Laccase complexing tank for improving mixing efficiency

By introducing a servo motor-driven mixing component and a stepper motor-driven scraper system into the compounding tank, the problem of insufficient material mixing is solved, achieving more efficient mixing and cleaning, and improving the overall efficiency of the compounding tank.

CN224494153UActive Publication Date: 2026-07-14SUZHOU LVWEIKANG BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU LVWEIKANG BIOTECHNOLOGY CO LTD
Filing Date
2025-06-20
Publication Date
2026-07-14

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Abstract

This utility model discloses a laccase compounding tank for improving mixing efficiency, relating to the field of laccase production technology. It includes a main tank body and a mixing assembly. The main tank body has supporting legs installed at its bottom, and a feed pipe is located on the upper right side of the main tank body. The mixing assembly is located in the middle of the main tank body, and includes a servo motor, a support rod, a mixing rod, a mixing ring, a mixing plate, a liquid inlet pipe, and a metering pump. The front end of the servo motor is connected to the support rod, and a mixing rod is installed on the upper outer end of the support rod. A mixing ring is located on the middle outer end of the support rod, and a mixing plate is installed on the lower outer end of the support rod. The liquid inlet pipe is located at the upper end of the main tank body, and a metering pump is connected to the front end of the liquid inlet pipe. A cleaning assembly is located in the upper inner end of the main tank body. This laccase compounding tank for improving mixing efficiency can enhance the overall mixing efficiency of materials through multiple mixing structures, avoiding insufficient mixing between materials and improving the overall practicality of the laccase compounding tank.
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Description

Technical Field

[0001] This utility model relates to the field of laccase production technology, specifically to a laccase compounding tank for improving mixing efficiency. Background Technology

[0002] Laccase is a copper-containing polyphenol oxidase belonging to the copper blue oxidase family. Laccase is widely found in bacteria, fungi, plants, insects, and even higher animals. Its main function is to catalyze oxidation reactions, particularly the oxidation of phenolic compounds. Laccase has important applications in many fields. In environmental protection, laccase can be used to treat lignin, phenolic pollutants, pesticides, and herbicides. In industrial applications, laccase promotes the oxidation of phenolic compounds in the fruit juice and wine industry, improving the color, taste, and flavor of the wine. Furthermore, laccase is widely used in nanobiotechnology because it catalyzes electron transfer reactions without requiring additional cofactors. Compounding refers to mixing two or more functional components according to a specific scientific formula to achieve a particular effect. To improve laccase production efficiency, a compounding tank is needed; however, existing compounding tanks still have the following shortcomings:

[0003] When existing compounding tanks are in use, most of them only have a relatively simple material mixing structure, which makes it easy for materials to be insufficiently mixed during the compounding process. This also prolongs the processing time, thus affecting the compounding of materials and causing problems such as reduced practicality and lower efficiency of the compounding tanks. Utility Model Content

[0004] The purpose of this invention is to provide a laccase compounding tank that improves mixing efficiency, thereby solving the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a laccase compounding tank for improving mixing efficiency, comprising a main tank body and a mixing assembly. The main tank body has supporting columns installed at its bottom, and an inlet pipe is provided on the upper right side of the main tank body. The mixing assembly is located in the middle of the interior of the main tank body, and includes a servo motor, a support rod, a mixing rod, a mixing ring, a mixing plate, an inlet pipe, and a metering pump. The front end of the servo motor is connected to the support rod, and a mixing rod is installed on the upper outer end of the support rod. A mixing ring is located in the middle of the outer outer end of the support rod, and a mixing plate is installed on the lower outer end of the support rod. An inlet pipe is located at the upper end of the main tank body, and a metering pump is connected to the front end of the inlet pipe. A cleaning assembly is located at the upper interior of the main tank body.

[0006] Furthermore, the number of mixing rods is set to three, and the three mixing rods are equally distributed on the upper part of the outside of the support rod.

[0007] Furthermore, the mixing plate is embedded in the main tank, and the mixing plate is rotatably connected to the main tank via a support rod.

[0008] Furthermore, the metering pump is horizontally distributed on the outside of the main tank and the main tank is fixedly connected to the main tank by bolts.

[0009] Furthermore, the cleaning assembly includes a stepper motor, a mounting crossbar, a scraper, and a water pump. The front end of the stepper motor is connected to the mounting crossbar, and the front end of the mounting crossbar is equipped with a scraper. A water pump is installed on the right side of the outside of the main tank.

[0010] Furthermore, the cleaning assembly also includes a water supply pipe, a water collection ring, and a water outlet. The water pump is externally connected to the water supply pipe, and the front end of the water supply pipe is connected to the water collection ring. Meanwhile, the water outlet is provided on the inner side of the water collection ring.

[0011] Furthermore, the mounting crossbar is perpendicular to the scraper plate, and the mounting crossbar and the scraper plate are fixedly connected by bolts.

[0012] Furthermore, the water outlets are equidistantly distributed on the inner side of the water collection ring, and the water outlets are fixedly connected to the water collection ring by bolts.

[0013] This invention provides a laccase compounding tank that improves mixing efficiency, and has the following beneficial effects:

[0014] 1. This utility model, through the setting of the mixing component, enables the laccase compounding tank to improve mixing efficiency. The servo motor drives the support rod to rotate, causing the mixing rod mounted on the outside of the support rod to rotate accordingly. The mixing rod rapidly mixes the materials entering the main tank, and in conjunction with the mixing ring, increases the mixing efficiency in the middle section of the material. Simultaneously, the mixing plate set at the lower end of the support rod increases the mixing contact surface, further improving the mixing efficiency. A metering pump, in conjunction with the liquid inlet pipe, delivers equal amounts of liquid materials into the main tank, thereby improving the compounding efficiency of the material and increasing the overall practicality and efficiency of the laccase compounding tank.

[0015] 2. This utility model, through the setting of the cleaning component, enables the laccase compounding tank with improved mixing efficiency to be used. The stepper motor drives the installation crossbar to rotate, causing the scraper plate at the front end of the crossbar to rotate inside the main tank. The scraper plate then scrapes the inner wall of the main tank. A water collection ring is fixedly installed inside the upper part of the main tank, and the water outlet is fixedly installed inside the water collection ring. A water pump installed outside the main tank, in conjunction with a water pipe, delivers cleaning water to the inside of the water collection ring. Simultaneously, an equal amount of cleaning water is delivered out through the water outlet. This cleaning water cleans the inside of the main tank, and the scraper plate cleans the inner wall accordingly, reducing manual labor intensity and improving the overall practicality and efficiency of the laccase compounding tank. Attached Figure Description

[0016] Figure 1 This is a three-dimensional structural diagram of a laccase compounding tank for improving mixing efficiency according to the present invention.

[0017] Figure 2 This is a three-dimensional cross-sectional view of the mixing component of a laccase compounding tank for improving mixing efficiency according to this utility model.

[0018] Figure 3 This is a three-dimensional cross-sectional view of the cleaning component of a laccase compounding tank for improving mixing efficiency according to this utility model.

[0019] In the diagram: 1. Main tank; 2. Support column leg; 3. Feed pipe; 4. Mixing assembly; 401. Servo motor; 402. Support rod; 403. Mixing rod; 404. Mixing ring; 405. Mixing plate; 406. Liquid inlet pipe; 407. Metering pump; 5. Cleaning assembly; 501. Stepper motor; 502. Mounting crossbar; 503. Scraper; 504. Water pump; 505. Water supply pipe; 506. Water collection ring; 507. Water outlet. Detailed Implementation

[0020] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are for illustrative purposes only and should not be construed as limiting the scope of this utility model.

[0021] like Figures 1 to 3As shown, a laccase compounding tank for improving mixing efficiency includes a main tank body 1 and a mixing assembly 4. Support legs 2 are installed at the bottom of the main tank body 1, and a feed pipe 3 is provided on the upper right side of the main tank body 1. The mixing assembly 4 is located in the middle of the interior of the main tank body 1. The mixing assembly 4 includes a servo motor 401, a support rod 402, a mixing rod 403, a mixing ring 404, a mixing plate 405, a liquid inlet pipe 406, and a metering pump 407. The front end of the servo motor 401 is connected to the support rod 402, and the support rod 402... A mixing rod 403 is installed on the upper outer part of the support rod 402, and a mixing ring 404 is provided at the middle of the outer part of the support rod 402. A mixing plate 405 is installed on the lower outer part of the support rod 402. A liquid inlet pipe 406 is provided on the upper part of the main tank 1, and a metering pump 407 is connected to the front end of the liquid inlet pipe 406. There are three mixing rods 403, which are equidistantly distributed on the upper outer part of the support rod 402. The mixing plate 405 is embedded in the main tank 1 and is connected to the support rod 402. The metering pump 407 is rotatably connected to the main tank 1. It is horizontally distributed on the outside of the main tank 1 and fixedly connected to the main tank 1 by bolts. A servo motor 401 is fixedly installed at the upper middle part of the main tank 1 by fastening bolts. The output shaft of the servo motor 401 is connected to a support rod 402 via a coupling. The operation of the servo motor 401 drives the support rod 402 to rotate, causing the mixing rod 403 installed on the outside of the support rod 402 to rotate accordingly. The mixing rod 403 quickly mixes the material entering the main tank 1, and works in conjunction with the mixing ring 404 to increase the mixing efficiency in the middle section of the material. Simultaneously, the mixing plate 405 at the lower end of the support rod 402 increases the mixing contact surface, further improving the mixing efficiency of the material. The metering pump 407 is fixedly installed at the upper end of the main tank 1 by fastening bolts. The operation of the metering pump 407, in conjunction with the liquid inlet pipe 406, delivers an equal amount of liquid material into the main tank 1, thereby improving the material compounding efficiency and increasing the overall practicality and efficiency of the laccase compounding tank.

[0022] like Figures 1 to 3As shown, a cleaning assembly 5 is installed at the upper part of the main tank 1. The cleaning assembly 5 includes a stepper motor 501, a mounting crossbar 502, a scraper 503, and a water pump 504. The front end of the stepper motor 501 is connected to the mounting crossbar 502, and the scraper 503 is installed at the front end of the mounting crossbar 502. The water pump 504 is installed on the right side of the main tank 1. The cleaning assembly 5 also includes a water supply pipe 505, a water collection ring 506, and a water outlet 507. The water pump 504 is externally connected to... A water supply pipe 505 is connected, and a water collection ring 506 is connected to the front end of the water supply pipe 505. An outlet 507 is provided on the inner side of the water collection ring 506. A mounting crossbar 502 and a scraper plate 503 are perpendicularly distributed and fixedly connected by bolts. The outlets 507 are equidistantly distributed on the inner side of the water collection ring 506 and fixedly connected to the water collection ring 506 by bolts. The stepper motor 501 is then secured by tightening bolts. The stepper motor 501 is fixedly installed at the lower middle of the main tank 1. The output shaft of the stepper motor 501 is connected to the mounting block via a coupling. The mounting crossbar 502 is fixedly installed on both sides of the outside of the mounting block. When the stepper motor 501 operates, it drives the mounting crossbar 502 to rotate, thereby causing the scraper 503 set at the front end of the mounting crossbar 502 to rotate inside the main tank 1. The scraper 503 then scrapes the inner wall of the main tank 1. The water collection ring 506 is fixedly installed at the upper inside of the main tank 1, and the water outlet 507 is fixedly installed inside the water collection ring 506. The water pump 504 installed outside the main tank 1 works in conjunction with the water supply pipe 505 to deliver cleaning water to the inside of the water collection ring 506. At the same time, the water outlet 507 delivers an equal amount of cleaning water. The cleaning water cleans the inside of the main tank 1, and the scraper 503 cleans the inner wall accordingly, reducing the intensity of manual labor and improving the overall practicality and efficiency of the laccase compounding tank.

[0023] In summary, this laccase compounding tank, designed to improve mixing efficiency, first enhances stability during operation through the support columns 2 installed at the bottom of the main tank 1. Non-liquid materials to be processed are then fed into the main tank 1 via the feed pipe 3. A servo motor 401 drives the support rod 402 to rotate, causing the mixing rod 403 mounted on the outside of the support rod 402 to rotate accordingly. The mixing rod 403 rapidly mixes the materials entering the main tank 1, and the mixing ring 404 further increases the mixing efficiency in the middle section of the material. Simultaneously, a mixing plate 405 at the lower end of the support rod 402 increases the mixing contact surface, further improving the mixing efficiency. Finally, a metering pump 407, in conjunction with the liquid inlet pipe 406, delivers an equal amount of liquid materials into the main tank 1, thereby improving the compounding efficiency of the materials. To improve efficiency, the stepper motor 501 drives the mounting crossbar 502 to rotate, causing the scraper 503 at the front end of the mounting crossbar 502 to rotate inside the main tank 1. The scraper 503 then scrapes the inner wall of the main tank 1. The water collection ring 506 is fixedly installed inside the upper part of the main tank 1, and the water outlet 507 is fixedly installed inside the water collection ring 506. The water pump 504 installed outside the main tank 1 works in conjunction with the water pipe 505 to deliver cleaning water to the inside of the water collection ring 506. At the same time, the water outlet 507 delivers an equal amount of cleaning water. The cleaning water cleans the inside of the main tank 1, and the scraper 503 cleans the inner wall accordingly, reducing the intensity of manual labor and improving the overall practicality and efficiency of the laccase compounding tank.

[0024] The embodiments of this utility model are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the utility model to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described in order to better illustrate the principles and practical applications of this utility model, and to enable those skilled in the art to understand this utility model and design various embodiments with various modifications suitable for a particular purpose.

Claims

1. A laccase compounding tank for improving mixing efficiency, comprising a main tank body (1) and a mixing assembly (4), characterized in that, The main tank (1) is equipped with a support column leg (2) at the bottom, and a feed pipe (3) is provided on the upper right side of the main tank (1). A mixing assembly (4) is provided in the middle of the main tank (1), and the mixing assembly (4) includes a servo motor (401), a support rod (402), a mixing rod (403), a mixing ring (404), a mixing plate (405), a liquid inlet pipe (406), and a metering pump (407). The front end of the servo motor (401) is connected to... A support rod (402) is attached, and a mixing rod (403) is installed on the upper part of the support rod (402). A mixing ring (404) is provided on the middle part of the support rod (402), and a mixing plate (405) is installed on the lower part of the support rod (402). An inlet pipe (406) is provided on the upper part of the main tank (1), and a metering pump (407) is connected to the front end of the inlet pipe (406). A cleaning component (5) is provided on the upper part of the interior of the main tank (1).

2. The laccase compounding tank for improving mixing efficiency according to claim 1, characterized in that, The number of mixing rods (403) is three, and the three mixing rods (403) are equally distributed on the upper part of the support rod (402).

3. The laccase compounding tank for improving mixing efficiency according to claim 1, characterized in that, The mixing plate (405) is embedded in the main tank (1), and the mixing plate (405) is rotatably connected to the main tank (1) through the support rod (402).

4. The laccase compounding tank for improving mixing efficiency according to claim 1, characterized in that, The metering pump (407) is horizontally distributed on the outside of the main tank (1), and the metering pump (407) is fixedly connected to the main tank (1) by bolts.

5. The laccase compounding tank for improving mixing efficiency according to claim 1, characterized in that, The cleaning component (5) includes a stepper motor (501), a mounting crossbar (502), a scraper (503), and a water pump (504). The front end of the stepper motor (501) is connected to the mounting crossbar (502), and the front end of the mounting crossbar (502) is equipped with a scraper (503). The water pump (504) is installed on the right side of the outside of the main tank (1).

6. The laccase compounding tank for improving mixing efficiency according to claim 5, characterized in that, The cleaning component (5) also includes a water supply pipe (505), a water collection ring (506) and a water outlet (507), and the water pump (504) is externally connected to the water supply pipe (505), and the front end of the water supply pipe (505) is connected to the water collection ring (506), while the water outlet (507) is provided on the inner side of the water collection ring (506).

7. The laccase compounding tank for improving mixing efficiency according to claim 6, characterized in that, The mounting crossbar (502) is perpendicular to the scraper plate (503), and the mounting crossbar (502) and the scraper plate (503) are fixedly connected by bolts.

8. The laccase compounding tank for improving mixing efficiency according to claim 6, characterized in that, The outlets (507) are evenly distributed on the inner side of the water collection ring (506), and the outlets (507) are fixedly connected to the water collection ring (506) by bolts.