Closed production facility for bactericides
By designing a closed production device for bactericides and using components such as a transmission stirrer and a cooling box, the problems of uneven mixing, high energy consumption, and material contamination were solved, achieving efficient and safe bactericide production and improving product quality and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU HADE XUNSHUI TECH CO LTD
- Filing Date
- 2025-07-17
- Publication Date
- 2026-07-03
AI Technical Summary
Existing bactericide production equipment suffers from problems such as uneven material mixing, high energy consumption, poor distillation effect, and the introduction of impurities through contact between materials and outside air during the stirring process, which affect production safety and product quality.
A closed production device for bactericides was designed, comprising a support frame, a distillation tank, a drive stirrer, a heater, a cooling tank, and a reflux pump, to achieve efficient stirring, precise heating, sealing treatment, and gas liquefaction, ensuring that the material does not come into contact with the outside air.
It improves material processing speed and uniformity, enhances product purity and safety, increases production flexibility and controllability, avoids the introduction of impurities, and ensures production safety and product purity.
Smart Images

Figure CN224442181U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of bactericide production, specifically to a closed production device for bactericides. Background Technology
[0002] A Chinese patent for a bactericide production device (application number: CN202323004534.5) includes a housing; a support column is fixedly connected to the bottom of the housing; a feeding box is fixedly connected to the outer wall of the housing; a water inlet is provided on the outer wall of the housing; a water outlet is provided on the outer wall of the housing; a cavity is provided inside the housing; a motor is provided at the center of the top of the cavity; the motor is fixedly connected to the top wall of the cavity; an output shaft is provided at the other end of the motor; a herringbone plate is fixedly connected to the other end of the output shaft; a set of first rotating shafts are evenly distributed at three ends of the herringbone plate and rotatably connected to the herringbone plate; a connecting plate is fixedly connected to the lower end of the first rotating shafts; a stirring column is fixedly connected to the lower end of the connecting plate; a set of stirring plates is fixedly connected to the outer wall of the stirring column. This utility model provides a bactericide production device to solve the problems of uneven stirring and agglomeration of powdered particles during the stirring process of bactericides.
[0003] Existing bactericide production processes typically involve multiple chemical reactions and physical processing steps, such as stirring, heating, distillation, and cooling. However, traditional production processes often have several shortcomings: First, inefficiency or uneven mixing may occur during material stirring and conveying; second, improper heat management during distillation can lead to increased energy consumption or poor distillation results; third, improper handling of distillation gas liquefaction and discharge can not only affect product purity and yield but also cause environmental pollution; finally, if materials come into contact with outside air during the entire production process, impurities may be introduced or dangerous reactions may occur, affecting production safety and product quality. Therefore, a bactericide production device that can effectively solve the above problems and achieve high efficiency, safety, and sealed processing is needed. Utility Model Content
[0004] To address the shortcomings of existing technologies, this utility model provides a closed production device for bactericides.
[0005] The technical solution of this utility model is as follows:
[0006] This utility model provides a closed production device for bactericides, including a support frame and a distillation tank. A storage rack is provided on the top of the support frame, a storage box is provided on the top of the storage rack, and a transmission stirrer is provided on the top of the support frame.
[0007] The distillation tank is equipped with a heater at the bottom, a cover plate at the top, a valve communicating with the agitator on the inner wall of the distillation tank, a cooling box at the top of the cover plate, a water tank on one side of the distillation tank, and a discharge plate on one side of the bottom of the distillation tank.
[0008] Optionally, a support plate is provided on the top of the support frame, the storage rack is fixedly installed on the top of the support plate, the storage rack and the storage box are sealed with waterproof glue, the storage box has an inlet on the top, and the transmission agitator is installed on the top of the support plate and located inside the storage rack.
[0009] Optionally, the exterior of the distillation chamber is provided with an observation window made of high heat-resistant glass, and the top of the heater is provided with a heating strip that extends through the distillation chamber.
[0010] Optionally, a switch strip is provided between the cover plate and the distillation tank, a distillation flow pipe communicating with the cooling tank is provided through the interior of the distillation tank, the other end of the distillation flow pipe is connected to the water tank, and a reflux pump is provided inside the cooling tank.
[0011] Optionally, a drain outlet is provided on one side of the water tank, and a discharge outlet is provided outside the drain outlet. A discharge plate is provided outside the discharge outlet, and a discharge valve is provided at the connection between the storage tank and the distillation tank.
[0012] Optionally, the top of the transmission stirrer is provided with a connecting groove, which is connected to the storage tank. A power motor is provided on one side of the transmission stirrer, and the output end of the power motor is fixedly connected to the stirring turbine blade located inside the connecting groove. The transmission stirrer passes through the distillation tank and is connected to the valve.
[0013] The beneficial effects achieved by this utility model are as follows:
[0014] This invention achieves efficient mixing and conveying of raw materials by setting up a transmission stirrer that can stir and convey, thereby improving the material processing speed and uniformity. A heater is installed inside the distillation tank for precise heating treatment. At the same time, the use of a cooling tank and a reflux pump facilitates the liquefaction and discharge of distilled gas, which not only improves product purity but also ensures operational safety. The design of the discharge port enables effective control of the discharge of dried materials, further enhancing the flexibility and controllability of production.
[0015] The overall structural design of this utility model takes into account sealing performance, ensuring that the material does not come into contact with the outside air during the entire processing, avoiding the introduction of impurities, and ensuring the safety of production and the purity of the product. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0017] Figure 2 This is a structural schematic diagram of the entire utility model from another perspective;
[0018] Figure 3 This is a partial structural schematic diagram of the present invention.
[0019] In the diagram, 1 is the support frame; 101 is the support plate; 2 is the storage rack; 3 is the storage bin; 301 is the inlet; 4 is the distillation tank; 401 is the observation window; 5 is the cover plate; 501 is the switch bar; 6 is the heater; 7 is the drive stirrer; 701 is the connecting groove; 702 is the power motor; 703 is the stirring turbine blade; 8 is the valve; 9 is the cooling tank; 901 is the reflux pump; 902 is the distillation flow pipe; 10 is the water tank; 1001 is the drain port; 11 is the discharge port; and 1101 is the discharge plate. Detailed Implementation
[0020] To facilitate understanding of this utility model by those skilled in the art, the specific embodiments of this utility model are described below with reference to the accompanying drawings. Example 1
[0021] like Figure 1-3 As shown, this utility model provides a closed production device for bactericides, including a support frame 1 and a distillation tank 4. A storage rack 2 is provided on the top of the support frame 1, a storage box 3 is provided on the top of the storage rack 2, and a transmission stirrer 7 is provided on the top of the support frame 1.
[0022] A heater 6 is provided at the bottom of the distillation tank 4, a cover plate 5 is provided at the top of the distillation tank 4, a valve 8 connected to the transmission stirrer 7 is provided on the inner wall of the distillation tank 4, a cooling box 9 is provided on the top of the cover plate 5, a water tank 10 is provided on one side of the distillation tank 4, and a discharge plate 1101 is provided on one side of the bottom of the distillation tank 4.
[0023] This invention achieves efficient mixing and conveying of raw materials by incorporating a transmission agitator 7 capable of stirring and conveying, thus improving material processing speed and uniformity. A heater 6 is installed inside the distillation tank 4 for precise heating. Simultaneously, the cooperating use of the cooling tank 9 and reflux pump 901 facilitates the liquefaction and discharge of distilled gases, improving product purity and ensuring operational safety. The design of the discharge port 11 effectively controls the discharge of dried materials, further enhancing production flexibility and controllability. The overall structural design of this invention considers sealing performance, ensuring that materials do not come into contact with external air throughout the processing, preventing the introduction of impurities, and guaranteeing production safety and product purity. Example 2
[0024] Please see Figure 1-2 As shown, a support plate 101 is provided on the top of the support frame 1, and the storage rack 2 is fixedly provided on the top of the support plate 101. The storage rack 2 and the storage box 3 are sealed with waterproof glue. The top of the storage box 3 is provided with an inlet 301. The transmission agitator 7 is provided on the top of the support plate 101 and is located inside the storage rack 2.
[0025] Specifically, the support plate 101 is used to support the top storage rack 2 and storage box 3 to ensure structural stability. The inlet 301 allows for easy control of the entry of objects. When not in use, the inlet 301 can be sealed with a fixed cover.
[0026] In this embodiment, an observation window 401 is provided on the outside of the distillation tank 4. The observation window 401 is made of high heat-resistant glass. A heating strip is provided on the top of the heater 6, extending through the distillation tank 4.
[0027] Specifically, this application allows for real-time external monitoring of the material status inside the distillation tank 4 via the observation window 401, and the heater 6 is used to heat the objects inside the distillation tank 4.
[0028] In this embodiment, a switch strip 501 is provided between the cover plate 5 and the distillation tank 4. A distillation flow pipe 902 connected to the cooling tank 9 is provided through the interior of the distillation tank 4. The other end of the distillation flow pipe 902 is connected to the water tank 10. A reflux pump 901 is provided inside the cooling tank 9.
[0029] Specifically, the cooling tank 9 is equipped with a water source, and the cooling water is circulated to the distillation flow pipe 902 by the reflux pump 901, which effectively reduces the temperature inside the distillation tank 4 and achieves the function of circulating cooling.
[0030] In this embodiment, a drain port 1001 is provided on one side of the water tank 10, and a discharge port 11 is provided outside the drain port 1001. A discharge plate 1101 is provided outside the discharge port 11, and a discharge valve 8 is provided at the junction of the storage tank 3 and the distillation tank 4.
[0031] Specifically, the water tank 10 and discharge port 11 are used to control the relative discharge of liquid and material. After entering, the material is discharged only through these two points, ensuring smooth material flow during the production process, reducing the risk of leakage, and improving overall operational efficiency and safety. Example 3
[0032] Please see Figure 3As shown, the top of the transmission stirrer 7 is provided with a connecting groove 701, which is connected to the storage box 3. A power motor 702 is provided on one side of the transmission stirrer 7. The output end of the power motor 702 is fixedly connected to the stirring turbine blade 703 located inside the connecting groove 701. The transmission stirrer 7 passes through the distillation box 4 and is connected to the valve 8.
[0033] Specifically, the transmission stirrer 7 controls the stable connection of the materials, and the stirring turbine blades 703 ensure uniform mixing of the materials when the valve 8 is closed, guaranteeing sufficient reaction of the materials during distillation and improving product quality. When the valve 8 is open, the stirring turbine blades 703 also serve as an auxiliary conveyor.
[0034] In summary, this application achieves the mixing and conveying of raw materials by incorporating a stirring and conveying agitator 7. Heating is performed inside the distillation tank 4 by a heater 6, and the liquefaction of distilled gases is facilitated by a cooling tank 9 and a reflux pump 901. The discharge of dried materials is controlled at the discharge port 11, ensuring the entire distillation process is efficient and safe. Furthermore, the design of the observation window 401 allows the operator to monitor the material status in real time and optimize the production process. Through this structural design, this application not only improves material handling efficiency but also achieves a sealed treatment effect by preventing contact with external air during processing.
[0035] The embodiments of this utility model described above do not constitute a limitation on the scope of protection of this utility model. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model should be included within the scope of protection of the claims of this utility model.
Claims
1. Aseptic antiseptic closed production apparatus characterized by: It includes a support frame (1) and a distillation tank (4). A storage rack (2) is provided on the top of the support frame (1), a storage box (3) is provided on the top of the storage rack (2), and a transmission stirrer (7) is provided on the top of the support frame (1). A heater (6) is provided at the bottom of the distillation tank (4), a cover plate (5) is provided at the top of the distillation tank (4), a valve (8) connected to the transmission stirrer (7) is provided on the inner wall of the distillation tank (4), a cooling box (9) is provided at the top of the cover plate (5), a water tank (10) is provided on one side of the distillation tank (4), and a discharge plate (1101) is provided on one side of the bottom of the distillation tank (4).
2. The germicidal agent sealed production device according to claim 1, characterized by: The support frame (1) is provided with a support plate (101) on top. The storage rack (2) is fixedly installed on the top of the support plate (101). The storage rack (2) and the storage box (3) are sealed with waterproof glue. The storage box (3) is provided with an inlet (301) on top. The transmission stirrer (7) is installed on the top of the support plate (101) and located inside the storage rack (2).
3. The germicidal agent containment production device of claim 1, wherein: The outside of the distillation tank (4) is provided with an observation window (401), which is made of high heat-resistant glass. The top of the heater (6) is provided with a heating strip that extends through the distillation tank (4).
4. The germicidal agent containment production device of claim 1, wherein: A switch bar (501) is provided between the cover plate (5) and the distillation tank (4). A distillation flow pipe (902) connected to the cooling tank (9) is provided through the interior of the distillation tank (4). The other end of the distillation flow pipe (902) is connected to the water tank (10). A reflux pump (901) is provided inside the cooling tank (9).
5. The germicidal agent containment production device of claim 1, wherein: A drain port (1001) is provided on one side of the water tank (10), and a discharge port (11) is provided outside the drain port (1001). A discharge plate (1101) is provided outside the discharge port (11), and a discharge valve (8) is provided at the junction of the storage tank (3) and the distillation tank (4).
6. The germicidal agent containment production device of claim 1, wherein: The top of the transmission stirrer (7) is provided with a connecting groove (701), which is connected to the storage box (3). A power motor (702) is provided on one side of the transmission stirrer (7). The output end of the power motor (702) is fixedly connected to the stirring turbine blade (703) located inside the connecting groove (701). The transmission stirrer (7) passes through the distillation tank (4) and is connected to the valve (8).