A plant extraction concentration apparatus
By combining the support frame, steam generator, crushing rollers, and filter screen, the shortcomings of existing equipment in crushing, evaporation, and filtration collection are solved, realizing a highly efficient plant extraction and concentration process and improving the extraction efficiency of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- LINZHI YUZHIXIANG BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-07-01
- Publication Date
- 2026-06-26
AI Technical Summary
Existing plant extraction concentration equipment is not convenient for crushing plants, steaming to remove moisture from plant juices, or filtering and collecting the juices to remove impurities. This affects the uniformity of the juice's heating and consequently the extraction efficiency.
The system employs a combination design of a support frame, a steam generator, crushing rollers, a filter screen, and an electric heating block. The steam generator provides steam, the crushing rollers crush and vaporize the liquid, the filter screen separates the residue, and the electric heating block heats and concentrates the liquid, achieving efficient juice evaporation and filtration.
It improves the ease of plant crushing, promotes the steam evaporation and filtration collection of juice, enhances the uniformity of juice heating, and improves extraction efficiency.
Smart Images

Figure CN224404361U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of extraction and concentration equipment, specifically to a plant extraction and concentration equipment. Background Technology
[0002] Plant extraction concentration equipment refers to industrial devices specifically designed for the extraction and concentration of active ingredients from traditional Chinese medicine and various plants. These devices typically possess the following core functions: simultaneous extraction and concentration, solvent recycling, and efficient energy management. They are made of stainless steel, meet GMP hygiene standards, and can be adapted to steam heating or electric heating methods.
[0003] As disclosed in CN221981568U, a plant extraction concentration device includes a concentration tank, a support frame, and an exhaust pipe. The support frame is fixedly connected to the outer wall of the concentration tank, and the exhaust pipe is connected to the top of the concentration tank. A rotating rod is rotatably connected to the inner wall of the concentration tank, and a stirring rod is fixedly connected to the outer wall of the rotating rod. A rotating plate is fixedly connected to the top of the rotating rod, and a movable push column is fixedly connected to the top of the rotating plate. A movable sleeve plate is sleeved on the outer wall of the movable push column, and a piston push rod is fixedly connected to one side of the movable sleeve plate. A piston push plate is fixedly connected to one end of the piston push rod.
[0004] Although it incorporates a rotating plate and a movable push column, during the concentration of plant extracts, the rotating rod drives the rotating plate to move the movable push column, ultimately causing the heat inside the concentration tank to continuously circulate through the water in the circulation pipe. This ensures that the plant extracts inside the concentration tank are heated evenly, thus solving the problem of uneven heating of the plant extracts affecting extraction efficiency. Furthermore, by incorporating corresponding impact columns and an alarm bell, during the concentration of plant extracts, the movable plate drives the movable plate to move the corresponding impact columns. These impact columns continuously move and strike the alarm bell, causing it to ring continuously to alert nearby personnel and prevent them from getting burned when approaching the concentration tank.
[0005] However, the existing extraction and concentration equipment of this type is not conducive to the convenient crushing of plants, the steam evaporation of plant juice to remove moisture, the convenient filtration and collection of juice to remove impurities, and the efficient heating, evaporation and concentration of juice. This greatly affects the uniformity of juice heating and the extraction efficiency of the extraction and concentration equipment. Utility Model Content
[0006] The purpose of this utility model is to provide a plant extraction concentration device to solve the problems mentioned in the background art, such as the inconvenience of crushing plants, steam evaporation to remove water from plant juice, convenient filtration and collection to remove impurities from juice, and efficient heating and evaporation to concentrate juice, which affect the uniformity of juice heating and the extraction efficiency of the extraction concentration device.
[0007] To solve the above-mentioned technical problems, this utility model provides the following technical solution:
[0008] A plant extract concentration device includes a support frame and a steam generator. The steam generator is installed on the outside of the support frame, and a circular box is installed inside the support frame. A support frame is installed at the top of the support frame, and movable adapter sleeves are symmetrically installed on the side walls of the support frame. A feed hopper is installed at the top of the support frame, and a first baffle is installed on the side wall of the support frame. An electric pump is installed at the top of the steam generator, and multiple sets of delivery hoses are installed at the output end of the electric pump. All delivery hoses are connected to the movable adapter sleeves. A solenoid valve is installed at the bottom of the circular box, and an output pipe is installed at the bottom of the solenoid valve. A hollow box is installed on the top of the support frame away from the support frame, and a stepper motor is installed on the top of the support frame away from the hollow box. A servo motor is installed on the side wall of the hollow box.
[0009] Optionally, the output end of the servo motor is equipped with a first hollow shaft, which extends through the hollow box to its exterior.
[0010] Optionally, the first hollow shaft extends into the interior of the support frame and is connected to a set of movable adapter sleeves, and a second hollow shaft is movably installed inside the hollow box on the side away from the first hollow shaft.
[0011] Optionally, the second hollow shaft extends into the interior of the support frame and connects to another set of movable adapter sleeves, and a first gear is fitted onto the surface of the first hollow shaft inside the hollow box.
[0012] Optionally, a second gear is fitted onto the surface of the second hollow shaft inside the hollow box, and a first crushing roller is fitted onto the surface of the first hollow shaft inside the support frame.
[0013] Optionally, a second crushing roller is fitted onto the surface of the second hollow shaft inside the support frame, and multiple sets of air holes are provided on the surfaces of both the first and second crushing rollers.
[0014] Optionally, a hopper is installed at the bottom of the support frame, and a support shaft is installed at the output end of the stepper motor. The support shaft extends into the interior of the circular housing and is movably connected thereto.
[0015] Optionally, a cover plate is installed at the top of the circular box, and a filter screen is fitted on the surface of the support shaft.
[0016] Optionally, a stirring rack is fitted onto the surface of the support shaft below the filter screen, and multiple sets of equally spaced electric heating blocks are arranged inside the circular box.
[0017] Optionally, a second baffle is installed on the side wall of the cover plate, and a ramp is installed at the bottom end of the first baffle on one side of the second baffle, and the ramp is slidably connected to the filter screen.
[0018] Compared with the prior art, the beneficial effects of this utility model are: the extraction and concentration equipment not only facilitates the crushing of plants, the steam evaporation of plant juice to remove water, and the filtration, collection and impurity removal of the juice, but also facilitates the efficient heating, evaporation and concentration of the juice, improves the uniformity of the juice heating, and improves the extraction efficiency of the extraction and concentration equipment.
[0019] An electric pump delivers steam from the steam generator through a flexible hose and a movable adapter sleeve to the interiors of the first and second hollow shafts. The steam from the first hollow shaft passes through its mesh to the interior of the first crushing roller, and the steam from the second hollow shaft passes through its mesh to the interior of the second crushing roller. The steam is then ejected through vents on the surfaces of the first and second crushing rollers. After the plants are poured into the hopper, a servo motor drives the first hollow shaft to rotate, which in turn drives the first crushing roller. Simultaneously, the first hollow shaft drives the first gear to rotate, and the second gear drives the second hollow shaft and the second crushing roller to rotate. This rotation of the first and second crushing rollers crushes the plants. The steam, through the vents, partially vaporizes the crushed juice, facilitating convenient plant crushing and evaporation to remove moisture from the plant juice. This improves the ease of extracting juice from crushed plants using the concentration equipment.
[0020] When the unvaporized juice is extracted again, the juice and crushed residue fall onto the surface of the filter screen through the hopper. The juice passes through the filter screen and falls into the interior of the circular chamber, while the residue remains on the surface of the filter screen. A stepper motor drives the support shaft to rotate, which in turn drives the filter screen and the stirring rack to rotate. This causes the residue on the surface of the filter screen to rotate and be collected on the inclined surface. Multiple sets of heating blocks are activated to heat the juice inside the circular chamber, facilitating the removal of water from the juice at high temperatures and enabling concentration. The stirring rack stirs the juice inside the circular chamber, ensuring thorough mixing. This facilitates convenient filtration, collection, and impurity removal of the juice, as well as efficient heating, evaporation, and concentration. It also improves the uniformity of heating and increases the extraction efficiency of the concentration equipment. Attached Figure Description
[0021] The accompanying drawings, which are incorporated herein and form part of the specification, illustrate embodiments of the present invention and, together with the specification, further serve to explain the principles of the present invention and enable those skilled in the art to implement and use the present invention.
[0022] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0023] Figure 2 This is a front view structural diagram of the present utility model;
[0024] Figure 3 This is a three-dimensional structural diagram of the hollow box of this utility model;
[0025] Figure 4 This is a three-dimensional structural diagram of the support frame of this utility model;
[0026] Figure 5 This is a three-dimensional structural diagram of the filter screen of this utility model;
[0027] Figure 6 This is a three-dimensional structural diagram of the first baffle of this utility model;
[0028] Figure 7 This is a schematic diagram of the three-dimensional structure of the slope of this utility model;
[0029] Figure 8 This is a three-dimensional structural diagram of the output pipe of this utility model;
[0030] Figure 9 This is a three-dimensional structural diagram of the stirring rack of this utility model;
[0031] Figure 10This is a side view sectional structural diagram of the first crushing roller of this utility model;
[0032] Figure 11 This is a schematic diagram of the three-dimensional structure of the pores of this utility model.
[0033] Figure label:
[0034] 1. Support frame; 2. Steam generator; 3. Circular box; 4. Support frame; 5. Feed hopper; 6. First baffle; 7. Electric pump; 8. Conveying hose; 9. Solenoid valve; 10. Output pipe; 11. Servo motor; 12. Stepper motor; 13. First hollow shaft; 14. Second hollow shaft; 15. First gear; 16. Second gear; 17. First crushing roller; 18. Second crushing roller; 19. Air hole; 20. Movable adapter sleeve; 21. Feed hopper; 22. Support shaft; 23. Cover plate; 24. Filter screen; 25. Mixing rack; 26. Heating block; 27. Second baffle; 28. Hollow box; 29. Inclined ramp.
[0035] As shown in the figure, specific structures and devices are marked in the figure to clearly illustrate the structure of the embodiment of this utility model. However, this is only for illustrative purposes and is not intended to limit this utility model to this specific structure, device and environment. Those skilled in the art can adjust or modify these devices and environments according to specific needs. Detailed Implementation
[0036] The following is a detailed description of a plant extraction concentration device provided by this utility model, in conjunction with the accompanying drawings and specific embodiments. It should be noted that, to make the embodiments more detailed, the following embodiments are the best and preferred embodiments; those skilled in the art can also use other alternative methods to implement some known technologies; and the accompanying drawings are only for more specific description of the embodiments and are not intended to specifically limit this utility model.
[0037] It should be noted that the use of terms such as "an embodiment," "an embodiment," "an exemplary embodiment," and "some embodiments" in the specification indicates that the described embodiment may include a specific feature, structure, or characteristic, but not every embodiment necessarily includes that specific feature, structure, or characteristic. Furthermore, when a specific feature, structure, or characteristic is described in connection with an embodiment, implementing such a feature, structure, or characteristic in conjunction with other embodiments (whether explicitly described or not) should be within the knowledge of those skilled in the art.
[0038] Generally, terms can be understood at least partly from their use in context. For example, depending at least partly on the context, the term "one or more" as used herein can be used to describe any feature, structure, or characteristic in a singular sense, or a combination of features, structures, or characteristics in a plural sense. Additionally, the term "based on" can be understood not necessarily to convey an exclusive set of factors, but rather, alternatively, depending at least partly on the context, to allow for the presence of other factors that are not necessarily explicitly described.
[0039] It is understood that the meanings of “on”, “above”, and “above” in this utility model should be interpreted in the broadest manner, such that “on” not only means “directly on” something, but also includes the meaning of being “on” something with an intervening feature or layer, and that “above” or “above” not only means “on” something, but also includes the meaning of being “on” something without an intervening feature or layer.
[0040] Furthermore, spatially related terms such as “below,” “under,” “lower,” “above,” and “upper” are used herein for convenience to describe the relationship of one element or feature to one or more other elements or features, as illustrated in the accompanying drawings. Spatially related terms are intended to cover different orientations in the use or operation of the device other than those depicted in the accompanying drawings. The device may be oriented in other ways, and the spatially related descriptive terms used herein can be interpreted similarly.
[0041] like Figures 1 to 11As shown, an embodiment of this utility model provides a plant extraction concentration device, including a support frame 1 and a steam generator 2. The steam generator 2 is disposed on the outside of the support frame 1, and a circular box 3 is installed inside the support frame 1. A support frame 4 is installed at the top of the support frame 1, and movable adapter sleeves 20 are symmetrically installed on the side walls of the support frame 4. A feed hopper 5 is installed at the top of the support frame 4, and a first baffle 6 is installed on the side wall of the support frame 1. An electric pump 7 is installed at the top of the steam generator 2, and multiple sets of conveying hoses 8 are installed at the output end of the electric pump 7. All conveying hoses 8 are connected to the movable adapter sleeves 20. The circular box 3... A solenoid valve 9 is installed at the bottom, and an output pipe 10 is installed at the bottom of the solenoid valve 9. A hollow box 28 is installed on the top of the support frame 1 away from the support frame 4. A stepper motor 12 is installed on the top of the support frame 1 away from the hollow box 28. A servo motor 11 is installed on the side wall of the hollow box 28. A first hollow shaft 13 is installed at the output end of the servo motor 11. The first hollow shaft 13 extends through the hollow box 28 to its outside. The first hollow shaft 13 extends into the interior of the support frame 4 and is connected to a set of movable adapter sleeves 20. A second hollow shaft 14 is movably installed inside the hollow box 28 away from the first hollow shaft 13.
[0042] The second hollow shaft 14 extends into the interior of the support frame 4 and connects to another set of movable adapter sleeves 20. The surface of the first hollow shaft 13 inside the hollow box 28 is fitted with a first gear 15.
[0043] The surface of the second hollow shaft 14 inside the hollow box 28 is fitted with a second gear 16, and the surface of the first hollow shaft 13 inside the support frame 4 is fitted with a first crushing roller 17.
[0044] The surface of the second hollow shaft 14 inside the support frame 4 is fitted with a second crushing roller 18, and the surfaces of the first crushing roller 17 and the second crushing roller 18 are provided with multiple sets of air holes 19.
[0045] When using the plant extraction concentration equipment, turn on the electric pump 7. Supported by the steam generator 2, the electric pump 7 delivers the steam from inside the steam generator 2 through the delivery hose 8 and the movable adapter sleeve 20 to the interiors of the first hollow shaft 13 and the second hollow shaft 14 respectively. The first hollow shaft 13 delivers the steam through its own mesh to the interior of the first crushing roller 17, and the second hollow shaft 14 delivers the steam through its own mesh to the interior of the second crushing roller 18. The steam is then ejected through the air holes 19 on the surfaces of the first crushing roller 17 and the second crushing roller 18. After the plant is poured into the feed hopper 5, turn on the servo motor 11. Supported by the hollow box 28, the servo motor 11 drives the first hollow shaft 13 to... The first hollow shaft 13 drives the first crushing roller 17 to rotate, and at the same time, the first hollow shaft 13 drives the first gear 15 to rotate. Under the meshing of the first gear 15 and the second gear 16, the first gear 15 drives the second gear 16 to rotate, and the second gear 16 drives the second hollow shaft 14 and the second crushing roller 18 to rotate, so that the first crushing roller 17 and the second crushing roller 18 rotate to crush the plant. Steam is then vaporized through the air hole 19 to first vaporize a portion of the crushed juice, which facilitates the crushing of the plant and the removal of moisture from the plant juice by steam evaporation, thus improving the convenience of crushing plants and extracting juice from them using the extraction and concentration equipment.
[0046] A hopper 21 is installed at the bottom of the support frame 4, a support shaft 22 is installed at the output end of the stepper motor 12, the support shaft 22 extends into the interior of the circular box 3 and is movably connected thereto, a cover plate 23 is installed at the top of the circular box 3, and a filter screen 24 is fitted on the surface of the support shaft 22.
[0047] A stirring rack 25 is fitted on the surface of the support shaft 22 below the filter screen 24. Multiple sets of electric heating blocks 26 are arranged at equal intervals inside the circular box 3. A second baffle 27 is installed on the side wall of the cover plate 23. A ramp 29 is installed at the bottom end of the first baffle 6 on one side of the second baffle 27, and the ramp 29 is slidably connected to the filter screen 24.
[0048] When the unvaporized juice is extracted again, the juice and crushed residue fall through the hopper 21 onto the surface of the filter screen 24. The juice falls through the filter screen 24 into the interior of the circular housing 3, while the residue remains on the surface of the filter screen 24. The stepper motor 12 is turned on, and with the support of the support frame 1, the stepper motor 12 drives the support shaft 22 to rotate. With the support of the circular housing 3, the support shaft 22 drives the filter screen 24 and the stirring rack 25 to rotate, causing the filter screen 24 to rotate along with the residue on its surface. With the support of the first baffle 6 on the ramp 29, the residue on the surface of the filter screen 24 rotates to the surface of the ramp 29 and is then... The juice is collected and processed uniformly. Multiple sets of electric heating blocks 26 are turned on to heat the juice inside the circular box 3, facilitating the removal of water from the juice at high temperature and enabling concentration. The stirring rack 25 stirs the juice inside the circular box 3, ensuring thorough stirring, uniform heating, vaporization, collection, and extraction. After extraction, the solenoid valve 9 is opened, and the remaining juice is collected through the output pipe 10. This facilitates convenient filtration, collection, and impurity removal of the juice, and enables efficient heating, evaporation, and concentration. It also improves the uniformity of heating and the efficiency of the extraction and concentration equipment.
[0049] The working principle of the technical solution provided by this utility model is as follows: When using the plant extraction concentration equipment, the electric pump 7 delivers the steam inside the steam generator 2 through the conveying hose 8 and the movable adapter sleeve 20 to the interiors of the first hollow shaft 13 and the second hollow shaft 14 respectively. The first hollow shaft 13 delivers the steam through its own mesh to the interior of the first crushing roller 17, and the second hollow shaft 14 delivers the steam through its own mesh to the interior of the second crushing roller 18. The steam is then ejected through the air holes 19 on the surface of the first crushing roller 17 and the second crushing roller 18. After the plant is poured into the feed hopper 5, the servo motor 11 drives the first hollow shaft 13 to rotate, which in turn drives the first crushing roller 17 to rotate. The second gear 16 drives the second hollow shaft 14 and the second crushing roller 18 to rotate, causing the first crushing roller 17 to rotate. The second crushing roller 18 rotates to crush the plant. Steam is used to vaporize a portion of the crushed juice through the air hole 19. When the unvaporized juice is extracted again, the juice and crushed residue fall through the hopper 21 onto the surface of the filter screen 24. The juice falls through the filter screen 24 into the interior of the circular box 3, while the residue remains on the surface of the filter screen 24. The stepper motor 12 drives the support shaft 22 to rotate, which in turn drives the filter screen 24 and the stirring frame 25 to rotate. This causes the filter screen 24 to rotate, and the residue on its surface rotates to the surface of the slope 29 for unified collection and processing. The heating block 26 heats the juice inside the circular box 3 to facilitate the removal of water from the juice at high temperature, thus facilitating concentration and completing the operation of the extraction and concentration equipment.
[0050] This utility model encompasses any substitutions, modifications, equivalent methods, and solutions made within the spirit and scope of this utility model. To provide the public with a thorough understanding of this utility model, specific details are described in detail in the following preferred embodiments; however, those skilled in the art will fully understand this utility model even without these detailed descriptions. Furthermore, to avoid unnecessary confusion regarding the essence of this utility model, well-known methods, processes, procedures, components, and circuits are not described in detail.
[0051] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.
Claims
1. A plant extract concentration device, characterized in that: The device includes a support frame and a steam generator. The steam generator is installed on the outside of the support frame, and a circular box is installed inside the support frame. A support frame is installed at the top of the support frame, and movable adapter sleeves are symmetrically installed on the side walls of the support frame. A feed hopper is installed at the top of the support frame, and a first baffle is installed on the side wall of the support frame. An electric pump is installed at the top of the steam generator, and multiple sets of conveying hoses are installed at the output end of the electric pump. All conveying hoses are connected to the movable adapter sleeves. A solenoid valve is installed at the bottom of the circular box, and an output pipe is installed at the bottom of the solenoid valve. A hollow box is installed on the top of the support frame away from the support frame, and a stepper motor is installed on the top of the support frame away from the hollow box. A servo motor is installed on the side wall of the hollow box.
2. The plant extraction concentration equipment according to claim 1, characterized in that: The output end of the servo motor is equipped with a first hollow shaft, which extends through the hollow box to the outside.
3. The plant extraction concentration equipment according to claim 2, characterized in that: The first hollow shaft extends into the interior of the support frame and is connected to a set of movable adapter sleeves. A second hollow shaft is movably installed inside the hollow box on the side away from the first hollow shaft.
4. The plant extraction concentration equipment according to claim 3, characterized in that: The second hollow shaft extends into the interior of the support frame and connects to another set of movable adapter sleeves. The surface of the first hollow shaft inside the hollow box is fitted with a first gear.
5. The plant extraction concentration equipment according to claim 4, characterized in that: A second gear is fitted onto the surface of the second hollow shaft inside the hollow box, and a first crushing roller is fitted onto the surface of the first hollow shaft inside the support frame.
6. The plant extraction concentration equipment according to claim 5, characterized in that: The second crushing roller is fitted onto the surface of the second hollow shaft inside the support frame, and multiple sets of air holes are provided on the surfaces of both the first and second crushing rollers.
7. The plant extraction concentration equipment according to claim 6, characterized in that: A hopper is installed at the bottom of the support frame, and a support shaft is installed at the output end of the stepper motor. The support shaft extends into the interior of the circular box and is movably connected thereto.
8. The plant extraction concentration equipment according to claim 7, characterized in that: The top of the circular box is fitted with a cover plate, and the surface of the support shaft is fitted with a filter screen.
9. The plant extraction concentration equipment according to claim 8, characterized in that: A stirring rack is fitted onto the surface of the support shaft below the filter screen, and multiple sets of equally spaced heating blocks are arranged inside the circular box.
10. The plant extraction concentration equipment according to claim 9, characterized in that: A second baffle is installed on the side wall of the cover plate, and a ramp is installed at the bottom end of the first baffle on one side of the second baffle, and the ramp is slidably connected to the filter screen.