A packaging device for oral lyophilized spleen peptide powder

By introducing a suction cup combined with a protective mechanism into the packaging device for spleen peptide lyophilized powder, the problem of packaging boxes falling off due to unstable suction cup adsorption was solved, and stable transfer of packaging boxes of different sizes was achieved.

CN224477176UActive Publication Date: 2026-07-10ZHEJIANG FENGAN BIOPHARM

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG FENGAN BIOPHARM
Filing Date
2025-08-28
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing packaging devices for spleen peptide lyophilized powder rely on suction cups, which are difficult to stably hold the packaging box in place. When the suction cup tubing becomes blocked, the packaging box is prone to falling off, affecting the transportation process.

Method used

The system employs a suction cup combined with a protective mechanism, including a rotating frame, claws, and an adjustment mechanism. After the suction cup is adsorbed by a cylinder, the rotating frame drives the claws to contact the bottom of the packaging box to prevent it from falling. The angle of the claws can be adjusted by a threaded rod to accommodate different sizes, and an anti-accidental contact mechanism prevents accidental operation.

Benefits of technology

It achieves stable positioning of packaging boxes during transportation, preventing them from falling, adapting to packaging boxes of different sizes, and improving the stability and reliability of transportation.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a packaging device for spleen peptide oral lyophilized powder, belonging to the technical field of packaging devices for spleen peptide lyophilized powder. It includes a conveyor a and a heat-sealing assembly. A conveyor b is provided on one side of conveyor a, a box-picking mechanism is provided on one side of conveyor b, a plate-separating mechanism is provided on the top of conveyor b, and a heat-sealing assembly is installed on the top of conveyor a. A film-cutting assembly is provided on one side of the heat-sealing assembly, and a conveyor belt is provided on the side of conveyor a near conveyor b. In this packaging device for spleen peptide oral lyophilized powder, when the packaging box is conveyed from conveyor a to conveyor b, it can be attracted by suction cups and then transferred by the conveyor belt. Simultaneously, a protective mechanism can move to limit the bottom of the packaging box, preventing it from falling. The protective range of the protective mechanism can be adjusted by two sets of adjustment mechanisms to accommodate packaging boxes of different sizes.
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Description

Technical Field

[0001] This utility model relates to the technical field of packaging device for spleen peptide lyophilized powder, specifically a packaging device for oral lyophilized spleen peptide powder. Background Technology

[0002] Spleen peptide oral lyophilized powder is a biological product. After production, it needs to be first put into glass bottles, then into packaging boxes, and then the outside of the packaging boxes is wrapped and packaged by a plastic sealing machine before being transported to other workstations for further packaging.

[0003] Existing spleen peptide lyophilized powder packaging devices use suction cups to adhere to the sealed lyophilized powder packaging boxes during transfer, and then transfer them to another set of conveyors. However, relying solely on suction cups makes it difficult to stably limit the position of the packaging boxes. When the suction cup tubing becomes blocked, it becomes difficult to stably adhere to the packaging boxes, which can easily cause the packaging boxes to fall off, affecting the transfer and conveying of the spleen peptide lyophilized powder packaging boxes. Utility Model Content

[0004] The purpose of this invention is to provide a packaging device for spleen peptide oral lyophilized powder, in order to solve the problem mentioned in the background art that the existing packaging device for spleen peptide lyophilized powder relies solely on suction cup adsorption to transfer the packaging box, which is difficult to achieve stable positioning. When the suction cup tube is blocked, it is difficult to stably adsorb the packaging box, causing the packaging box to fall off, which affects the transfer and transportation of the spleen peptide lyophilized powder packaging box.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a packaging device for oral lyophilized spleen peptide powder, comprising a conveyor a and a heat sealing assembly, a conveyor b disposed on one side of the conveyor a, a box-removing mechanism disposed on one side of the conveyor b; a plate-separating mechanism disposed on the top of the conveyor b, a heat sealing assembly mounted on the top of the conveyor a, a film-cutting assembly disposed on one side of the heat sealing assembly, a conveyor belt disposed on the side of the conveyor a near the conveyor b, a fixing plate disposed on one side of the conveyor belt and disposed on one side of the conveyor a, a cylinder fixed on the other side of the conveyor belt, a connecting frame fixed at the bottom of the cylinder, two sets of connecting pipes fixed at the bottom of the connecting frame, multiple sets of suction cups fixed at the bottom of the connecting pipes, and protective mechanisms for preventing material from falling off disposed on both sides of the connecting pipes; a top block disposed on the top of the connecting frame, and an adjusting mechanism a disposed inside the top block for adjusting its position.

[0006] Furthermore, the plate-separating mechanism includes a drive assembly disposed on the top of the conveyor b, one side of the drive assembly is fixedly mounted to a fixed plate, multiple sets of feeding claws are fixed to the outside of the drive assembly, and a connecting frame is fixed to one end of the conveyor b.

[0007] Furthermore, the protective mechanism includes a rotating frame rotatably connected to both sides of the connecting frame via a rotating shaft. A tension spring is fixed to one side of the rotating frame, and one end of the tension spring is fixed to the connecting frame. A claw row is provided on one side of the rotating frame, and an adjustment mechanism b for adjusting its position is provided on one side of the claw row.

[0008] Furthermore, the adjustment mechanism b includes a bracket fixed on one side of the claw row, and a threaded rod a is threadedly connected to the middle of the bracket. One end of the threaded rod a is rotatably connected to the rotating frame through a bearing. Sliding rods are slidably connected to both ends of the bracket. One end of the sliding rod is fixed to the rotating frame. The threaded rod a and the bracket form a threaded transmission structure.

[0009] Furthermore, the adjustment mechanism a includes a threaded rod b internally threaded to the top block, the top of the threaded rod b being fixed to the cylinder, a ball bearing being rolledly connected to the bottom of the top block, and an anti-accidental contact mechanism being provided on the outer side of the top block. The threaded rod b and the top block constitute a threaded transmission structure.

[0010] Furthermore, the anti-accidental touch mechanism includes a connecting sleeve fitted on the outer side of the top block, a protrusion fixed on the inner side of the connecting sleeve, an annular groove matching the protrusion in the middle of the top block, multiple sets of through grooves on the top of the annular groove, a limiting groove on the top of the through groove, and both the limiting groove and the through groove are opened on the outer side of the top block.

[0011] Compared with the prior art, the beneficial effects of this utility model are as follows: When the packaging box of the spleen peptide oral lyophilized powder is transported from conveyor a to conveyor b, it can be adsorbed by a suction cup and then transferred by a conveyor belt. At the same time as the transfer, the protective mechanism can move synchronously to limit the bottom of the packaging box and prevent it from falling. The protective range of the protective mechanism can be adjusted by two sets of adjustment mechanisms to adapt to packaging boxes of different sizes.

[0012] 1. After the suction cup picks up the packaging box, the cylinder will move it upward. When the connecting frame moves to the highest point, the rotating frame surface will be squeezed and rotated by the top block, which will drive the claw row on one side to rotate, so that the arc surface at the bottom of the claw row contacts the bottom of the packaging box, thereby protecting the packaging box from falling.

[0013] 2. By rotating the top block and threaded rod b through threaded transmission, the position of the top block is moved. At this time, after the rotating frame moves to the highest point, the rotation angle will change, and the rotation angle of the claw row will also change accordingly, so as to adapt to the change of the width of the packaging box. The anti-accidental touch mechanism can prevent the top block from being moved due to accidental touch. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0015] Figure 2 This is a three-dimensional structural diagram of the conveyor a of this utility model;

[0016] Figure 3 This utility model Figure 1 A magnified structural diagram at point A;

[0017] Figure 4 This is a three-dimensional structural diagram of the suction cup of this utility model;

[0018] Figure 5 This is a schematic diagram of the three-dimensional structure of the claw-shaped structure of this utility model;

[0019] Figure 6 This utility model Figure 4 A magnified structural diagram at point B;

[0020] Figure 7 This is a three-dimensional structural diagram of the connecting sleeve of this utility model.

[0021] In the diagram: 1. Conveyor a; 2. Conveyor b; 3. Box picking mechanism; 4. Drive assembly; 5. Feeding claw; 6. Connecting frame; 7. Heat sealing assembly; 8. Film cutting assembly; 9. Conveyor belt; 10. Cylinder; 11. Connecting frame; 12. Connecting pipe; 13. Suction cup; 14. Rotating frame; 15. Tension spring; 16. Claw row; 17. Threaded rod a; 18. Slide rod; 19. Top block; 20. Threaded rod b; 21. Connecting sleeve; 22. Protrusion; 23. Annular groove; 24. Through groove; 25. Limiting groove. Detailed Implementation

[0022] 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.

[0023] Example 1: Please refer to Figures 1-2This utility model provides the following technical solution: a packaging device for spleen peptide oral lyophilized powder, including a conveyor a1 and a heat sealing assembly 7. A conveyor b2 is provided on one side of the conveyor a1, and a box-removing mechanism 3 is provided on one side of the conveyor b2. A plate-separating mechanism is provided on the top of the conveyor b2. The heat sealing assembly 7 is installed on the top of the conveyor a1. A film-cutting assembly 8 is provided on one side of the heat sealing assembly 7. A conveyor belt 9 is provided on the side of the conveyor a1 near the conveyor b2. A fixing plate is installed on one side of the conveyor belt 9 and is located on one side of the conveyor a1. A cylinder 10 is fixed on the other side of the conveyor belt 9. A connecting frame 11 is fixed at the bottom of the cylinder 10. Two sets of connecting pipes 12 are fixed at the bottom of the connecting frame 11. Multiple sets of suction tubes are fixed at the bottom of the connecting pipes 12. The tray 13 and the connecting pipe 12 are equipped with protective mechanisms on both sides to prevent materials from falling. When the lyophilized powder is sealed after being boxed, the lyophilized powder packaging device feeds the lyophilized powder packaging box onto the conveyor a1. After the film is applied, the conveyor a1 feeds the box into the heat sealing assembly 7, so that the packaging film adheres to the heat sealing assembly 7. Then, the excess packaging film is cut off by the film cutting assembly 8. Subsequently, the cylinder 10 drives the suction cup 13 to move down to adsorb the packaging box, and then moves it up. Under the action of the conveyor belt 9, the packaging box is moved to the conveyor b2. The conveyor b2 will transport the packaging box to the plate separating mechanism, and the plate separating mechanism will transport the packaging box individually to the box picking mechanism 3, thus completing the packaging and transport of the lyophilized powder packaging box.

[0024] Please see Figure 1 and Figure 3 The sorting mechanism includes a drive assembly 4 mounted on the top of the conveyor b2. One side of the drive assembly 4 is fixed to a fixed plate. Multiple sets of feeding claws 5 are fixed to the outside of the drive assembly 4. A connecting frame 6 is fixed to one end of the conveyor b2. When the sorting mechanism is in motion, the drive assembly 4 will drive the multiple sets of feeding claws 5 to rotate. Each set of feeding claws 5 will move a set of packaging boxes on the conveyor b2 to the connecting frame 6 and push the packaging boxes on the connecting frame 6 to the partition conveyor on one side for orderly conveying.

[0025] Please see Figure 2 , Figure 4 and Figure 5The protective mechanism includes a rotating frame 14 rotatably connected to both sides of the connecting frame 11 via a rotating shaft. A tension spring 15 is fixed to one side of the rotating frame 14, and one end of the tension spring 15 is fixed to the connecting frame 11. A claw row 16 is provided on one side of the rotating frame 14, and an adjustment mechanism b for adjusting its position is provided on one side of the claw row 16. After the suction cup 13 adsorbs the packaging box, the cylinder 10 will drive it to move upward, and the rotating frame 14 will also move accordingly. When the connecting frame 11 moves to the highest point, the inclined surface on one side of the rotating frame 14 will contact the top block 19. At this time, the rotating frame 14 will rotate and pull the tension spring 15 on one side to extend. At the same time, the rotating frame 14 will drive the claw row 16 on one side to rotate, so that the arc-shaped surface at the bottom of the claw row 16 contacts the bottom of the packaging box, thereby protecting the packaging box from falling. When the packaging box moves onto the conveyor b2, the connecting frame 11 will move downward. At this time, the tension spring 15 will reset and pull the rotating frame 14 to unfold, releasing the limitation on the bottom of the packaging box.

[0026] Please see Figure 5 The adjusting mechanism b includes a bracket fixed to one side of the claw row 16, and a threaded rod a17 is threadedly connected to the middle of the bracket. One end of the threaded rod a17 is rotatably connected to the rotating frame 14 through a bearing. The two ends of the bracket are slidably connected to the slide rod 18. One end of the slide rod 18 is fixed to the rotating frame 14. The threaded rod a17 and the bracket form a threaded transmission structure. When the height of the packaging box changes, the extension length of the claw row 16 can be adjusted. By rotating the threaded rod a17 and the bracket on one side of the claw row 16, the threaded transmission is carried out, so that the claw row 16 moves to adapt to packaging boxes of different heights, ensuring that the arc-shaped surface at the bottom of the claw row 16 can contact the bottom of the packaging box.

[0027] The above steps facilitate the protection of the packaging boxes during transit from falling.

[0028] Example 2:

[0029] Please see Figure 4 and Figure 6Based on Embodiment 1, an adjustment structure for the position of the top block 19 is also disclosed. The specific structure is as follows: The top block 19 is set on the top of the connecting frame 11, and the top block 19 is provided with an adjustment mechanism a for adjusting its position. The adjustment mechanism a includes a threaded rod b20 threadedly connected inside the top block 19. The top of the threaded rod b20 is fixed to the cylinder 10, and the bottom of the top block 19 is rolled with a ball. An anti-accidental contact mechanism is provided on the outside of the top block 19. The threaded rod b20 and the top block 19 constitute a threaded transmission structure. When the width of the next batch of packaging boxes changes, the angle of rotation of the claw row 16 needs to be changed synchronously. By rotating the top block 19 and the threaded rod b20 for threaded transmission, the position of the top block 19 moves. Since the position of the connecting frame 11 at the highest point is fixed, the rotation angle of the rotating frame 14 will change after it moves to the highest point, thereby adapting to the change in the width of the packaging box.

[0030] Please see Figure 6 and Figure 7 The anti-accidental touch mechanism includes a connecting sleeve 21 sleeved on the outer side of the top block 19. A protrusion 22 is fixed on the inner side of the connecting sleeve 21. An annular groove 23 matching the protrusion 22 is opened in the middle of the top block 19. Multiple sets of passage grooves 24 are provided on the top of the annular groove 23. A limiting groove 25 is provided on the top of the passage groove 24. Both the limiting groove 25 and the passage groove 24 are opened on the outer side of the top block 19. In order to prevent the top block 19 from moving due to accidental touch, a set of connecting sleeves 21 are provided on its outer side. The connecting sleeves 21 are in a normal state In this state, under the influence of gravity, the inner protrusion 22 will be in the annular groove 23 on the outer side of the top block 19. At this time, the connecting sleeve 21 will not drive the top block 19 to rotate when it rotates. The connecting sleeve 21 can prevent the top block 19 from moving due to accidental contact. When it is necessary to rotate the top block 19, the protrusion 22 on the inner side of the connecting sleeve 21 is aligned with the annular groove 23, and then the connecting sleeve 21 is moved upward, driving the protrusion 22 to pass through the annular groove 23 and move into the limiting groove 25. At this time, the connecting sleeve 21 can be rotated to drive the top block 19 to rotate.

[0031] By performing the above operations, the packaging box can be adapted to changes in size, thus providing protection against it falling.

[0032] The contents not described in detail in this specification are existing technologies known to those skilled in the art.

[0033] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A packaging device for oral lyophilized spleen peptide powder, comprising a conveyor a (1) and a heat sealing assembly (7), wherein a conveyor b (2) is provided on one side of the conveyor a (1), and a box-removing mechanism (3) is provided on one side of the conveyor b (2). Its features are: The top of the conveyor b (2) is provided with a plate-separating mechanism, the top of the conveyor a (1) is provided with a heat-sealing assembly (7), a film-cutting assembly (8) is provided on one side of the heat-sealing assembly (7), a conveyor belt (9) is provided on the side of the conveyor a (1) near the conveyor b (2), a fixing plate is installed on one side of the conveyor belt (9), and the fixing plate is located on one side of the conveyor a (1), a cylinder (10) is fixed on the other side of the conveyor belt (9), a connecting frame (11) is fixed at the bottom of the cylinder (10), two sets of connecting pipes (12) are fixed at the bottom of the connecting frame (11), multiple sets of suction cups (13) are fixed at the bottom of the connecting pipes (12), and protective mechanisms for preventing materials from falling are provided on both sides of the connecting pipes (12). The top block (19) is located on top of the connecting frame (11), and the top block (19) is provided with an adjustment mechanism a for adjusting its position.

2. The packaging device for oral lyophilized spleen peptide according to claim 1, characterized in that: The plate-separating mechanism includes a drive assembly (4) installed on the top of the conveyor b (2). One side of the drive assembly (4) is fixed to the fixed plate. Multiple sets of feeding claws (5) are fixed on the outside of the drive assembly (4). A connecting frame (6) is fixed at one end of the conveyor b (2).

3. The packaging device for oral lyophilized spleen peptide powder according to claim 1, characterized in that: The protective mechanism includes a rotating frame (14) that is rotatably connected to both sides of the connecting frame (11) via a rotating shaft. A tension spring (15) is fixed on one side of the rotating frame (14), and one end of the tension spring (15) is fixed to the connecting frame (11). A claw row (16) is provided on one side of the rotating frame (14), and an adjustment mechanism b for adjusting its position is provided on one side of the claw row (16).

4. The packaging device for oral lyophilized spleen peptide according to claim 3, characterized in that: The adjustment mechanism b includes a bracket fixed on one side of the claw row (16), and a threaded rod a (17) is threadedly connected to the middle of the bracket. One end of the threaded rod a (17) is rotatably connected to the rotating frame (14) through a bearing. The two ends of the bracket are slidably connected to a slide rod (18). One end of the slide rod (18) is fixed to the rotating frame (14). The threaded rod a (17) and the bracket form a threaded transmission structure.

5. The packaging device for oral lyophilized spleen peptide according to claim 1, characterized in that: The adjustment mechanism a includes a threaded rod b (20) internally threaded to the top block (19). The top of the threaded rod b (20) is fixed to the cylinder (10). A ball is rolled to the bottom of the top block (19). An anti-accidental contact mechanism is provided on the outside of the top block (19). The threaded rod b (20) and the top block (19) constitute a threaded transmission structure.

6. The packaging device for oral lyophilized spleen peptide powder according to claim 5, characterized in that: The anti-accidental touch mechanism includes a connecting sleeve (21) sleeved on the outside of the top block (19). A protrusion (22) is fixed on the inside of the connecting sleeve (21). An annular groove (23) matching the protrusion (22) is opened in the middle of the top block (19). Multiple sets of through grooves (24) are provided on the top of the annular groove (23). A limiting groove (25) is provided on the top of the through groove (24). Both the limiting groove (25) and the through groove (24) are opened on the outside of the top block (19).