A granule bagging device
By designing a combination of components such as a T-shaped baffle, a pusher block, a top rod, a rotating plate, and a swing plate, the shortcomings of existing granule bagging devices in pushing and blocking materials are solved, enabling intermittent feeding and unblocking, improving bagging efficiency and avoiding blockages, and enhancing overall efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHANGCHUN HUANYU JIMIN PHARM CO LTD
- Filing Date
- 2025-06-17
- Publication Date
- 2026-07-03
AI Technical Summary
Existing granule bagging devices have shortcomings in terms of material pushing and blocking, which makes them prone to overflow and blockage during the bagging process, reducing bagging efficiency and usage efficiency.
The design incorporates components such as T-shaped baffles, push blocks, top rods, rotating plates, and swing plates to achieve effective material pushing and blocking. Through the control of electric push rods and rotary motors, intermittent feeding and unblocking are achieved, avoiding overflow and blockage.
It improves bagging efficiency, reduces overflow and blockage, and enhances the utilization and working efficiency of the bagging device.
Smart Images

Figure CN224448217U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of granule technology, and in particular to a granule bagging device. Background Technology
[0002] Granules refer to dry granular preparations with a specific particle size, made by mixing raw materials and suitable excipients. Unless otherwise specified, the total amount of coarse particles larger than a No. 1 sieve and fine particles smaller than a No. 5 sieve in granules shall not exceed 15%. Granules can be swallowed directly or dissolved in water for drinking. Granules are a commonly used oral solid dosage form for medicines, especially traditional Chinese medicine. Some antibiotics are unstable in water and can be made into granules, which are dissolved or suspended in water before use, such as amoxicillin granules and cephalexin granules. A bagging device is required in the production of granules.
[0003] For example, a granule bagging device disclosed in application number 202220077955.7 can blow air into the granules in the bagging mechanism through the groove of the ventilation edge. By blowing the granules with air, impurities and small particles contained in the granules in the device are blown away, preventing them from entering the packaging with the granules, thus improving the practicality of the device.
[0004] However, the above structure cannot effectively push and block material during use, thus preventing intermittent feeding. This makes it prone to overflow during bagging, reducing bagging efficiency. Furthermore, it cannot effectively clear blockages and push material back, making the bagging tube prone to clogging, further reducing its usage and working efficiency. Therefore, we propose a granule bagging device. Utility Model Content
[0005] The purpose of this utility model is to solve at least one of the technical problems existing in the prior art, and to provide a granule bagging device that can effectively push and block material, thereby enabling intermittent feeding, making it less likely to overflow during the bagging process, improving the bagging efficiency, and effectively clearing and pushing material, thereby making the bagging tube less likely to be blocked, improving its usage efficiency and work efficiency.
[0006] To achieve the above objectives, a granule bagging device is provided, comprising: a feeding box body, wherein L-shaped support plates are bolted to the top of the feeding box body near the left and right sides respectively, a feed pipe is connected to the top of the feeding box body near the left side along the front-back direction, and a T-shaped partition is bolted to the inside of the feeding box body near the left side, and a bagging pipe is connected to the bottom of the feeding box body near the right side along the front-back direction respectively, and an electric push rod is connected through the L-shaped support plate on the left side and the left side of the feeding box body in the front-back direction, respectively, and through holes matching the electric push rod are respectively opened on the left side of the T-shaped partition near the front and back sides respectively, and a pusher block is connected to the right end of the electric push rod through the through hole, and the pusher block is slidably connected between the T-shaped partition and the feeding box body.
[0007] According to the aforementioned granule bagging device, a housing is bolted to the top of the feeding box near the right side, and the bottom of the housing is open. A swing plate is movably connected to the rear inner wall of the housing via a rotating shaft and bearings. A first connecting rod is movably connected to the front wall near the left side and the rear wall near the right side of the swing plate via a rotating shaft and bearings, respectively. A top rod matching the bagging tube is hinged to the bottom end of the first connecting rod, and a round hole matching the top rod is opened on the top of the feeding box.
[0008] According to the granule bagging device, grooves are provided on both the front and rear walls of the top rod, and the side of the first connecting rod that is away from the swing plate is movably connected in the groove through a rotating shaft and a bearing.
[0009] According to the aforementioned granule bagging device, a second connecting rod is movably connected to the front wall of the swing plate near the right side via a rotating shaft and a bearing, and a rotating plate is movably connected to the rear wall of the second connecting rod near the top via a rotating shaft and a bearing. The rear wall of the rotating plate is movably connected to the rear inner wall of the housing via a rotating shaft and a bearing near the bottom. A rotary motor is bolted to the rear outer wall of the housing, and the bottom end of the rotating shaft on the rear wall of the rotating plate passes through the inner ring of the bearing and is connected to the output shaft of the rotary motor.
[0010] According to the granule bagging device, the top rod is fitted with a limiting tube, and the bottom end of the limiting tube is bolted to the top of the feeding box.
[0011] According to the granule bagging device, a baffle is connected to the right side of the T-shaped partition, and the baffle has several evenly distributed fine holes. A fan is bolted to the right side of the feeding box, and the air inlet on the left side of the fan is connected to the inside of the feeding box. An L-shaped tube is fitted onto the air outlet on the right side of the fan.
[0012] The above solution has at least one of the following beneficial effects: This technical solution, through the cooperation between components such as T-shaped partition, pusher block, top rod, rotating plate and swing plate, enables it to effectively push and block material, thereby enabling intermittent feeding, which makes it less likely to overflow during the bagging process, thus improving its bagging efficiency. It also enables effective unblocking and material pushing, thus making its bagging tube less prone to blockage, thereby improving its usage efficiency and work efficiency.
[0013] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description
[0014] The present invention will be further described below with reference to the accompanying drawings and embodiments;
[0015] Figure 1 This is a front perspective view of the present invention;
[0016] Figure 2 for Figure 1 A schematic diagram of the cross-sectional structure;
[0017] Figure 3 for Figure 1 A partial top view structural schematic diagram;
[0018] Figure 4 for Figure 1 Partial 3D view of components such as the central rotating plate and the second connecting rod.
[0019] Legend:
[0020] 1. Feeding box body; 2. Electric push rod; 3. L-shaped support plate; 4. Feed pipe; 5. Shell; 6. Exhaust fan; 7. Bag filling pipe; 8. L-shaped pipe; 9. Push block; 10. T-shaped partition; 11. Baffle; 12. Fine hole; 13. Limiting tube; 14. First connecting rod; 15. Second connecting rod; 16. Rotating plate; 17. Swinging plate; 18. Top rod; 19. Rotary motor. Detailed Implementation
[0021] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and the overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.
[0022] Reference Figures 1 to 4This utility model discloses a granule bagging device, which includes a feeding box body 1. L-shaped support plates 3 are bolted to the top of the feeding box body 1 near the left and right sides. Feed pipes 4 are connected to the top of the feeding box body 1 near the left side along the front-back direction. T-shaped partitions 10 are bolted to the inside of the feeding box body 1 near the left side. Bagging pipes 7 are connected to the bottom of the feeding box body 1 near the right side along the front-back direction. Electric push rods 2 are connected through the L-shaped support plate 3 on the left side and the left side of the feeding box body 1 in the front-back direction. Through holes matching the electric push rods 2 are opened on the left side of the T-shaped partition 10 near the front and back sides. The right end of the electric push rod 2 passes through the through holes and is connected to a push block 9. The push block 9 is slidably connected between the T-shaped partition 10 and the feeding box body 1.
[0023] A baffle 11 is connected to the right side of the T-shaped partition 10, and the baffle 11 has several evenly distributed fine holes 12. A fan 6 is bolted to the right side of the feeding box 1, and the air inlet on the left side of the fan 6 is connected to the interior of the feeding box 1. An L-shaped pipe 8 is fitted onto the air outlet on the right side of the fan 6. This structure enables effective material pushing and blocking, allowing for intermittent feeding and reducing the risk of overflow during bagging, thus improving bagging efficiency.
[0024] The top of the feeding box 1 is bolted to a housing 5 near the right side, and the bottom of the housing 5 is open. A swing plate 17 is movably connected to the inner rear wall of the housing 5 via a shaft and bearing. A first connecting rod 14 is movably connected to the front wall near the left side and the rear wall near the right side of the swing plate 17 via shafts and bearings, respectively. A top rod 18 matching the bagging tube 7 is hinged to the bottom end of the first connecting rod 14. A round hole matching the top rod 18 is provided on the top of the feeding box 1. Grooves are provided on the front and rear walls of the top rod 18. The side of the first connecting rod 14 furthest from the swing plate 17 is movably connected via a shaft and bearing. The swing plate 17, located within the groove, has a second connecting rod 15 movably connected to its front wall near the right side via a shaft and bearing. A rotating plate 16 is movably connected to its rear wall near the top via a shaft and bearing. The rear wall of the rotating plate 16 is movably connected to the inner rear wall of the housing 5 via a shaft and bearing. A rotary motor 19 is bolted to the outer rear wall of the housing 5. The bottom end of the shaft on the rear wall of the rotating plate 16 passes through the inner ring of the bearing and connects to the output shaft of the rotary motor 19. A limiting tube 13 is fitted over the push rod 18, and the bottom end of the limiting tube 13 is bolted to the top of the feeding box 1. This structure allows for effective unblocking and material ejection, preventing clogging of the bagging tube and improving its efficiency and work efficiency.
[0025] Working Principle: In operation, this technical solution first places the feeding box 1 in the desired position using two L-shaped support plates 3. Then, the bag is fitted onto the bagging tube 7, and material is fed through the feeding pipe 4. Next, the exhaust fan 6 draws air through the baffle 11 and fine holes 12, removing fine dust. Then, the extension and retraction of the two electric push rods 2 moves the pushing block 9 to the right or left, blocking the feeding pipe 4 and pushing the material into the bagging tube 7. This allows for effective material pushing and blocking, thus enabling the system to... Intermittent feeding makes it less likely to overflow during bagging, thus improving bagging efficiency. The rotary motor 19 drives the rotating plate 16 to rotate, and the rotating plate 16 drives the swing plate 17 to swing through the second connecting rod 15. The swing plate 17 drives the top rod 18 to move downward or upward within the limiting tube 13 through the first connecting rod 14, so that the top rod 18 enters or exits the bagging tube 7, which can effectively clear and push the material, thus making the bagging tube less prone to blockage and improving its usage efficiency and working efficiency.
[0026] The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present utility model.
Claims
1. A granule bagging device, characterized in that, include: The feeding box (1) has an L-shaped support plate (3) connected to the top of the feeding box (1) near the left and right sides by bolts. The feeding box (1) has a feed pipe (4) connected to the top of the feeding box (1) near the left side along the front and back directions. The feeding box (1) has a T-shaped partition (10) connected to the inside of the feeding box (1) near the left side by bolts. The feeding box (1) has a bagging pipe (7) connected to the bottom of the feeding box (1) near the right side along the front and back directions. The L-shaped support plate (3) on the left side and the feeding box (1) on the left side are connected to an electric push rod (2) in the front and back directions. The T-shaped partition (10) has through holes on the left side near the front and back sides that match the electric push rod (2). The right end of the electric push rod (2) passes through the through hole and is connected to a pusher block (9). The pusher block (9) is slidably connected between the T-shaped partition (10) and the feeding box (1).
2. A granule bagging apparatus according to claim 1, wherein The top of the feeding box (1) is connected to a housing (5) by bolts near the right side, and the bottom of the housing (5) is open. The rear inner wall of the housing (5) is movably connected to a swing plate (17) by a rotating shaft and a bearing. The front wall of the swing plate (17) near the left side and the rear wall near the right side are respectively movably connected to a first connecting rod (14) by a rotating shaft and a bearing. The bottom end of the first connecting rod (14) is hinged to a top rod (18) that matches the bagging tube (7), and a round hole matching the top rod (18) is opened on the top of the feeding box (1).
3. A granule bagging apparatus according to claim 2, wherein The top rod (18) has grooves on its front and rear walls, and the side of the first connecting rod (14) that is away from the swing plate (17) is movably connected in the groove through a rotating shaft and a bearing.
4. A granule bagging apparatus according to claim 2, wherein The front wall of the swing plate (17) is movably connected to the second link (15) via a shaft and bearing near the right side. The rear wall of the second link (15) is movably connected to the rotating plate (16) via a shaft and bearing near the top. The rear wall of the rotating plate (16) is movably connected to the rear inner wall of the housing (5) via a shaft and bearing near the bottom. The rear outer wall of the housing (5) is connected to the rotary motor (19) via bolts. The bottom end of the shaft on the rear wall of the rotating plate (16) passes through the inner ring of the bearing and is connected to the output shaft of the rotary motor (19).
5. A granule bagging apparatus according to claim 2, wherein The top rod (18) is fitted with a limiting tube (13), and the bottom end of the limiting tube (13) is bolted to the top of the feeding box (1).
6. A granule bagging apparatus according to claim 1, wherein The right side of the T-shaped partition (10) is connected to a baffle (11), and the baffle (11) has several evenly distributed fine holes (12). The right side of the feeding box (1) is connected to an exhaust fan (6) by bolts, and the left air inlet of the exhaust fan (6) is connected to the inside of the feeding box (1). An L-shaped tube (8) is sleeved on the right air outlet of the exhaust fan (6).