Honey sub-packing and filling equipment
By using a baffle and torsion spring structure in conjunction with an electric telescopic rod to control the lifting and lowering of the filling head, and combining it with a constant temperature heating component and a stirring device, the problems of honey dripping and clogging in honey dispensing equipment are solved, achieving clean and efficient filling of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUBEI XIAOLONGNV BEE GARDEN CO LTD
- Filing Date
- 2025-08-21
- Publication Date
- 2026-06-19
AI Technical Summary
Existing honey dispensing and filling equipment is prone to honey dripping when not filling, leading to conveyor belt contamination and material waste. Furthermore, valve control is insufficient to completely solve the dripping problem, affecting filling efficiency.
The filling head is raised and lowered by a baffle and torsion spring structure combined with an electric telescopic rod. Combined with a constant temperature heating component and a stirring device, it ensures effective sealing and constant temperature heating of the filling head, prevents honey from dripping and clogging, and improves filling efficiency.
It effectively prevents honey from dripping, reduces waste, ensures the cleanliness of the conveyor belt, lowers the risk of blockage, and ensures honey flowability and filling efficiency.
Smart Images

Figure CN224377668U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of honey repackaging technology, and in particular to a honey repackaging and filling device. Background Technology
[0002] In the honey processing industry, processed honey is typically stored in large storage boxes, and then further repackaged and filled. This repackaging and filling process is a crucial step in transforming honey from large storage boxes into smaller retail packages.
[0003] In existing technologies, traditional honey dispensing and filling equipment often suffers from residual honey dripping when not filling due to the high viscosity and tendency of honey to adhere to the walls. This leads to conveyor belt contamination, material waste, and increased subsequent cleaning costs. Although some equipment attempts to add valves for control, dripping still occurs due to honey adhesion when the valve is closed, making it difficult to completely solve the problem.
[0004] Therefore, we propose a honey dispensing and filling device to solve the above problems. Utility Model Content
[0005] The purpose of this application is to provide a honey dispensing and filling device that can effectively seal the bottom of the filling head to prevent honey from dripping onto the conveyor belt, reduce honey waste, keep the conveyor belt clean, and greatly reduce the possibility of clogging of the filling head, thus avoiding the effect of increased viscosity on filling efficiency.
[0006] The above-mentioned technical objective of this application is achieved through the following technical solution: a honey dispensing and filling device, comprising a machine base, a conveyor frame fixedly installed on the top of the machine base, a conveyor belt rotatably installed on the conveyor frame, a honey storage box and an L-shaped plate fixedly installed on the top of the machine base behind the conveyor frame, an electric telescopic rod fixedly installed on the inner wall of the top of the L-shaped plate, a filling head fixedly installed on the output shaft end of the electric telescopic rod, the filling head being located directly above the conveyor belt, a conveying pump fixedly installed on the top of the honey storage box, a suction pipe fixedly connected to the suction end of the conveying pump, one end of the suction pipe extending into the honey storage box, and conveying... A hose is fixedly connected to the discharge end of the pump, and one end of the hose is fixedly connected to the injection head. Two support beams are fixedly installed on the inner rear wall of the L-shaped plate. The same rotating shaft is rotatably installed between the two support beams. A baffle is fixedly sleeved on the rotating shaft. The bottom end of the injection head abuts against the top of the baffle. Torsion springs are fixedly installed on the sides of the two support beams that are close to each other. The ends of the two torsion springs that are close to each other are fixedly connected to the two sides of the baffle respectively. Both torsion springs are sleeved on the rotating shaft. An L-shaped support rod is fixedly installed on the inner rear wall of the L-shaped plate. A constant temperature heating component is installed on the L-shaped support rod. The constant temperature heating component is used to keep the injection head at a constant temperature.
[0007] By adopting the above technical solution, the electric telescopic rod is used to control the vertical lifting and lowering of the filling head, and the baffle is used to effectively seal the bottom of the filling head to prevent honey from dripping onto the conveyor belt, thereby reducing honey waste and ensuring the cleanliness of the conveyor belt.
[0008] A further feature of this application is that the top of the baffle has a smooth planar structure.
[0009] By adopting the above technical solution, it is ensured that the bottom end of the injection head smoothly pushes the baffle to flip downward around the pivot.
[0010] A further configuration of this application is as follows: the constant temperature heating assembly includes an annular heat insulation cover, an annular constant temperature electric heating plate, and heat-conducting fins. The annular heat insulation cover is fixedly installed at one end of the L-shaped support rod and located above the baffle. The annular constant temperature electric heating plate is fixedly installed on the inner wall of the annular heat insulation cover. The bottom end of the filling head penetrates through the annular constant temperature electric heating plate. The heat-conducting fins are fixedly installed on the inner wall of the annular constant temperature electric heating plate, and one side of the heat-conducting fins slides against the outer wall of the filling head.
[0011] By adopting the above technical solution, the annular constant temperature electric heating plate is used to generate heat, which can be transferred to the filling head through the heat-conducting fins, so that the filling head can be continuously heated at a constant temperature. The annular heat preservation cover can effectively reduce the heat loss generated by the annular constant temperature electric heating plate.
[0012] A further feature of this application is that: both the annular heat insulation cover and the annular constant temperature electric heating plate have clearance openings on their right sides, and one end of the delivery pump passes through the clearance opening.
[0013] By adopting the above technical solution, it is ensured that the injection head drives the hose to move up and down smoothly.
[0014] A further feature of this application is that the number of heat-conducting fins is set to multiple, and the multiple heat-conducting fins are evenly distributed.
[0015] By adopting the above technical solution, the uniformity of heating of the injection head is enhanced.
[0016] A further feature of this application is that: electric telescopic rods 2 are fixedly installed on both the front and rear sides of the conveyor frame, and guide plates are fixedly installed on the output shaft ends of the two electric telescopic rods 2, with the two guide plates located above the conveyor belt.
[0017] By adopting the above technical solution, the electric telescopic rod 2 is used to control the linear movement of the guide plate, thereby adjusting the distance between the two guide plates, which can guide the transmission path of the packaging container, ensure that the packaging container passes accurately under the filling head, and adapt to packaging containers of different specifications.
[0018] A further feature of this application is that the sides of the two guide plates that are close to each other are both smooth flat surfaces.
[0019] By adopting the above technical solutions, the frictional resistance during the transportation of packaging containers can be reduced, ensuring the stable transportation of packaging containers.
[0020] A further feature of this application is that a motor is fixedly installed on the top of the honey storage box, the output shaft of the motor extends into the honey storage box and is fixedly installed on a vertical shaft, and multiple evenly distributed stirring rods are fixedly installed on the vertical shaft.
[0021] By adopting the above technical solution, the honey in the honey storage box can be stirred evenly, avoiding precipitation, layering or crystallization, and ensuring that the honey has a uniform texture.
[0022] A further feature of this application is that a rectangular constant-temperature electric heating plate is fixedly installed on the inner right side wall of the honey storage box.
[0023] By adopting the above technical solutions, honey can be effectively kept within a suitable temperature range, preventing crystallization and ensuring good fluidity.
[0024] A further feature of this application is that the top of the honey storage box is provided with a feeding port, and a stopcock is installed in the internal thread of the feeding port.
[0025] By adopting the above technical solution, it is easy to pour honey into honey storage boxes.
[0026] This application includes at least one of the following beneficial technical effects:
[0027] 1. Under the synergistic action of the rotating shaft, baffle, and two torsion springs, in the non-filling state, the baffle can effectively seal the bottom of the filling head, preventing honey from dripping onto the conveyor belt, reducing honey waste and ensuring the cleanliness of the conveyor belt. In the filling state, by utilizing the vertical descent of the filling head, the bottom of the filling head will push the baffle downward, causing the baffle to flip downward around the rotating shaft. At this time, the two torsion springs undergo torsional deformation to generate elastic force, ensuring smooth filling operation. When the filling head is controlled to rise back to its original position, under the elastic force of the two torsion springs, the baffle can automatically flip upward around the rotating shaft to return to its original position, and the baffle re-seals the bottom of the filling head.
[0028] 2. This application is equipped with a constant temperature heating component, which can continuously heat the filling head at a constant temperature, effectively maintain the honey within a suitable temperature range, ensure good honey fluidity, greatly reduce the possibility of clogging of the filling head, and avoid affecting the filling efficiency due to increased viscosity.
[0029] 3. With the synergistic action of the motor, vertical shaft, multiple stirring rods and rectangular constant temperature electric heating plate, this application can continuously stir and heat the honey at a constant temperature, preventing honey crystallization, sedimentation and stratification, and ensuring that the honey has a uniform texture.
[0030] 4. With the combined action of two electric telescopic rods and two guide plates, this application can guide the transmission path of the packaging container, ensuring that the packaging container accurately passes under the filling head, and is compatible with packaging containers of different specifications, thus improving the versatility of the equipment. Attached Figure Description
[0031] Figure 1 This is a front-view stereoscopic structural diagram of this embodiment.
[0032] Figure 2 This is a schematic diagram of the right-side stereoscopic structure of this embodiment.
[0033] Figure 3 This is a front-view three-dimensional structural diagram of the embodiment without the L-shaped support rod and the constant temperature heating component.
[0034] Figure 4 yes Figure 3 A magnified structural diagram of part A in the middle.
[0035] Figure 5 This is a three-dimensional structural diagram of the constant temperature heating component.
[0036] Figure 6 This is a front view sectional three-dimensional structural diagram of a honey storage box.
[0037] In the diagram: 1. Machine platform; 2. Conveyor frame; 3. Conveyor belt; 4. Honey storage box; 5. L-shaped plate; 6. Electric telescopic rod one; 7. Filling head; 8. Conveying pump; 9. Suction pipe; 10. Hose; 11. Support beam; 12. Rotating shaft; 13. Baffle; 14. Torsion spring; 15. L-shaped support rod; 16. Annular heat preservation cover; 17. Annular constant temperature electric heating plate; 18. Heat-conducting fins; 19. Electric telescopic rod two; 20. Guide plate; 21. Motor; 22. Vertical shaft; 23. Stirring rod; 24. Rectangular constant temperature electric heating plate; 25. Stopcock. Detailed Implementation
[0038] The technical solution of this application will be clearly and completely described below with reference to specific embodiments. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of them. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the scope of protection of this application.
[0039] See Figures 1-6This application provides a honey dispensing and filling device, including a machine base 1. A conveyor frame 2 is fixedly installed on the top of the machine base 1, and a conveyor belt 3 is rotatably installed on the conveyor frame 2. A honey storage box 4 and an L-shaped plate 5 are fixedly installed on the top of the machine base 1, located behind the conveyor frame 2. An electric telescopic rod 6 is fixedly installed on the inner wall of the top of the L-shaped plate 5. A filling head 7 is fixedly installed on the output shaft end of the electric telescopic rod 6, and the filling head 7 is located directly above the conveyor belt 3. The electric telescopic rod 6 is used to control the vertical lifting and lowering of the filling head 7. A delivery pump 8 is fixedly installed on the top of the honey storage box 4. A suction pipe 9 is fixedly connected to the suction end of the delivery pump 8, and one end of the suction pipe 9 extends into the honey storage box 4. The discharge end of the delivery pump 8 is fixedly... A hose 10 is connected, with one end of the hose 10 fixedly connected to the filling head 7. Two support beams 11 are fixedly installed on the inner rear wall of the L-shaped plate 5. The same rotating shaft 12 is rotatably installed between the two support beams 11. A baffle 13 is fixedly sleeved on the rotating shaft 12. The bottom end of the filling head 7 abuts against the top of the baffle 13. In the non-filling state, the baffle 13 is used to effectively seal the bottom end of the filling head 7 to prevent honey from dripping onto the conveyor belt 3, reducing honey waste while ensuring the cleanliness of the conveyor belt 3. Torsion springs 14 are fixedly installed on the side of the two support beams 11 that are close to each other. The ends of the two torsion springs 14 that are close to each other are fixedly connected to the two sides of the baffle 13 respectively. Both torsion springs 14 are sleeved on the rotating shaft 12.
[0040] In this embodiment, the top of the baffle 13 has a smooth flat structure. When injecting honey, it can ensure that the bottom end of the injection head 7 can smoothly push the baffle 13 to flip downward around the pivot 12, thus ensuring that the injection operation is carried out smoothly.
[0041] In this embodiment, an L-shaped support rod 15 is fixedly installed on the rear inner wall of the L-shaped plate 5. A constant temperature heating component is provided on the L-shaped support rod 15. The constant temperature heating component is used to heat the filling head 7 at a constant temperature. The constant temperature heating component includes an annular heat insulation cover 16, an annular constant temperature electric heating plate 17, and heat-conducting fins 18. The annular heat insulation cover 16 is fixedly installed at one end of the L-shaped support rod 15 and located above the baffle 13. The annular constant temperature electric heating plate 17 is fixedly installed on the inner wall of the annular heat insulation cover 16. The bottom end of the filling head 7 passes through the annular constant temperature electric heating plate 17, and conducts heat... The fins 18 are fixedly installed on the inner wall of the annular constant temperature electric heating plate 17. One side of the heat-conducting fins 18 slides against the outer wall of the filling head 7. The annular constant temperature electric heating plate 17 is used to generate heat, which can be transferred to the filling head 7 through the heat-conducting fins 18, so that the filling head 7 can be continuously heated at a constant temperature. The annular heat preservation cover 16 can effectively reduce the heat loss generated by the annular constant temperature electric heating plate 17, effectively maintain the honey in a suitable temperature range, ensure good honey fluidity, greatly reduce the possibility of clogging of the filling head 7, and avoid affecting the filling efficiency due to increased viscosity.
[0042] In this embodiment, both the annular heat insulation cover 16 and the annular constant temperature electric heating plate 17 have clearance openings on their right sides. One end of the delivery pump 8 passes through the clearance opening. The design of the clearance opening can ensure that the injection head 7 drives the hose 10 to rise and fall smoothly.
[0043] In this embodiment, the number of heat-conducting fins 18 is set to multiple, and the multiple heat-conducting fins 18 are evenly distributed, which can enhance the quality of constant temperature heating of the filling head 7 and enhance the uniformity of heating of the filling head 7.
[0044] In this embodiment, electric telescopic rods 19 are fixedly installed on both the front and rear sides of the conveyor frame 2. Guide plates 20 are fixedly installed on the output shaft ends of the two electric telescopic rods 19. The two guide plates 20 are located above the conveyor belt 3. The electric telescopic rods 19 are used to control the linear movement of the guide plates 20. By adjusting the distance between the two guide plates 20, the transmission path of the packaging container can be guided to ensure that the packaging container accurately passes under the filling head 7 and is compatible with packaging containers of different specifications, thus improving the versatility of the equipment.
[0045] In this embodiment, the sides of the two guide plates 20 that are close to each other are both smooth flat surfaces, which can reduce the frictional resistance during the transport of the packaging container and ensure the stable transport of the packaging container.
[0046] In this embodiment, a motor 21 is fixedly installed on the top of the honey storage box 4. The output shaft of the motor 21 extends into the honey storage box 4 and a vertical shaft 22 is fixedly installed thereon. Multiple evenly distributed stirring rods 23 are fixedly installed on the vertical shaft 22. The motor 21 is used to control the rotation of the vertical shaft 22 and the multiple stirring rods 23. The multiple stirring rods 23 can be used to stir the honey in the honey storage box 4 evenly, so as to avoid the honey from settling, layering or crystallizing, and ensure that the honey has a uniform texture.
[0047] In this embodiment, a rectangular constant temperature electric heating plate 24 is fixedly installed on the inner right side of the honey storage box 4. The rectangular constant temperature electric heating plate 24 is used to heat the honey in the honey storage box 4 at a constant temperature, effectively maintaining the honey within a suitable temperature range, preventing crystallization, and ensuring good honey fluidity.
[0048] In this embodiment, the top of the honey storage box 4 is provided with a feeding port, and a plug 25 is installed in the internal thread of the feeding port to facilitate pouring honey into the honey storage box 4.
[0049] In this embodiment, the electric telescopic rod 6, the delivery pump 8, the annular constant-temperature electric heating plate 17, the electric telescopic rod 19, the motor 21, and the rectangular constant-temperature electric heating plate 24 can all be purchased commercially. Their wiring connection methods and control methods are mature technologies in this field and have been fully disclosed, so they will not be described in detail here. The heating temperature of the annular constant-temperature electric heating plate 17 and the rectangular constant-temperature electric heating plate 24 is set in the range of 35℃-45℃, which can ensure the good fluidity of the honey and minimize the impact on the natural quality of the honey.
[0050] With the above structure, when using the honey dispensing and filling equipment provided in this application, honey is added into the honey storage box 4 from the feeding port by unscrewing the stopcock 25. After completion, the stopcock 25 is screwed back, and the rectangular constant temperature electric heating plate 24 is started to generate heat, heating the honey in the honey storage box 4 to 35℃-45℃ and maintaining a constant temperature. The motor 21 is started to drive the vertical shaft 22 and multiple stirring rods 23 to rotate, continuously stirring the honey to prevent crystallization, precipitation and stratification, and ensure that the honey has a uniform texture.
[0051] When filling honey, first adjust the distance between the two guide plates 20 by controlling the extension of the electric telescopic rod 19 according to the specifications of the packaging container to be filled, so that when the two guide plates 20 are about to contact the outer wall of the packaging container, a gap of about 1mm is left between the guide plates 20 and the packaging container. Then stop the operation of the two electric telescopic rods 19. Then, control the conveyor belt 3 to rotate, place the packaging container on the conveyor belt 3 and between the two guide plates 20. The packaging container is conveyed in a straight line under the guidance of the two guide plates 20.
[0052] When the packaging container reaches directly below the filling head 7, the conveyor belt 3 stops running, and the electric telescopic rod 6 extends to push the filling head 7 downward. The bottom of the filling head 7 pushes the baffle 13 downward, causing the baffle 13 to flip downward around the pivot 12. At this time, the two torsion springs 14 twist and deform to generate elastic force until the bottom of the filling head 7 is inserted into the bottle mouth of the packaging container. Then, the electric telescopic rod 6 stops running, and the conveying pump 8 is started. Honey is drawn from the honey storage box 4 through the suction tube 9 and delivered to the filling head 7 through the hose 10. Finally, the honey flows out from the filling head 7 and is injected into the packaging container.
[0053] After filling the packaging container, turn off the conveying pump 8 and control the electric telescopic rod 6 to retract and reset. This will control the filling head 7 to rise back to its original position. At this time, under the elastic force of the two torsion springs 14, the baffle 13 will automatically flip upward and return to its original position with the rotating shaft 12 as the center. The baffle 13 will then seal the bottom of the filling head 7 again, thereby preventing honey from dripping onto the conveyor belt 3, reducing honey waste, and ensuring that the conveyor belt 3 is clean.
[0054] During the filling process, the annular constant temperature electric heating plate 17 is powered on to generate heat. The heat is transferred to the filling head 7 through multiple heat-conducting fins 18, which can keep the filling head 7 at a constant temperature. This ensures that the honey entering the filling head 7 will not cool down and reduce its fluidity, greatly reducing the possibility of the filling head 7 becoming blocked and avoiding the impact on filling efficiency due to increased viscosity.
[0055] By continuing to control the operation of conveyor belt 3 according to the above steps, honey can be poured into the next packaging container.
Claims
1. A honey portion filling apparatus characterized by comprising: The system includes a machine base (1), a conveyor frame (2) fixedly mounted on the top of the machine base (1), a conveyor belt (3) rotatably mounted on the conveyor frame (2), a honey storage box (4) and an L-shaped plate (5) fixedly mounted on the top of the machine base (1) behind the conveyor frame (2), an electric telescopic rod (6) fixedly mounted on the inner top wall of the L-shaped plate (5), an injection head (7) fixedly mounted on the output shaft end of the electric telescopic rod (6), the injection head (7) being located directly above the conveyor belt (3), a delivery pump (8) fixedly mounted on the top of the honey storage box (4), a suction pipe (9) fixedly connected to the suction end of the delivery pump (8), one end of the suction pipe (9) extending into the honey storage box (4), and a hose (10) fixedly connected to the discharge end of the delivery pump (8), one end of the hose (10) being... The end is fixedly connected to the injection head (7). Two support beams (11) are fixedly installed on the rear inner wall of the L-shaped plate (5). The same rotating shaft (12) is rotatably installed between the two support beams (11). A baffle (13) is fixedly sleeved on the rotating shaft (12). The bottom end of the injection head (7) abuts against the top of the baffle (13). Torsion springs (14) are fixedly installed on the side of the two support beams (11) that are close to each other. The ends of the two torsion springs (14) that are close to each other are fixedly connected to the two sides of the baffle (13). The two torsion springs (14) are sleeved on the rotating shaft (12). An L-shaped support rod (15) is fixedly installed on the rear inner wall of the L-shaped plate (5). A constant temperature heating component is provided on the L-shaped support rod (15). The constant temperature heating component is used to heat the injection head (7) at a constant temperature.
2. The honey portion filling apparatus according to claim 1, characterized by: The top of the baffle (13) has a smooth flat surface structure.
3. The honey portion filling apparatus according to claim 1, characterized by: The constant temperature heating assembly includes an annular heat insulation cover (16), an annular constant temperature electric heating plate (17), and heat-conducting fins (18). The annular heat insulation cover (16) is fixedly installed at one end of the L-shaped support rod (15) and located above the baffle (13). The annular constant temperature electric heating plate (17) is fixedly installed on the inner wall of the annular heat insulation cover (16). The bottom end of the injection head (7) passes through the annular constant temperature electric heating plate (17). The heat-conducting fins (18) are fixedly installed on the inner wall of the annular constant temperature electric heating plate (17). One side of the heat-conducting fins (18) slides against the outer wall of the injection head (7).
4. The honey dispensing and filling equipment according to claim 3, characterized in that: Both the annular heat insulation cover (16) and the annular constant temperature electric heating plate (17) have clearance openings on their right sides, and one end of the delivery pump (8) passes through the clearance opening.
5. The honey portion filling apparatus according to claim 3, characterized by: The number of the heat-conducting fins (18) is set to multiple, and the multiple heat-conducting fins (18) are evenly distributed.
6. The honey portion filling apparatus according to claim 1, characterized by: Electric telescopic rods (19) are fixedly installed on the front and rear sides of the conveyor frame (2). Guide plates (20) are fixedly installed on the output shaft ends of the two electric telescopic rods (19). The two guide plates (20) are located above the conveyor belt (3).
7. The honey portion filling apparatus according to claim 6, characterized by: Both guide plates (20) have a smooth planar structure on the side that is close to each other.
8. The honey portion filling apparatus according to claim 1, characterized by: A motor (21) is fixedly installed on the top of the honey storage box (4). The output shaft of the motor (21) extends into the honey storage box (4) and is fixedly installed with a vertical shaft (22). Multiple stirring rods (23) are fixedly installed on the vertical shaft (22) in a uniformly distributed manner.
9. The honey portion filling apparatus according to claim 1, characterized by: A rectangular constant temperature electric heating plate (24) is fixedly installed on the inner right side of the honey storage box (4).
10. The honey portion filling apparatus according to claim 1, characterized by: The honey storage box (4) has a feeding port on the top, and a plug (25) is installed in the internal thread of the feeding port.