActive Publication Date: 2026-06-12BAOTUO PAPER MASCH ENG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BAOTUO PAPER MASCH ENG CO LTD
Filing Date
2025-06-12
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

In existing multi-slurry delivery devices, all pipelines are connected to the tank from above during operation, resulting in uneven mixing of slurries, affecting the consistency of multi-slurry quality, and making it difficult to improve processing quality.

Method used

The multi-slurry delivery device, which adopts a cone sleeve and impeller mixing structure, uses the design of the slurry distribution main pipe and connecting branch pipes to generate high-intensity shear force and axial thrust by the mixing impeller to ensure uniform slurry mixing. Combined with the cone sleeve to restrict the slurry in a specific area, it achieves efficient mixing.

Benefits of technology

It significantly improves the quality and efficiency of multi-slurry delivery, ensures the uniform dispersion of high-viscosity slurries, guarantees the quality consistency of multi-slurry, and achieves precise delivery through electromechanical integration.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224345715U_ABST
Patent Text Reader

Abstract

The utility model relates to the field of slurry distribution, especially uniform mixing's multiple slurry distribution device, including having pool body, still including having slurry distribution main, the inner surface fixed mounting of pool body has the taper sleeve, the surface of pool body is located the inside of taper sleeve and is equipped with the agitator interface, the inside fixed mounting of agitator interface has the sealing connecting plate, the sealing connecting plate is fixed mounting and has the support frame, and the end fixed mounting of support frame away from sealing connecting plate has the protective sleeve box, the utility model discloses through the design of slurry distribution main collocation connection branch pipe structure instead of all pipeline from above access pool body mode, utilize integrated high -efficient mixing and accurate delivery technology, the quality and efficiency of industrial production are significantly improved, through the taper sleeve to the slurry of many branch pipes input carries out the regional limit of certain degree, mixes and stirs multiple slurry with the cooperation agitator, make several slurry mix evenly, further guarantee the consistency of multiple slurry quality, significantly improve slurry processing efficiency and quality.
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Description

Technical Field

[0001] This utility model relates to the field of slurry delivery, and in particular to a multi-slurry delivery device capable of uniformly mixing materials. Background Technology

[0002] Slurry distribution refers to a specialized supply chain activity that transports specific slurries to the place of use on demand through a logistics system. Its core is to achieve efficient and accurate supply of slurries. Slurry distribution is essentially a customized logistics solution based on the characteristics of slurries, which needs to simultaneously solve transportation efficiency, material stability and end-use preparation requirements. Slurry distribution pipelines are a special pipeline network used for conveying, mixing and distributing slurries in the slurry distribution system. Slurry distribution pipelines are essentially a customized conveying system based on the rheological characteristics of slurries to achieve efficient distribution.

[0003] Currently, when multi-slurry delivery devices are in operation, the pipelines are usually directly connected to the tank. This method, in which all pipelines are connected to the tank from above, makes it difficult to ensure the uniform mixing of several slurries, further affecting the consistency of multi-slurry quality and hindering the improvement of multi-slurry delivery processing quality.

[0004] Therefore, to address the above problems, a multi-slurry delivery device with a conical sleeve and impeller mixing structure that can uniformly mix materials can be designed. Utility Model Content

[0005] To overcome the problem that when a multi-slurry delivery device is in operation, all pipelines are connected to the tank from above, making it difficult to ensure uniform mixing of several slurries, which further affects the consistency of multi-slurry quality and is not conducive to improving the processing quality of multi-slurry delivery.

[0006] The technical solution of this utility model is as follows: a multi-slurry delivery device capable of uniformly mixing materials, including a tank body and a slurry distribution main pipe. A conical sleeve is fixedly installed on the inner surface of the tank body. An agitator interface is opened on the surface of the tank body inside the conical sleeve. A sealing connecting plate is fixedly installed inside the agitator interface. A support frame is fixedly installed on the sealing connecting plate. A protective sleeve is fixedly installed at the end of the support frame away from the sealing connecting plate. A drive motor is fixedly installed at the upper end of the support frame. A connecting bushing is fixedly installed at the lower end of the support frame. A drive shaft is provided inside the connecting bushing. One end of the drive shaft extends to the inner side of the conical sleeve and a stirring impeller is fixedly installed. The other end of the drive shaft extends to the inside of the protective sleeve and a synchronous roller is fixedly installed. The output end of the drive motor extends to the inside of the protective sleeve and a synchronous roller is fixedly installed. Synchronous roller one and synchronous roller two are connected by a synchronous belt. A slurry inlet is fixedly connected to the upper end of the slurry distribution main pipe. A connecting branch pipe one is fixedly connected to the surface of the slurry distribution main pipe. A connecting branch pipe two is fixedly connected to the connecting branch pipe one.

[0007] Preferably, a conical sleeve is provided inside the tank body, and an agitator impeller is provided inside the conical sleeve. A pipe structure is provided on the outer surface of the tank body, wherein the connecting branch pipe 2 extends into the interior of the tank body and is located on the inner side of the conical sleeve. The drive motor of the impeller structure is located outside the tank body and is provided with a bracket and baffle structure. The slurry is directly input into the slurry distribution main pipe through the slurry distribution main pipe. After being diverted, the slurry enters the conical sleeve area through the connecting branch pipe 1 and the connecting branch pipe 2, and is stirred evenly again by the agitator impeller before entering the tank body. The inner side of the synchronous belt and the surface of the synchronous roller are provided with a toothed groove structure to facilitate meshing synchronous transmission. The second bevel gear can mesh with the first bevel gear for transmission.

[0008] Preferably, a mounting bracket is fixedly installed on the side of the support frame, and a mounting leg is fixedly installed at the lower end of the mounting bracket.

[0009] Preferably, one end of the connecting bushing is fixedly connected to the sealing connecting plate, and the other end of the connecting bushing is fixedly connected to the protective sleeve box.

[0010] Preferably, the surface of the drive shaft is rotatably connected to the connecting bushing, and the protective sleeve and the sealing connecting plate are rotatably connected to the surface of the drive shaft.

[0011] Preferably, the output end of the drive motor is rotatably connected to the protective sleeve, and the drive motor is used to drive the synchronous roller two to rotate.

[0012] Preferably, the slurry inlets are evenly spaced, and the end of the connecting branch pipe two that is furthest from the connecting branch pipe one is connected to the pool body.

[0013] As a preferred option, the first connecting branch pipe is designed in an L-shape, and the second connecting branch pipe is designed in a U-shape.

[0014] The beneficial effects of this utility model are:

[0015] This multi-slurry delivery device, capable of uniform mixing, replaces the traditional top-down approach of connecting all pipelines to the tank with a main slurry pipe and connecting branch pipes. Utilizing integrated high-efficiency mixing and precise delivery technologies, it significantly improves the quality and efficiency of industrial production. A conical sleeve restricts the slurry input through multiple branch pipes to a certain extent, while an impeller mixes and stirs the various slurries. The high-speed rotating impeller generates high-intensity shear force and axial thrust, eliminating material stratification and ensuring uniform mixing of the different slurries. This further guarantees the consistency of the slurry quality and ensures the uniform dispersion of high-viscosity slurries, significantly improving slurry processing efficiency and quality. Mechanical optimization ensures mixing uniformity, and electromechanical integration achieves delivery precision, ultimately achieving a balance between quality, efficiency, and cost. Attached Figure Description

[0016] Figure 1 The diagram shown illustrates the overall structure of the multi-slurry delivery device capable of uniformly mixing materials according to this utility model. Figure 1;

[0017] Figure 2 The diagram shown illustrates the overall structure of the multi-slurry delivery device capable of uniformly mixing materials according to this utility model. Figure 2 ;

[0018] Figure 3 The diagram shown is a schematic diagram of the main pipe structure of the multi-slurry delivery device for uniformly mixing materials according to this utility model.

[0019] Figure 4 The diagram shown is a schematic of the mixing impeller structure of the multi-slurry delivery device capable of uniformly mixing materials according to this utility model.

[0020] Figure 5 The diagram shown is a schematic diagram of the synchronous belt structure of the multi-slurry delivery device for uniformly mixing materials according to this utility model.

[0021] Explanation of reference numerals in the attached drawings: 1. Tank body; 2. Main mixing pipe; 3. Conical sleeve; 4. Agitator interface; 5. Sealing connection plate; 6. Support frame; 7. Protective sleeve; 8. Drive motor; 9. Connecting shaft sleeve; 10. Transmission shaft; 11. Agitator impeller; 12. Synchronous roller one; 13. Synchronous roller two; 14. Synchronous belt; 15. Slurry inlet; 16. Connecting branch pipe one; 17. Connecting branch pipe two; 18. Mounting bracket. Detailed Implementation

[0022] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0023] Please see Figures 1-5This utility model provides an embodiment of a multi-slurry delivery device capable of uniformly mixing materials, including a tank body 1 and a slurry distribution main pipe 2. A conical sleeve 3 is fixedly installed on the inner surface of the tank body 1. A stirrer interface 4 is provided on the surface of the tank body 1 inside the conical sleeve 3. A sealing connecting plate 5 is fixedly installed inside the stirrer interface 4. A support frame 6 is fixedly installed on the sealing connecting plate 5. A protective sleeve 7 is fixedly installed at the end of the support frame 6 away from the sealing connecting plate 5. A drive motor 8 is fixedly installed at the upper end of the support frame 6. A connecting bushing 9 is fixedly installed at the lower end of the support frame 6. A drive shaft 10 is provided inside the connecting bushing 9. One end of the drive shaft 10 extends to the inner side of the conical sleeve 3 and a stirring impeller 11 is fixedly installed. The other end of the drive shaft 10 extends to the inside of the protective sleeve 7 and a synchronous motor is fixedly installed. A synchronous roller 12 is fixedly installed inside the protective sleeve 7, extending from the output end of the drive motor 8. The synchronous roller 12 and synchronous roller 13 are connected by a synchronous belt 14. The upper end of the slurry distribution main pipe 2 is fixedly connected to the slurry inlet 15. The surface of the slurry distribution main pipe 2 is fixedly connected to the connecting branch pipe 16, and the connecting branch pipe 2 is fixedly connected to the connecting branch pipe 16. The slurry is delivered to the conical sleeve 3 of the tank body 1 using the slurry distribution pipeline structure. The slurry is restricted to a certain extent by the conical sleeve 3. The drive motor 8 drives the stirring impeller 11 to mix and stir the multiple slurries, generating high-intensity shear force and axial thrust, so that the mixing of several slurries is uniform, further ensuring the consistency of the quality of multiple slurries, ensuring the uniform dispersion of high-viscosity slurry, and significantly improving the slurry processing efficiency and quality.

[0024] Please see Figures 1-5In this embodiment, a mounting bracket 18 is fixedly installed on the side of the support frame 6, and a mounting foot is fixedly installed on the lower end of the mounting bracket 18. One end of the connecting bushing 9 is fixedly connected to the sealing connecting plate 5, and the other end of the connecting bushing 9 is fixedly connected to the protective sleeve 7. The surface of the drive shaft 10 is rotatably connected to the connecting bushing 9. The protective sleeve 7 and the sealing connecting plate 5 are rotatably connected to the surface of the drive shaft 10. The output end of the drive motor 8 is rotatably connected to the protective sleeve 7. The drive motor 8 is used to drive the synchronous roller 13 to rotate. The mounting bracket 18 can cooperate with the mounting foot to install and fix the equipment, especially the stirring structure of the equipment. The connecting bushing 9 is used to install the drive shaft 10 (bearings or other parts with similar functions can be installed inside). The components are connected. Since the support drive shaft 10 inherits the rotational transmission, the protective sleeve 7 can protect the internal synchronous structure. The drive shaft 10 is used for rotational transmission, which in turn drives the stirring impeller 11 to rotate and stir. The sealing connection plate 5 is used to connect the support frame 6 and the components above, and at the same time seals the stirrer interface 4. The drive motor 8 can drive the synchronous roller 13 to rotate (the drive motor 8 can be set as a drive component with similar functions). The synchronous belt 14 can make the synchronous roller 12 rotate synchronously with the synchronous roller 13, further ensuring that the drive motor 8 can drive the stirring impeller 11 to perform stirring and mixing operations. The cone sleeve 3 restricts the area of ​​the slurry input from multiple branches to a certain extent, which facilitates the operation of the stirring impeller 11.

[0025] Please see Figures 1-3 In this embodiment, the slurry inlets 15 are evenly spaced. The end of the connecting branch pipe 2 17 away from the connecting branch pipe 16 is connected to the tank body 1. The connecting branch pipe 16 has an L-shaped structure design, and the connecting branch pipe 2 17 has a U-shaped structure design. There are multiple slurry inlets 15, which can be used to input various slurries (the slurry inlets 15 can be connected to external pipes to facilitate the input of slurry by external gas components and equipment). The slurry distribution main pipe 2 can deliver various slurries input from the slurry inlets 15. The connecting branch pipe 16 can cooperate with the connecting branch pipe 2 17 to divert the slurry in the slurry distribution main pipe 2 and further deliver it to the cone sleeve 3 of the tank body 1. It is then stirred evenly again by the impeller structure and enters the tank body 1.

[0026] During operation, multiple slurries are input through the slurry inlet 15. The slurries input through the slurry distribution main pipe 2 are distributed. The slurries are then diverted through connecting branch pipe 16 and connecting branch pipe 2 17 and further distributed to the conical sleeve 3 of the tank body 1. The conical sleeve 3 restricts the slurries input through multiple branch pipes to a certain extent. The drive motor 8 drives the synchronous roller 2 13 to rotate, which causes the synchronous belt 14 to drive the synchronous roller 12 to rotate synchronously. The drive shaft 10 drives the stirring impeller 11 to mix and stir the multiple slurries, generating high-intensity shear force and axial thrust, so that the several slurries are mixed evenly.

[0027] Through the above steps, the slurry is delivered to the conical sleeve 3 of the tank 1 using the slurry distribution pipeline structure. The conical sleeve 3 provides a certain degree of regional restriction for the slurry. The drive motor 8 drives the stirring impeller 11 to mix and stir the multiple slurries, generating high-intensity shear force and axial thrust, which makes the mixture of several slurries uniform, further ensuring the consistency of the quality of the multiple slurries, ensuring the uniform dispersion of high-viscosity slurries, and significantly improving the efficiency and quality of slurry processing. This solves the problem that when all pipelines are connected to the tank from the top during the operation of the multi-slurry delivery device, it is difficult to ensure the uniform mixing of several slurries, which further affects the consistency of the quality of the multiple slurries and is not conducive to improving the processing quality of multi-slurry delivery.

Claims

1. A multi-slurry delivery device capable of uniformly mixing materials, comprising a tank (1), characterized in that: It also includes a slurry mixing main pipe (2), a conical sleeve (3) is fixedly installed on the inner surface of the tank body (1), a stirrer interface (4) is opened on the surface of the tank body (1) inside the conical sleeve (3), a sealing connection plate (5) is fixedly installed inside the stirrer interface (4), a support frame (6) is fixedly installed on the sealing connection plate (5), a protective sleeve box (7) is fixedly installed at the end of the support frame (6) away from the sealing connection plate (5), a drive motor (8) is fixedly installed at the upper end of the support frame (6), a connecting shaft sleeve (9) is fixedly installed at the lower end of the support frame (6), and a drive shaft (10) is provided inside the connecting shaft sleeve (9). One end of the drive shaft (10) extends to the inside of the cone sleeve (3) and is fixedly installed with an impeller (11). The other end of the drive shaft (10) extends to the inside of the protective sleeve (7) and is fixedly installed with a synchronous roller (12). The output end of the drive motor (8) extends to the inside of the protective sleeve (7) and is fixedly installed with a synchronous roller (13). The synchronous roller (12) and the synchronous roller (13) are connected by a synchronous belt (14). The upper end of the slurry distribution main pipe (2) is fixedly connected with a slurry inlet (15). The surface of the slurry distribution main pipe (2) is fixedly connected with a connecting branch pipe (16). The connecting branch pipe (16) is fixedly connected with a connecting branch pipe (2) (17).

2. The multi-slurry delivery device capable of uniformly mixing materials according to claim 1, characterized in that: A mounting bracket (18) is fixedly installed on the side of the support frame (6), and a mounting foot is fixedly installed at the lower end of the mounting bracket (18).

3. The multi-slurry delivery device capable of uniformly mixing materials according to claim 1, characterized in that: One end of the connecting bushing (9) is fixedly connected to the sealing connecting plate (5), and the other end of the connecting bushing (9) is fixedly connected to the protective sleeve (7).

4. The multi-slurry delivery device capable of uniformly mixing materials according to claim 3, characterized in that: The surface of the drive shaft (10) is rotatably connected to the connecting bushing (9), and the protective sleeve (7) and the sealing connecting plate (5) are rotatably connected to the surface of the drive shaft (10).

5. The multi-slurry delivery device capable of uniformly mixing materials according to claim 4, characterized in that: The output end of the drive motor (8) is rotatably connected to the protective sleeve (7), and the drive motor (8) is used to drive the synchronous roller (13) to rotate.

6. The multi-slurry delivery device capable of uniformly mixing materials according to claim 1, characterized in that: The slurry inlets (15) are evenly spaced, and the end of the connecting branch pipe 2 (17) that is away from the connecting branch pipe 1 (16) is connected to the pool body (1).

7. The multi-slurry delivery device capable of uniformly mixing materials according to claim 6, characterized in that: The first connecting branch pipe (16) has an L-shaped structure design, and the second connecting branch pipe (17) has a U-shaped structure design.