Plant extract finished product sub-packaging and metering filling structure
Through innovative design of components such as electric slide rails and hydraulic telescopic rods, the problems of inaccurate metering and cross-contamination in filling equipment have been solved, achieving accurate metering and equipment adaptability, and improving filling efficiency and cleaning convenience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHAANXI RUIHE BIOENGINEERING CO LTD
- Filing Date
- 2025-08-04
- Publication Date
- 2026-06-16
AI Technical Summary
Existing filling equipment cannot accurately control the filling volume, is difficult to adapt to plant extracts of different forms and specifications, poses a risk of cross-contamination, and has low metering accuracy, making it difficult to meet diverse production needs.
It adopts an electric slide rail and slider design, combined with a hydraulic telescopic rod, electric rotating shaft and adjusting ring, to achieve precise adjustment and quantitative control of the discharge port. It is equipped with a scraper ring to prevent residue and supports adaptive filling of containers of different sizes.
It achieves precise metering and filling, avoids material spillage or shortage, improves the versatility and ease of cleaning of the equipment, and ensures filling quality and safety.
Smart Images

Figure CN224362553U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of filling technology, specifically a filling and metering structure for finished plant extract products. Background Technology
[0002] Plant extracts come in various forms, including liquids and pastes, some exhibiting precipitation characteristics, and others being heat-sensitive. They may also be acidic or alkaline. Existing filling structures suffer from drawbacks such as low metering accuracy, cumbersome adjustments when changing specifications, inconvenient cleaning leading to cross-contamination, and difficulty in adapting to different extract forms. This solution aims to achieve the following goals through innovative design: improve metering accuracy to ensure accurate finished product dosage; enhance adaptability to extracts of different forms and specifications, as well as containers; simplify the cleaning process to avoid cross-contamination; achieve intelligent control and monitoring to improve filling efficiency; and ensure the structure's compatibility and safety for extracts.
[0003] Meanwhile, a filling device for packaging biological extracts, disclosed in announcement number CN218596097U, relates to the field of filling. To address the problem in existing technologies where liquids flow downwards due to gravity during filling, come into contact with air, and trap air, causing air to enter the extract within the bottle, which remains after subsequent sealing and affects the content of the contents, the support frame includes a rear upright plate. A fixing plate is welded to the front end of the rear upright plate. A third drive motor is installed on one side of the fixing plate, and a swing plate is provided on the other side of the fixing plate along the output shaft of the third drive motor. Impact components are provided at both the upper and lower ends of the front end of the swing plate. Each impact component includes an inner telescopic rod, an outer pressure spring, a connecting block, and a rubber impact head. The rear end of the sleeve portion of the inner telescopic rod is connected to the swing plate, and the front end of the middle rod portion of the inner telescopic rod is connected to the connecting block.
[0004] The aforementioned biological extract packaging filling equipment cannot precisely control the filling volume each time during use, cannot guarantee the accuracy and consistency of product dosage, and cannot ensure the filling effect by adjusting filling parameters for plant extracts of different viscosities, thus failing to meet diverse production needs.
[0005] Therefore, a packaging and metering structure for finished plant extracts is proposed to address the above issues. Utility Model Content
[0006] To address the problems mentioned in the background art, this utility model provides a plant extract finished product dispensing and metering filling structure, which has the advantages of high flexibility, accurate metering, and wide applicability.
[0007] To achieve the above objectives, this utility model provides the following technical solution: a plant extract finished product dispensing and metering filling structure, including a connecting frame, an electric slide rail on the rear end face of the connecting frame, a slider slidably disposed inside the electric slide rail, a control frame one fixedly disposed on the rear end face of the slider, a control frame two attached to the upper end face of the control frame one, a hydraulic telescopic rod fixedly disposed inside the control frame two, and the hydraulic telescopic rod being fixedly disposed with the connecting frame.
[0008] Preferably, a discharge tank is slidably provided on the outside of the hydraulic telescopic rod, and an electric rotating shaft is fixedly provided on the lower end face of the discharge tank.
[0009] By adopting the above technical solution, the electric rotating shaft on the lower end face of the discharge tank facilitates subsequent discharge adjustment. The electric rotating shaft can drive the adjusting ring to rotate, thereby controlling the sliding of the adjusting column in the adjusting groove, and thus achieving precise adjustment of the opening and closing degree of the discharge port. This helps to achieve accurate metering and filling, and meet the packaging needs of products of different specifications.
[0010] Preferably, an adjusting ring one is fixedly provided on the lower end face of the electric rotating shaft, an adjusting groove is provided inside the adjusting ring one, an adjusting ring two is fixedly provided below the adjusting ring one, a limiting post is fixedly provided inside the adjusting ring two, a square groove is provided inside the adjusting ring one, and a discharge nozzle is fixedly provided on the lower end face of the adjusting ring one.
[0011] By adopting the above technical solution, the design of adjusting ring one and adjusting ring two, through the sliding engagement of the limiting post and the limiting groove of the block, as well as the sliding engagement of the adjusting post and the adjusting groove, enables precise control of the material discharge from the outlet. The flow rate and speed of the discharge can be flexibly adjusted according to actual needs, effectively avoiding material overflow or insufficient filling during the filling process.
[0012] Preferably, a placement plate is fixedly provided on the lower end face of the connecting frame, a support frame is fixedly provided on the lower end face of the placement plate, a storage tank is fixedly provided on the upper end face of the support frame, a connecting pipe is fixedly provided inside the storage tank, and the connecting pipe is fixedly connected to the discharge tank.
[0013] By adopting the above technical solution, a placement plate and support frame are installed at the lower end of the connecting frame to stably support the storage tank. The storage tank is connected to the discharge tank via a connecting pipe. This layout rationally solves the problems of material storage and transportation. The storage tank can store a large amount of plant extracts, while the connecting pipe ensures that the material can be smoothly transported from the storage tank to the discharge tank, providing a guarantee for continuous dispensing, metering, and filling.
[0014] Preferably, a scraper ring is fixedly provided on the lower end face of the hydraulic telescopic rod, and the scraper ring is inside the discharge tank.
[0015] By adopting the above technical solution, the scraping ring on the lower end face of the hydraulic telescopic rod is located inside the discharge tank. During the up-and-down movement of the hydraulic telescopic rod, the scraping ring can scrape the inner wall of the discharge tank, effectively preventing plant extracts from remaining on the inner wall of the discharge tank, ensuring the cleanliness and hygiene of the discharge, and also avoiding the impact of residual materials on the quality of subsequent filling products.
[0016] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0017] 1. This utility model features an electric slide rail and slider at the rear end of the connecting frame, allowing the control frame one to slide on the electric slide rail. This design provides the structure with a certain degree of horizontal movement flexibility, allowing the position of the control frame one to be adjusted according to actual filling needs to adapt to different container sizes or different filling layouts, thus improving the equipment's versatility and applicability. Simultaneously, by adjusting the position of the control frame one, the position of the control frame two can be adjusted, limiting the descent height of the hydraulic telescopic rod and achieving quantitative filling.
[0018] 2. This utility model provides convenience for subsequent discharge adjustment through the electric rotating shaft on the lower end face of the discharge tank. The electric rotating shaft can drive the adjusting ring to rotate, thereby controlling the sliding of the adjusting column in the adjusting groove, and thus realizing precise adjustment of the opening and closing degree of the discharge port, which helps to achieve accurate metering and filling and meet the packaging needs of products of different specifications. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the overall structure of the dispensing, metering, and filling structure of this utility model;
[0020] Figure 2 This is a schematic diagram of the installation structure of the hydraulic telescopic rod of this utility model;
[0021] Figure 3 This is a schematic diagram of the installation structure of the electric rotating shaft of this utility model;
[0022] Figure 4 This is a schematic diagram of the installation structure of the adjusting column of this utility model;
[0023] Figure 5 This is a schematic diagram of the installation structure of the scraper ring of this utility model.
[0024] In the diagram: 1. Support frame; 2. Storage tank; 3. Placement plate; 4. Connecting frame; 5. Connecting pipe; 6. Electric slide rail; 7. Slider; 8. Control frame one; 9. Control frame two; 10. Hydraulic telescopic rod; 11. Discharge tank; 12. Electric rotating shaft; 13. Adjusting ring one; 14. Adjusting groove; 15. Adjusting ring two; 16. Limiting post; 17. Square groove; 18. Square block; 19. Sealing block; 20. Adjusting post; 21. Limiting groove; 22. Scraper ring; 23. Discharge nozzle. Detailed Implementation
[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0026] The following describes an embodiment of this utility model based on its overall structure.
[0027] like Figures 1 to 5 As shown, this utility model provides a plant extract finished product dispensing and metering filling structure, including a connecting frame 4. An electric slide rail 6 is provided on the rear end face of the connecting frame 4. A slider 7 is slidably mounted inside the electric slide rail 6. A control frame 8 is fixedly mounted on the rear end face of the slider 7. A control frame 9 is attached to the upper end face of the control frame 8. A hydraulic telescopic rod 10 is fixedly mounted inside the control frame 9 and is fixedly mounted to the connecting frame 4. The electric slide rail 6 and slider 7 are located at the rear end of the connecting frame 4, allowing the control frame 8 to slide on the electric slide rail 6. This design provides the structure with a certain degree of horizontal movement flexibility, allowing the position of the control frame 8 to be adjusted according to actual filling needs to adapt to different container sizes or different filling layouts, improving the versatility and applicability of the equipment. Simultaneously, by adjusting the position of the control frame 8, the position of the control frame 9 is adjusted, limiting the descent height of the hydraulic telescopic rod 10 and achieving quantitative filling.
[0028] In this embodiment, a discharge tank 11 is slidably mounted on the outside of the hydraulic telescopic rod 10. An electric rotating shaft 12 is fixedly mounted on the lower end face of the discharge tank 11, which facilitates subsequent discharge adjustment. The electric rotating shaft 12 can drive the adjusting ring 13 to rotate, thereby controlling the sliding of the adjusting column 20 in the adjusting groove 14, and thus achieving precise adjustment of the opening and closing degree of the discharge port 23. This helps to achieve accurate metering and filling, meeting the packaging requirements of different specifications of products. A placement plate 3 is fixedly mounted on the lower end face of the connecting frame 4, and a support frame 1 is fixedly mounted on the lower end face of the placement plate 3. A storage tank 2 is fixedly mounted on the upper end face of the support frame 1. A connecting pipe 5 is fixedly mounted inside the storage tank 2, and the connecting pipe 5 is fixedly set to the discharge tank 11. The placement plate 3 and the support frame 1 are set at the lower end of the connecting frame 4 to stably support the storage tank 2. The storage tank 2 is connected to the discharge tank 11 through the connecting pipe. This layout reasonably solves the problem of material storage and transportation. The storage tank 2 can store a large amount of plant extracts, and the connecting pipe ensures that the material can be smoothly transported from the storage tank 2 to the discharge tank 11, which provides a guarantee for continuous dispensing, metering and filling. The lower end face of the electric rotating shaft 12 is fixedly provided with an adjusting ring 13. The adjusting ring 13 has an adjusting groove 14 inside. The lower part of the adjusting ring 13 is fixedly provided with an adjusting ring 25. The adjusting ring 25 has a limiting post 16 inside. The adjusting ring 13 has a square groove 17 inside. The lower end face of the adjusting ring 13 is fixedly provided with a discharge nozzle 23. The design of the adjusting ring 13 and the adjusting ring 25, through the sliding cooperation between the limiting post 16 and the limiting groove 21 of the square block 18, and the sliding cooperation between the adjusting post 20 and the adjusting groove 14, can achieve precise control of the discharge from the discharge nozzle 23. The flow rate and speed of the discharge can be flexibly adjusted according to actual needs, effectively avoiding material overflow or insufficient filling during the filling process. A block 18 is provided on the outside of the limiting column 16. Limiting grooves 21 are opened on both the left and right sides of the block 18, and the limiting grooves 21 are slidably set with the limiting column 16. A sealing block 19 is fixedly provided on the front end face of the block 18, and an adjusting column 20 is fixedly provided on the upper end face of the block 18, and the adjusting column 20 is slidably set with the adjusting groove 14. A scraping ring 22 is fixedly provided on the lower end face of the hydraulic telescopic rod 10, and the scraping ring 22 is inside the discharge tank 11. The scraping ring 22 on the lower end face of the hydraulic telescopic rod 10 is located inside the discharge tank 11. During the up and down movement of the hydraulic telescopic rod 10, the scraping ring 22 can scrape the inner wall of the discharge tank 11, effectively preventing plant extracts from remaining on the inner wall of the discharge tank 11, ensuring the cleanliness and hygiene of the discharge, and also avoiding the impact of residual materials on the quality of subsequent filled products.
[0029] Working principle and process of plant extract finished product dispensing, metering and filling structure:
[0030] When using the plant extract finished product dispensing and metering filling structure, the finished plant extract to be dispensed is poured into the storage tank 2, ensuring that the storage tank 2 has sufficient material for subsequent dispensing and metering filling. The plant extract in the storage tank 2 is transported to the discharge tank 11 through the connecting pipe 5 to prepare for filling. The container to be filled is placed in a suitable position, and the electric rotating shaft 12 is started. The electric rotating shaft 12 drives the adjusting ring 13 to rotate. When the adjusting ring 13 rotates, the adjusting groove 14 will drive the adjusting column 20 to slide. Since the adjusting column 20 is fixed on the block 18, and the block 18 is slidably connected to the limiting column 16 through the limiting groove 21, the block 18 will slide on the limiting column 16. When the block 18 slides, the sealing block 19 on its front end will move accordingly, thereby changing the size of the discharge port of the storage nozzle 23. By controlling the rotation angle of the electric rotating shaft 12, the opening and closing degree of the discharge port can be precisely adjusted, thereby controlling the flow rate and speed of the discharge and achieving accurate metering and filling. Simultaneously, the slider 7 slides in the electric slide rail 6, adjusting the position of control frame one 8 to adjust the position of control frame two, limiting the descent height of the hydraulic telescopic rod, and quantitatively extruding the material to achieve quantitative filling. After each filling is completed or when the material needs to be changed, the hydraulic telescopic rod 10 moves up and down, and the scraper ring 22 fixed to its lower end slides up and down inside the discharge tank 11. The scraper ring 22 can scrape off any residual plant extracts on the inner wall of the discharge tank 11, preventing material residue from affecting the quality of the next filling and ensuring the cleanliness of the inside of the discharge tank 11.
[0031] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.
[0032] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A plant extract finished product sub-packaging metering and filling structure comprising a connecting frame (4), characterized in that: The rear end face of the connecting frame (4) is provided with an electric sliding rail (6), the inside of the electric sliding rail (6) is slidably provided with a sliding block (7), the rear end face of the sliding block (7) is fixedly provided with a control frame one (8), the upper end face of the control frame one (8) is abutted with a control frame two (9), the inside of the control frame two (9) is fixedly provided with a hydraulic telescopic rod (10), and the hydraulic telescopic rod (10) is fixedly arranged with the connecting frame (4).
2. The plant extract end product sub-packaged metering and filling structure according to claim 1, characterized by: The outside of the hydraulic telescopic rod (10) is slidably provided with a discharging tank (11), and the lower end face of the discharging tank (11) is fixedly provided with an electric rotating shaft (12).
3. The plant extract finished product sub-packaged metering and filling structure according to claim 1, characterized in that: The lower end face of the connecting frame (4) is fixedly provided with a placing plate (3), the lower end face of the placing plate (3) is fixedly provided with a supporting frame (1), the upper end face of the supporting frame (1) is fixedly provided with a storage tank (2), the inside of the storage tank (2) is fixedly provided with a connecting pipe (5), and the connecting pipe (5) is fixedly arranged with the discharging tank (11).
4. The plant extract finished product sub-packaged metering and filling structure according to claim 2, characterized in that: The lower end face of the electric rotating shaft (12) is fixedly provided with an adjusting ring one (13), the inside of the adjusting ring one (13) is provided with an adjusting groove (14), the lower side of the adjusting ring one (13) is fixedly provided with an adjusting ring two (15), the inside of the adjusting ring two (15) is fixedly provided with a limiting column (16), the inside of the adjusting ring one (13) is provided with a square groove (17), the lower end face of the adjusting ring one (13) is fixedly provided with a discharging nozzle (23).
5. The plant extract finished product sub-packaged metering and filling structure according to claim 4, characterized in that: The outside of the limiting column (16) is provided with a square block (18), the inside of the square block (18) is provided with a limiting groove (21) on the left and right sides, and the limiting groove (21) is slidably arranged with the limiting column (16), the front end face of the square block (18) is fixedly provided with a sealing block (19), the upper end face of the square block (18) is fixedly provided with an adjusting column (20), and the adjusting column (20) is slidably arranged with the adjusting groove (14).
6. The plant extract finished product sub-packaged metering and filling structure according to claim 2, characterized in that: The lower end face of the hydraulic telescopic rod (10) is fixedly provided with a scraping ring (22), and the scraping ring (22) is inside the discharging tank (11).