A natural tobacco flavor purification apparatus
By designing a natural tobacco flavoring purification equipment with support plates, tank body, condenser and pressure reduction components, the problems of large size and heavy weight of the equipment have been solved, achieving efficient purification and convenient transportation, and improving the practicality of the equipment and the utilization rate of effective ingredients.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YUNNAN SMOOT BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-06-27
- Publication Date
- 2026-06-23
Smart Images

Figure CN224388093U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fragrance purification technology, and in particular to a device for purifying natural tobacco fragrances. Background Technology
[0002] Tobacco flavorings are additives used in the tobacco production process to enhance the aroma of tobacco. They are typically made from natural or synthetic raw materials, and purification is necessary during the manufacturing process to ensure quality.
[0003] For example, a Chinese patent discloses a tobacco flavoring purification device (publication number CN221344511U), which includes a reaction vessel and a collection tank connected to the reaction vessel for collecting solvent; a condensation component is provided between the reaction vessel and the collection tank for condensing the solvent discharged from the reaction vessel; a pressure reducing component and an evaporation component are provided on the collection tank, and the pressure reducing component is used to reduce the pressure inside the collection tank.
[0004] However, the aforementioned publicly available documents utilize an evaporation assembly to evaporate the liquid solvent inside the collection tank, thereby separating the active ingredients and achieving secondary purification, thus improving the utilization rate of the active ingredients. Furthermore, by incorporating a pressure-reducing assembly, the pressure inside the collection tank is lowered, thereby reducing the boiling point of the liquid solvent and shortening the solvent evaporation time, thus improving the purification efficiency of the active ingredients. However, in practical use, the large size and weight of the equipment not only occupy significant space but also hinder subsequent transportation, resulting in low practicality. Therefore, those skilled in the art have provided a natural tobacco flavoring purification device to address the problems mentioned in the background section. Utility Model Content
[0005] To address the shortcomings of existing technologies, this utility model provides a natural tobacco flavoring purification device, which solves the problem mentioned in the background technology that the large size and weight of the device not only occupies a lot of space but also makes subsequent transportation difficult, resulting in low practicality.
[0006] To achieve the above objectives, this utility model is implemented through the following technical solution: a natural tobacco flavoring purification device, comprising a base plate, with support plates fixed at both ends of the outer top surface of the base plate, and a tank body fixedly installed between the two support plates. The tank body has a reaction cavity and a collection cavity respectively opened inside. A square seat is welded to the top of the outer peripheral surface of the tank body, and a condensation component is provided on the outer top surface of the square seat for condensing the solvent discharged from the reaction cavity. An agitation component is provided inside the collection cavity for stirring the solvent inside the collection cavity. A pressure reducing component is provided on the right end of the outer peripheral surface of the tank body for reducing the pressure inside the collection cavity.
[0007] The condensation assembly includes a condensation box fixed to the top surface of the square base by bolts. A continuous S-shaped condensation tube is fixed inside the condensation box. The two ends of the condensation tube extend to the outer walls of the left and right sides of the condensation box, respectively. The reaction cavity is connected to the condensation tube through a pipe, and the collection cavity is connected to the condensation tube through a pipe. A sealing cover is fixed to the top surface of the condensation box by bolts. The outer walls of the front and rear sides of the condensation box are respectively connected by a circular tube and a circular tube.
[0008] The agitation assembly includes a rotating shaft rotatably installed inside the collection cavity. A cylinder one is fixed at the center of the outer wall of the rotating shaft. Cylinder two is fixed at both ends of the outer wall of the rotating shaft. Screw blades are fixed on the outer wall of cylinder one. U-shaped scrapers are fixed together and symmetrically on the outer walls of the two cylinders two.
[0009] As a further technical solution of this utility model, the pressure reducing assembly includes an air extraction pipe fixed on the right end of the outer wall of the tank, an air extraction component fixedly installed on the outer top surface of a support plate, one end of the air extraction pipe communicating with the collection cavity, and the other end communicating with the air extraction component, and an air extraction valve is provided on the outer peripheral surface of the tank and on the outer wall of the air extraction pipe.
[0010] As a further technical solution of this utility model, a flow cavity is provided inside the tank and at one end corresponding to the collection cavity. Circular pipes three and four, which communicate with the flow cavity, are respectively installed at the front and rear ends of the outer peripheral sidewall of the tank. A condenser pipe two is fixed inside the condenser box above the condenser pipe one. The two ends of the condenser pipe two extend to the left and right outer walls of the condenser box. The collection cavity is connected to the condenser pipe two through pipe three. A liquid collection box is fixed to the rear outer wall of the square base by bolts. The left outer wall of the liquid collection box is connected to the condenser pipe two through pipe four.
[0011] As a further technical solution of this utility model, a drive motor is fixedly installed on the outer wall of one of the support plates, and one end of the rotating shaft extends rotatably to the outer wall of one of the support plates and is fixedly connected to the output end of the drive motor.
[0012] As a further technical solution of this utility model, the upper and lower sides of the left end of the outer peripheral surface of the tank are respectively fixed and connected to the feed pipe and the discharge pipe one, and the lower side of the right end of the outer peripheral surface of the tank is fixed and connected to the discharge pipe two.
[0013] As a further technical solution of this utility model, each of the four corners of the outer top surface of the base plate is provided with a through-hole screw hole.
[0014] This utility model provides a purification device for natural tobacco flavorings, which has the following advantages compared with the prior art:
[0015] Beneficial effects:
[0016] 1. This design is a natural tobacco flavoring purification device. Through the cooperation of the set support plate, tank, reaction cavity and collection cavity, it can not only realize the purification of flavoring, but also greatly reduce the size and weight of the equipment, thereby reducing the space occupation and facilitating the later transportation, thus improving practicality.
[0017] 2. The natural tobacco flavoring purification equipment designed in this paper can exchange heat between the gas generated in the reaction chamber and the collection chamber and the condensing medium in the condensing box through the set condensing component, so that the gas is cooled and condensed into liquid, so as to facilitate the collection of solvent.
[0018] 3. The natural tobacco flavoring purification equipment designed in this paper can circulate the heating medium through the set flow cavity, circular tube three and circular tube four, thereby heating the collection cavity, causing the liquid solvent inside the collection cavity to evaporate and separate the effective components, realizing the secondary purification of the effective components, thereby improving the utilization rate of the effective components.
[0019] 4. The natural tobacco flavoring purification equipment designed in this paper reduces the pressure inside the collection tank by setting a pressure reducing component, thereby lowering the boiling point of the liquid solvent inside the collection tank, shortening the solvent evaporation time, and improving the purification efficiency of the active ingredients. Attached Figure Description
[0020] Figure 1 A first three-dimensional structural schematic diagram of a natural tobacco flavoring purification device;
[0021] Figure 2 A second three-dimensional structural diagram of a natural tobacco flavoring purification device;
[0022] Figure 3 A cross-sectional three-dimensional structural schematic diagram of a natural tobacco flavoring purification device;
[0023] Figure 4 for Figure 3 A three-dimensional schematic diagram of the partial structure at point A in the middle;
[0024] Figure 5 for Figure 3 A three-dimensional schematic diagram of the partial structure at point B in the middle.
[0025] In the picture:
[0026] 1. Base plate; 101. Support plate; 102. Tank body; 103. Reaction cavity; 104. Collection cavity; 105. Square base; 106. Screw hole;
[0027] 2. Condensation assembly; 201. Condensation box; 202. Condensation tube one; 203. Pipe one; 204. Pipe two; 205. Sealing cap; 206. Round tube one; 207. Round tube two;
[0028] 3. Agitator assembly; 301. Rotating shaft; 302. Cylinder 1; 303. Cylinder 2; 304. Screwdriver blades; 305. U-shaped scraper; 306. Drive motor;
[0029] 4. Pressure reducing assembly; 401. Evacuation pipe; 402. Evacuation component; 403. Evacuation valve;
[0030] 5. Flow cavity; 501. Circular tube three; 502. Circular tube four; 503. Condenser tube two; 504. Pipe three; 505. Liquid collection box; 506. Pipe four;
[0031] 6. Feed pipe; 601. Discharge pipe one; 602. Discharge pipe two. Detailed Implementation
[0032] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.
[0033] Please see Figure 1-5This utility model provides a technical solution for a natural tobacco flavoring purification device: it includes a base plate 1, with support plates 101 fixed at both ends of the top surface of the base plate 1. A tank body 102 is fixedly installed between the two support plates 101. Through-hole screw holes 106 are provided at the four corners of the top surface of the base plate 1. By tightening the bolts in the screw holes 106, the tank body 102 can be fixed in the working area, ensuring stability in subsequent use. A reaction cavity 103 and a collection cavity 104 are respectively provided inside the tank body 102. An inlet pipe 6 and an outlet pipe 601 are fixed and connected to the upper and lower sides of the left end of the outer circumference of the tank body 102. Opening the valve on the inlet pipe 6 allows the original... The material is conveyed to the interior of the reaction chamber 103 for reaction and purification (the reaction chamber 103 corresponds to the reaction vessel in the referenced document, and therefore can perform fragrance purification operations; its working principle is not described in the text and its internal structure is not shown in the attached diagram). Opening the valve on the discharge pipe 1 601 allows the material after reaction in the reaction chamber 103 to be discharged. The lower right side of the outer peripheral surface of the tank 102 is fixed and connected to the discharge pipe 2 602 (the collection chamber 104 corresponds to the collection tank in the referenced document, used for secondary purification of the effective components in the material). Opening the valve on the discharge pipe 2 602 allows the material after reaction in the collection chamber 104 to be discharged.
[0034] A square base 105 is welded to the top of the outer surface of the tank 102. A condensing assembly 2 is provided on the outer top surface of the square base 105. The condensing assembly 2 includes a condensing box 201 fixed to the outer top surface of the square base 105 by bolts (the threaded connection of the bolts facilitates disassembly and assembly). A continuous S-shaped condensing tube 202 is fixed inside the condensing box 201. The two ends of the condensing tube 202 extend to the left and right outer walls of the condensing box 201, respectively. The reaction cavity 103 is connected to the condensing tube 202 through the pipe 203. The collection cavity 104 is connected to the condensing tube 202 through the pipe 204. A sealing cover 205 is fixed to the outer top surface of the condensing box 201 by bolts (the sealing cover 205 facilitates maintenance of the interior of the condensing box 201). The condensing box 201 has a sealing cover 205 on the front and rear sides. The outer wall of the device is connected to two circular pipes, 206 and 207 respectively. First, the output end of the external condensing equipment is connected to the first circular pipe 206, and then the condensing medium (including cold water, cold air, etc.) is transported to the inside of the condensing box 201. Then, the second circular pipe 207 is connected to the input end of the equipment, which can discharge the condensing medium and achieve a circulation effect, thereby ensuring the stability of condensation. Then, the gaseous solvent evaporated in the reaction cavity 103 is transported to the inside of the first condensing pipe 202 along the first pipe 203. During the process of passing through the condensing box 201, it is refrigerated by the condensing medium, and the gaseous solvent is liquefied into liquid solvent. The valve on the second pipe 204 is opened, so that the liquid solvent flows into the inside of the collection cavity 104 along the second pipe 204.
[0035] An agitation assembly 3 is provided inside the collection cavity 104 to agitate the solvent inside the collection cavity 104. The agitation assembly 3 includes a rotating shaft 301 rotatably installed inside the collection cavity 104. A cylinder 302 is fixed at the center of the outer wall of the rotating shaft 301. Cylinders 303 are fixed at both ends of the outer wall of the rotating shaft 301. Screw blades 304 are fixed on the outer wall of cylinder 302. U-shaped scrapers 305 are fixed symmetrically on the outer walls of the two cylinders 303. A drive motor 306 is fixedly installed on the outer wall of one of the support plates 101. One end of the rotating shaft 301 extends rotatably to the outer wall of one of the support plates 101 and is fixedly connected to the output end of the drive motor 306. The drive motor 306 is controlled and started to drive the rotating shaft 301 to rotate the first cylinder 302 and the second cylinder 303 inside the collection cavity 104, so that the auger blades 304 can stir the liquid solvent inside the collection cavity 104 to ensure the uniformity of subsequent secondary purification.
[0036] A pressure-reducing assembly 4 is provided on the right end of the outer peripheral surface of the tank 102 to reduce the pressure inside the collection cavity 104. The pressure-reducing assembly 4 includes a suction pipe 401 fixed to the right end of the outer wall of the tank 102. A suction component 402 is fixedly installed on the outer top surface of a support plate 101. One end of the suction pipe 401 communicates with the collection cavity 104, and the other end communicates with the suction component 402. A suction valve 403 is provided on the outer peripheral surface of the tank 102 and on the outer wall of the suction pipe 401. The suction valve 403 is controlled and opened, and then the suction component 402 is activated to extract gas from inside the collection cavity 104 through the suction pipe 401 to reduce the pressure inside the collection cavity 104. After the pressure inside the collection cavity 104 decreases, the suction valve 403 is closed to facilitate subsequent secondary purification.
[0037] Inside the tank 102, at one end corresponding to the collection cavity 104, a flow cavity 5 is provided. At the front and rear ends of the outer peripheral sidewall of the tank 102, circular tubes 3 501 and 4 502, which communicate with the flow cavity 5, are respectively installed. Inside the condenser 201, above the first condenser tube 202, a second condenser tube 503 is fixed. The two ends of the second condenser tube 503 extend to the left and right outer walls of the condenser 201. The collection cavity 104 is connected to the second condenser tube 503 through the third condenser tube 504. The rear outer wall of the square base 105 is fixed with a liquid collection box 505 by bolts. The left outer wall of the liquid collection box 505 is connected to the second condenser tube 503 through the fourth condenser tube 506. First, the output end of the external heating device is connected to the circular tube 3 501, and then the heating medium (including hot water, hot air, etc.) is transported to the interior of the flow cavity 5. Then, the circular tube 4 502 is connected to the input end of the device, which can discharge the heating medium and achieve a circulating flow effect, thereby ensuring the stability of heating the collection cavity 104. The solvent inside the collection cavity 104 is heated and evaporated. Then, the evaporated gaseous solvent is transported along the pipe 3 504 to the interior of the condenser tube 2 503. During the process of passing through the condenser box 201, it is refrigerated by the condensing medium, and the gaseous solvent is liquefied into liquid solvent. Then, the valve on the pipe 4 506 is opened, so that the liquid solvent flows through the pipe 4 506 into the interior of the liquid collection box 505 for storage. This realizes the separation of solvent and effective ingredients and the secondary purification of effective ingredients, thereby improving the utilization rate of effective ingredients.
[0038] The working principle of this utility model is as follows: When in use, the raw materials are first transported to the inside of the reaction cavity 103 for evaporation reaction and purification. After evaporation, the gaseous solvent enters the condenser tube 202 along the pipe 203. During the process of passing through the condenser 201, the gaseous solvent is liquefied into liquid solvent and flows into the inside of the collection cavity 104 through the pipe 204.
[0039] Simultaneously close the valves on pipe 204 and pipe 4506, open the air extraction valve 403, and then start the air extraction component 402 to extract the gas inside the collection cavity 104 through the air extraction pipe 401, thereby reducing the pressure inside the collection cavity 104.
[0040] At the same time, after the internal pressure of the collecting cavity 104 decreases, the exhaust valve 403 is closed, and the mixture of effective components and solvent inside the collecting cavity 104 is heated by the heating medium inside the flowing cavity 5, making the volatile solvent easier to evaporate and vaporize.
[0041] Next, the drive motor 306 is started to drive the rotating shaft 301 to carry the auger blades 304 to stir the liquid solvent inside the collection cavity 104, ensuring uniform heating and improving evaporation efficiency.
[0042] Finally, the valve on pipe 4 506 is opened, allowing the liquid solvent to flow through pipe 4 506 into the collection box 505 for storage. This achieves the separation of solvent and active ingredient and the secondary purification of active ingredient, thereby improving the utilization rate of active ingredient.
[0043] It should be noted that the valve, the air extraction component 402, and the air extraction valve 403 are all existing technologies, and their working principles will not be described in detail in this article. Also, all electrical components mentioned in this article are electrically connected to the controller and the power supply. The control method of this utility model is controlled by the controller. The control circuit of the controller can be implemented by those skilled in the art through simple programming. The power supply is also common knowledge in the art, so the control method and circuit connection will not be explained in detail.
[0044] The above description is merely a preferred embodiment of this utility model. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principles of this utility model, and these improvements and modifications should also be considered within the scope of protection of this utility model. Structures, devices, and operating methods not specifically described or explained in this utility model are implemented according to conventional methods in the art, unless otherwise specified or limited.
Claims
1. A purification device for natural tobacco flavorings, characterized in that, The system includes a base plate (1), with support plates (101) fixed at both ends of the top surface of the base plate (1). A tank body (102) is fixedly installed between the two support plates (101). The tank body (102) has a reaction cavity (103) and a collection cavity (104) respectively. A square seat (105) is welded to the top of the outer peripheral surface of the tank body (102). A condensing component (2) is provided on the top surface of the square seat (105) to condense the solvent discharged from the reaction cavity (103). A stirring component (3) is provided inside the collection cavity (104) to stir the solvent inside the collection cavity (104). A pressure reducing component (4) is provided on the right end of the outer peripheral surface of the tank body (102) to reduce the pressure inside the collection cavity (104). The condensation assembly (2) includes a condensation box (201) fixed to the top surface of the square base (105) by bolts. A continuous S-shaped condensation tube (202) is fixed inside the condensation box (201). The two ends of the condensation tube (202) extend to the outer walls of the left and right sides of the condensation box (201) respectively. The reaction cavity (103) is connected to the condensation tube (202) through the pipe (203). The collection cavity (104) is connected to the condensation tube (202) through the pipe (204). A sealing cover (205) is fixed to the top surface of the condensation box (201) by bolts. A circular tube (206) and a circular tube (207) are respectively connected to the outer walls of the front and rear sides of the condensation box (201). The stirring assembly (3) includes a rotating shaft (301) rotatably installed inside the collecting cavity (104). A cylinder (302) is fixed at the center of the outer wall of the rotating shaft (301). Cylinders (303) are fixed at both ends of the outer wall of the rotating shaft (301). Screw blades (304) are fixed on the outer wall of cylinder (302). U-shaped scrapers (305) are fixed together and symmetrically on the outer walls of the two cylinders (303).
2. The purification equipment for natural tobacco flavorings according to claim 1, characterized in that, The pressure reducing assembly (4) includes an air extraction pipe (401) fixed on the right end of the outer wall of the tank (102). An air extraction component (402) is fixedly installed on the outer top surface of a support plate (101). One end of the air extraction pipe (401) is connected to the collection cavity (104), and the other end is connected to the air extraction component (402). An air extraction valve (403) is provided on the outer peripheral surface of the tank (102) and on the outer wall of the air extraction pipe (401).
3. The purification equipment for natural tobacco flavorings according to claim 1, characterized in that, A flow cavity (5) is provided inside the tank (102) and at one end corresponding to the collection cavity (104). The front and rear ends of the outer peripheral sidewall of the tank (102) are respectively equipped with a circular tube three (501) and a circular tube four (502) that communicate with the flow cavity (5). A condenser tube two (503) is fixed inside the condenser box (201) above the condenser tube one (202). The two ends of the condenser tube two (503) extend to the left and right outer walls of the condenser box (201). The collection cavity (104) is connected to the condenser tube two (503) through the pipe three (504). A liquid collection box (505) is fixed to the rear outer wall of the square base (105) by bolts. The left outer wall of the liquid collection box (505) is connected to the condenser tube two (503) through the pipe four (506).
4. The natural tobacco flavoring purification equipment according to claim 1, characterized in that, A drive motor (306) is fixedly installed on the outer wall of one of the support plates (101), and one end of the rotating shaft (301) extends rotatably to the outer wall of one of the support plates (101) and is fixedly connected to the output end of the drive motor (306).
5. The purification equipment for natural tobacco flavorings according to claim 1, characterized in that, The upper and lower sides of the left end of the outer peripheral surface of the tank (102) are respectively fixed and connected to the feed pipe (6) and the discharge pipe one (601), and the lower side of the right end of the outer peripheral surface of the tank (102) is fixed and connected to the discharge pipe two (602).
6. The natural tobacco flavoring purification equipment according to claim 1, characterized in that, The bottom plate (1) has through screw holes (106) at the four corners of its outer top surface.