A sterilizing tank for fiber emulsion production

By introducing stirring blades and a heat conduction system into the sterilization tank, the problem of uniform heating and agitation of materials in fiber emulsion production is solved, achieving uniform heating and efficient sterilization while protecting heat-sensitive components.

CN224440343UActive Publication Date: 2026-07-03ZIBO KUNHAN FINE CHEM INSTALLATION CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZIBO KUNHAN FINE CHEM INSTALLATION CO LTD
Filing Date
2025-06-24
Publication Date
2026-07-03

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    Figure CN224440343U_ABST
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Abstract

This utility model discloses a sterilization tank for the production of fiber emulsions, comprising a stainless steel inner tank and a main shaft. A motor is installed at the upper center of the stainless steel inner tank, and the main shaft is installed in the center of the inner tank, with a central stirring blade mounted in the center. Side frames are installed on the left and right sides of the main shaft, and a side stirring blade assembly is rotatably connected to one side of each side frame. Compared with existing sterilization tanks, this sterilization tank for fiber emulsion production utilizes a circulating water pump to drive the heat transfer oil in the heat transfer copper pipe to circulate. The heat transfer oil circulates through a heater and is heated to a suitable temperature. During sterilization, the motor drives the central stirring blade on the main shaft to rotate, and the side frames rotate with the main shaft. The entire side stirring blade assembly rotates within the inner tank along with the side frames, and the internal and external teeth rotate relative to each other, causing the side stirring blade assembly to rotate itself. This uniformly agitates the fiber emulsion in the inner tank, ensuring uniform heating and better sterilization effect.
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Description

Technical Field

[0001] This utility model relates to the field of fiber emulsion production technology, specifically a sterilization tank for fiber emulsion production. Background Technology

[0002] A sterilization tank is a sealed heater that creates a high-temperature environment inside the tank tube to sterilize the food inside the container. High-temperature sterilization is required in the production of fiber emulsions. In order to promote emulsion convection, avoid local overheating, and protect heat-sensitive components, a sterilization tank is needed for the production of fiber emulsions.

[0003] The existing patent, CN221430109U, entitled "A Filtering and Sterilization Tank," relates to the field of food sterilization technology and discloses a filtering and sterilization tank, including a sterilization tank. A connecting column is fixedly installed on the top of the sterilization tank, and a heating tank is fixedly installed on the top of the connecting column. A second fixing ring is fixedly installed inside the heating tank, and a movable ring is movably installed inside the heating tank. An outer plate is fixedly installed at one end of the movable ring, and a rotating column is movably installed on the other side inside the heating tank. The beneficial effect of this utility model is that by rotating a disc, the rotating column rotates within a fixing nut, thereby moving a movable clamping plate to one side. This adjusts the size of the space inside the heating tank to match the current production volume, reducing the sterilization cost and energy consumption of the product. Simultaneously, the first and second spring columns are located on both sides of the movable clamping plate, providing elasticity and ensuring a tighter and more secure connection between the movable clamping plate, the outer plate, the sealing plate, and the movable clamping plate, increasing the sealing performance of the device.

[0004] The heating tank in the above-mentioned device lacks agitation of materials during heating, which fails to promote material convection, avoid local overheating, and protect heat-sensitive components, thus failing to meet people's usage needs. In view of the above situation, technical innovation is carried out on the basis of existing sterilization tanks. Utility Model Content

[0005] The purpose of this invention is to provide a sterilization tank for the production of fiber emulsions, so as to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a sterilization tank for the production of fiber emulsion, comprising a stainless steel inner tank and a main shaft, characterized in that a motor is installed in the upper middle part of the stainless steel inner tank, the main shaft is installed in the inner middle part of the stainless steel inner tank, and a central stirring blade is installed in the middle part of the main shaft, side frames are installed on the left and right sides of the main shaft, and a side stirring blade assembly is rotatably connected to one side of the side frame.

[0007] Furthermore, a gear assembly is installed on the inner side of the side stirring blade assembly, and the gear assembly is welded to the side stirring blade assembly.

[0008] Furthermore, the gear assembly includes internal teeth and external teeth, and the external teeth mesh with the periphery of the internal teeth. The internal teeth and external teeth rotate relative to each other, thereby causing the side stirring blade assembly to rotate itself.

[0009] Furthermore, a heat-conducting copper pipe is installed around the stainless steel inner tank, and an insulation layer is installed around the heat-conducting copper pipe to maintain a stable internal temperature.

[0010] Furthermore, a circulating water pump is installed on the left side of the insulation layer, and a heater is installed below the circulating water pump. The circulating water pump drives the heat transfer oil in the heat transfer copper pipe to circulate. The heat transfer oil circulates through the heater and is heated to a suitable temperature, thereby uniformly heating and sterilizing the fiber emulsion in the stainless steel inner tank.

[0011] Furthermore, a feed inlet is installed on the upper left side of the insulation layer, and a pressure relief valve is provided on one side of the feed inlet. After sterilization, the pressure relief valve is opened to release the internal pressure, which facilitates subsequent sampling and unloading.

[0012] Furthermore, a temperature sensor is installed on the upper right side of the interior of the stainless steel inner tank, and the temperature sensor is embedded in the stainless steel inner tank, and the temperature sensor monitors the internal temperature in real time.

[0013] Furthermore, a sampling port is installed on the upper right side of the insulation layer, and a discharge port is installed on the lower right side of the insulation layer. An appropriate amount of sample is taken out through the sampling port to test for bacteria, and after passing the test, it can be output through the discharge port.

[0014] Compared with the prior art, the beneficial effects of this utility model are as follows: the fiber emulsion is poured into the stainless steel inner tank through the feed port, the circulating water pump drives the heat transfer oil in the heat transfer copper pipe to circulate, and the heat transfer oil circulates through the heater to be heated to a suitable temperature, thereby uniformly heating and sterilizing the fiber emulsion in the stainless steel inner tank. The temperature sensor monitors the internal temperature in real time. After sterilization, the pressure relief valve is opened to release the internal pressure. An appropriate amount of sample is taken out through the sampling port to test for bacteria. After passing the test, it can be output through the discharge port. During the sterilization process, the motor drives the middle stirring blade on the main shaft to rotate, the side frame rotates with the main shaft, and the entire side stirring blade assembly rotates with the side frame in the stainless steel inner tank. The inner teeth and outer teeth rotate relative to each other, thereby causing the side stirring blade assembly to rotate itself, thereby uniformly stirring the fiber emulsion in the stainless steel inner tank, ensuring uniform heating and better sterilization effect.

[0015] 1. In the sterilization process of this utility model, the motor drives the middle stirring blade on the main shaft to rotate, the side frame rotates with the main shaft, and the side stirring blade assembly rotates with the side frame in the inner stainless steel tank. The inner teeth and outer teeth rotate relative to each other, thereby causing the side stirring blade assembly to rotate itself, thus uniformly stirring the fiber emulsion in the inner stainless steel tank, ensuring uniform heating and better sterilization effect.

[0016] 2. In this invention, fiber emulsion is poured into a stainless steel inner tank through the inlet. A circulating water pump drives the heat transfer oil in the heat transfer copper pipe to circulate. The heat transfer oil circulates through the heater and is heated to a suitable temperature, thereby uniformly heating and sterilizing the fiber emulsion in the stainless steel inner tank. A temperature sensor monitors the internal temperature in real time. After sterilization, the pressure relief valve is opened to release the internal pressure. An appropriate amount of sample is taken out through the sampling port to test for bacteria. After passing the test, the sample can be output through the outlet. Attached Figure Description

[0017] Figure 1 This is a front sectional view of a sterilization tank for producing fiber emulsions according to the present invention.

[0018] Figure 2 This is a partial three-dimensional structural diagram of a gear assembly for a sterilization tank used in the production of fiber emulsions according to the present invention.

[0019] Figure 3 This is a partial front sectional view of the stainless steel inner tank of a sterilization tank for the production of fiber emulsions according to this utility model.

[0020] In the diagram: 1. Stainless steel inner tank; 2. Heat-conducting copper pipe; 3. Insulation layer; 4. Circulating water pump; 5. Heater; 6. Motor; 7. Main shaft; 8. Central stirring blade; 9. Side frame; 10. Side stirring blade assembly; 11. Gear assembly; 1101. Internal gear; External gear; 12. Discharge port; 13. Inlet; 14. Pressure relief valve; 15. Temperature sensor; 16. Sampling port. Detailed Implementation

[0021] like Figure 1 and Figure 2 As shown, a sterilization tank for producing fiber emulsion includes a stainless steel inner tank 1 and a main shaft 7. A motor 6 is installed at the upper center of the stainless steel inner tank 1. The main shaft 7 is installed inside the center of the stainless steel inner tank 1, and a central stirring blade 8 is installed in the center of the main shaft 7. Side frames 9 are installed on the left and right sides of the main shaft 7, and a side stirring blade assembly 10 is rotatably connected to one side of the side frame 9. A gear assembly 11 is installed on the inner side of the side stirring blade assembly 10, and the gear assembly 11 is welded to the side stirring blade assembly 10. The gear assembly 11 includes an inner... The inner tooth 1101 and outer tooth 1102 are meshed with the outer tooth 1102 on the periphery of the inner tooth 1101. During the sterilization process, the motor 6 drives the middle stirring blade 8 on the main shaft 7 to rotate. The side frame 9 rotates with the main shaft 7, and the side stirring blade assembly 10 rotates as a whole with the side frame 9 in the inner stainless steel tank 1. The inner tooth 1101 and the outer tooth 1102 rotate relative to each other, thereby causing the side stirring blade assembly 10 to rotate itself, thereby evenly stirring the fiber emulsion in the inner stainless steel tank 1, ensuring uniform heating and better sterilization effect.

[0022] like Figure 1 and Figure 3 As shown, a heat-conducting copper pipe 2 is installed around the outer periphery of the stainless steel inner tank 1, and an insulation layer 3 is installed around the outer periphery of the heat-conducting copper pipe 2. A circulating water pump 4 is installed on the left side of the insulation layer 3, and a heater 5 is installed below the circulating water pump 4. A feed inlet 13 is installed on the upper left side of the insulation layer 3, and a pressure relief valve 14 is provided on one side of the feed inlet 13. A temperature sensor 15 is installed on the upper right side of the interior of the stainless steel inner tank 1, and the temperature sensor 15 is embedded in the stainless steel inner tank 1. A sampling port 16 is installed on the upper right side of the insulation layer 3. A discharge port 12 is installed on the lower right side of the temperature layer 3. The fiber emulsion is poured into the stainless steel inner tank 1 through the inlet 13. The circulating water pump 4 drives the heat transfer oil in the heat transfer copper pipe 2 to circulate. The heat transfer oil circulates through the heater 5 and is heated to a suitable temperature, thereby uniformly heating and sterilizing the fiber emulsion in the stainless steel inner tank 1. The temperature sensor 15 monitors the internal temperature in real time. After sterilization, the pressure relief valve 14 is opened to release the internal pressure. An appropriate amount of sample is taken out through the sampling port 16 to test for bacteria. After passing the test, the sample can be output through the discharge port 12.

[0023] Working Principle: When using this sterilization tank for fiber emulsion production, firstly, the fiber emulsion is poured into the stainless steel inner tank 1 through the feed port 13. The circulating water pump 4 drives the heat transfer oil in the heat transfer copper pipe 2 to circulate. The heat transfer oil circulates through the heater 5 and is heated to a suitable temperature, thereby uniformly heating and sterilizing the fiber emulsion in the stainless steel inner tank 1. The temperature sensor 15 monitors the internal temperature in real time. After sterilization, the pressure relief valve 14 is opened to release the internal pressure. An appropriate amount of sample is taken out through the sampling port 16 to test for bacteria. After passing the test, the sample can be output through the discharge port 12. During the sterilization process, the motor 6 drives the middle stirring blade 8 on the main shaft 7 to rotate. The side frame 9 rotates with the main shaft 7, and the side stirring blade assembly 10 rotates with the side frame 9 in the stainless steel inner tank 1. The inner teeth 1101 and the outer teeth 1102 rotate relative to each other, thereby causing the side stirring blade assembly 10 to rotate itself, thus uniformly stirring the fiber emulsion in the stainless steel inner tank 1, ensuring uniform heating and better sterilization effect.

Claims

1. A retort for sterilization of a fiber emulsion production, comprising a stainless steel inner tank (1) and a main shaft (7), characterized in that, A motor (6) is installed in the upper middle part of the stainless steel inner tank (1). The main shaft (7) is installed in the middle of the inside of the stainless steel inner tank (1). A stirring blade (8) is installed in the middle of the main shaft (7). Side frames (9) are installed on the left and right sides of the main shaft (7). A side stirring blade group (10) is rotatably connected to one side of the side frame (9).

2. The sterilization tank for fiber emulsion production according to claim 1, characterized in that, A gear assembly (11) is installed on the inner side of the side stirring blade assembly (10), and the gear assembly (11) is welded to the side stirring blade assembly (10).

3. A sterilization tank for producing fiber emulsions according to claim 2, characterized in that, The gear assembly (11) includes internal teeth (1101) and external teeth (1102), and the external teeth (1102) mesh with the periphery of the internal teeth (1101).

4. A sterilization tank for producing fiber emulsions according to claim 1, characterized in that, The stainless steel inner tank (1) is surrounded by a heat-conducting copper pipe (2), and the heat-conducting copper pipe (2) is surrounded by an insulation layer (3).

5. A sterilization tank for producing fiber emulsions according to claim 4, characterized in that, A circulating water pump (4) is installed on the left side of the insulation layer (3), and a heater (5) is installed below the circulating water pump (4).

6. A sterilization tank for producing fiber emulsions according to claim 4, characterized in that, A feed inlet (13) is installed on the upper left side of the insulation layer (3), and a pressure relief valve (14) is provided on one side of the feed inlet (13).

7. A sterilization tank for producing fiber emulsions according to claim 1, characterized in that, A temperature sensor (15) is installed on the upper right side of the inside of the stainless steel inner tank (1), and the temperature sensor (15) is embedded in the stainless steel inner tank (1).

8. A sterilization tank for producing fiber emulsions according to claim 4, characterized in that, A sampling port (16) is installed on the upper right side of the insulation layer (3), and a discharge port (12) is installed on the lower right side of the insulation layer (3).