Beeswax sedimentation and separation equipment with filtration structure
By designing a beeswax sedimentation and separation device with a filter structure, and utilizing steam heating in the heating box and a vibrating motor in the feed hopper in conjunction with the filter screen, efficient separation and impurity removal of beeswax are achieved. This solves the problem of inconvenient impurity filtration in existing equipment and improves the purity and production quality of beeswax.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HENAN SHENGCHAO BEE IND CO LTD
- Filing Date
- 2025-06-18
- Publication Date
- 2026-06-30
AI Technical Summary
When existing beeswax sedimentation and separation equipment separates beeswax by boiling it in water, it is inconvenient to filter impurities, which affects the purity and production quality of beeswax.
The design incorporates a beeswax sedimentation and separation device with a filtration structure. The device uses steam heating in a heating chamber to melt the beeswax, and through a combination of a feed hopper and sedimentation separation components, it utilizes a vibrating motor and a filter screen to achieve efficient filtration of the beeswax and removal of impurities.
It improves the efficiency and purity of beeswax production, reduces impurity residue, and enhances the production quality of beeswax.
Smart Images

Figure CN224422225U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of beeswax precipitation and separation technology, specifically to a beeswax precipitation and separation device with a filtration structure. Background Technology
[0002] Beeswax precipitation and separation is a key step in the processing of natural bee products. Its core objective is to efficiently extract pure beeswax from crude beeswax or mixtures while removing impurities.
[0003] However, current beeswax precipitation and separation equipment on the market generally separates beeswax by boiling it with water. This method is inconvenient for filtering impurities after separation, which is detrimental to beeswax production efficiency. The precipitated beeswax also contains many impurities, which is detrimental to the purity of the beeswax and affects the production quality. Therefore, those skilled in the art have provided beeswax precipitation and separation equipment with a filtration structure to solve the problems mentioned in the background section. Utility Model Content
[0004] The purpose of this invention is to provide a beeswax precipitation and separation device with a filtration structure to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution:
[0006] A beeswax sedimentation and separation device with a filtration structure includes a heating chamber, a heating rod, a temperature sensor, and a water inlet. The heating rod is located at the lower end of the heating chamber. The temperature sensor is located inside the heating chamber near the heating rod. The water inlet is located at the lower end of one side of the heating chamber. A first support frame is provided at the upper end of the heating chamber. A material storage component is provided inside the first support frame. Top covers are provided at both ends of the upper side of the heating chamber. Pressure relief valves are provided on the upper side of the top covers. A spring is provided inside the heating chamber. A guide hopper is provided at the inner end of the spring. A second support frame is provided at the lower end of the heating chamber. A sedimentation and separation component is provided on the upper side of the second support frame. A cover is provided below the guide hopper. A vibration motor is installed inside the cover.
[0007] As a further embodiment of this utility model: the material storage component includes a limiting frame, a material storage mesh is provided on the lower side of the limiting frame, a slot is provided on the lower side of the limiting frame, a first handle is provided on the upper side of the limiting frame, a first slide rail is provided on the upper side of the first support frame, a threaded rod is provided inside the heating box near the first slide rail, a push plate is provided on the outer side of the threaded rod, and a drive motor is installed on the outer side of the heating box corresponding to the position of the threaded rod.
[0008] As a further embodiment of this utility model: the sedimentation separation component includes a sedimentation tank, with a second slide rail provided on both sides of the interior of the sedimentation tank, a lifting frame provided on the outer side of the second slide rail, a sliding frame provided inside the sedimentation tank, a lifting frame provided on the upper side of the sliding frame, a filter screen provided on the lower side of the sliding frame, a second handle provided on one side of the sedimentation tank, and a fixing screw provided at the upper end of one side of the sedimentation tank.
[0009] As a further embodiment of this utility model: the lower end of the material storage component slides to the inner side of the first support frame, and one end of the top cover rotates to the upper side of the heating box.
[0010] As a further embodiment of this utility model: the guide hopper is fixed to the inside of the heating box by a spring, the output end of the water inlet is connected to the inside of the heating box, and the sedimentation separation component slides on the upper side of the second support frame.
[0011] As a further embodiment of this utility model: the limiting frame is located on the upper side of the first support frame, the slot corresponds to the position of the first slide rail, the slot slides on the outer side of the first slide rail, the threaded rod rotates to the inner position of the heating box through the transmission motor, the threaded rod rotates to the lower end position of the push plate, and the lower side of the push plate slides on the upper side of the first support frame.
[0012] As a further improvement of this utility model: the sliding frame slides inside the sedimentation tank, and the lifting frame slides outside the second slide rail.
[0013] Compared with the prior art, the beneficial effects of this utility model are:
[0014] This utility model of beeswax precipitation and separation equipment with a filter structure separates beeswax inside the material storage component by heating with steam in a heating box, thereby reducing the amount of impurities in the separated beeswax.
[0015] After separation, the beeswax is introduced into the internal filtration and sedimentation unit through a feed hopper. This improves the efficiency of beeswax production, increases the completeness of impurity removal after separation, enhances the purity of the beeswax, and improves the production quality of beeswax. Attached Figure Description
[0016] Figure 1 A schematic diagram of a beeswax precipitation and separation device with a filtration structure;
[0017] Figure 2 A perspective view of a beeswax precipitation and separation device with a filtration structure;
[0018] Figure 3A schematic diagram of the material storage component in a beeswax precipitation and separation device with a filtration structure;
[0019] Figure 4 for Figure 2 A schematic diagram of the structure of part A;
[0020] Figure 5 This is a split diagram of the sedimentation separation component in a beeswax sedimentation separation device with a filtration structure.
[0021] In the diagram: 1. Heating box; 2. First support frame; 3. Material storage component; 4. Top cover; 5. Pressure relief valve; 6. Spring; 7. Guide hopper; 8. Second support frame; 9. Sedimentation separation component; 10. Heating rod; 11. Temperature sensor; 12. Water inlet; 13. Cover; 14. Vibration motor; 15. Limiting frame; 16. Material storage mesh; 17. Slot; 18. First handle; 19. First slide rail; 20. Threaded rod; 21. Push plate; 22. Drive motor; 23. Sedimentation box; 24. Second slide rail; 25. Lifting frame; 26. Sliding frame; 27. Lifting frame; 28. Filter screen; 29. Second handle; 30. Fixing screw. Detailed Implementation
[0022] Please see Figures 1-5In this embodiment of the present invention, a beeswax sedimentation and separation device with a filter structure includes a heating box 1, a heating rod 10, a temperature sensor 11, and a water inlet 12. The heating rod 10 is located at the lower end of the heating box 1. The temperature sensor 11 is located at the lower end of the heating box 1, near the heating rod 10. The water inlet 12 is located at the lower end of one side of the heating box 1. A first support frame 2 is provided at the upper end of the heating box 1. A material storage component 3 is provided on the inner side of the first support frame 2. A top cover 4 is provided at both ends of the upper side of the heating box 1. A pressure relief valve 5 is provided on the upper side of the top cover 4. A spring 6 is provided inside the heating box 1. A guide hopper 7 is provided at the inner end of the spring 6. A second support frame 8 is provided at the lower end of the heating box 1. A sedimentation and separation component 9 is provided on the upper side of the second support frame 8. A cover 13 (made of heat-insulating material, used to isolate steam and heat, and to prevent damage to the motor inside the cover 13) is provided on the lower side of the guide hopper 7.The casing 13 can be independently located in the heating chamber and can extend to the chamber wall for ventilation and heat dissipation. A vibration motor 14 is installed inside the casing 13. The lower end of the material storage component 3 slides within the first support frame 2. One end of the top cover 4 rotates to the upper side of the heating chamber 1. The guide hopper 7 is fixed inside the heating chamber 1 by a spring 6. The output end of the water inlet 12 communicates with the interior of the heating chamber 1. The sedimentation separation component 9 slides on the upper side of the second support frame 8. First, the material is placed into the material storage component... Inside component 3, clean water is added to the interior of heating box 1 through water inlet 12. Then, the top cover 4 is rotated open, and the first material storage component 3 is placed inside heating box 1. The lower end of material storage component 3 slides to the inside of the first support frame 2. Heating rod 10 runs to heat the water inside heating box 1. Temperature sensor 11 detects the temperature of the water inside heating box 1. Steam is discharged through the gap between heating box 1 and guide hopper 7 to heat the material inside material storage component 3. Molten beeswax flows into the interior of guide hopper 7. Beeswax is introduced into the sedimentation separation component 9. The vibration motor 14 drives the guide hopper 7 to vibrate. The guide hopper 7 vibrates inside the heating box 1 via the spring 6, increasing the speed at which beeswax is discharged from the guide hopper 7. The sedimentation separation component 9 filters the beeswax, and the filtered beeswax enters the lower end of the sedimentation separation component 9. After the material inside the first material storage component 3 has melted, the first material storage component 3 is pushed to the other end of the first support frame 2. The second material storage component 3 is placed inside the heating box 1, and its lower end slides to the inside of the first support frame 2. The material is then heated again to melt. After the first material storage component 3 has been heated again for a period of time, it is removed, and the residue inside is cleaned. Finally, the heating rod 10 is stopped, and the heating box 1 is allowed to cool completely, completing the sedimentation separation of the beeswax. The sedimentation separation component 9 slides on the upper side of the second support frame 8. The sedimentation separation component 9 is then removed, the impurities filtered by the sedimentation separation component 9 are cleaned, the beeswax inside the sedimentation separation component 9 is removed, and the remaining water inside the sedimentation separation component 9 is poured out.
[0023] exist Figure 2 , 3In section 4: The material storage component 3 includes a limiting frame 15, a material storage mesh 16 is provided on the lower side of the limiting frame 15, a slot 17 is provided on the lower side of the limiting frame 15, a first handle 18 is provided on the upper side of the limiting frame 15, a first slide rail 19 is provided on the upper side of the first support frame 2, a threaded rod 20 is provided inside the heating box 1 near the position of the first slide rail 19, a push plate 21 is provided on the outer side of the threaded rod 20, a drive motor 22 is installed on the outer side of the heating box 1 corresponding to the position of the threaded rod 20, the limiting frame 15 is located on the upper side of the first support frame 2, the slot 17 corresponds to the position of the first slide rail 19, and the slot 17 slides. At the outer position of the first slide rail 19, the threaded rod 20 rotates to the inner position of the heating box 1 via the drive motor 22. The threaded rod 20 rotates to the lower end position of the push plate 21, and the lower side of the push plate 21 slides to the upper position of the first support frame 2, placing the material into the inside of the material storage net 16. The first material storage component 3 is placed into the inside of the heating box 1, and the material storage net 16 slides to the inner side of the first support frame 2. The limiting frame 15 is placed on the upper side of the first support frame 2, and the slot 17 is engaged with the outer side of the first slide rail 19. The heating rod 10 runs to heat the water inside the heating box 1, and the temperature sensor 11 detects the temperature of the heating box 1. The internal water temperature and steam are discharged through the gap between the heating box 1 and the guide hopper 7 to heat the material inside the material storage mesh 16. The melted beeswax flows into the guide hopper 7 through the material storage mesh 16. The beeswax inside the guide hopper 7 is introduced into the sedimentation separation component 9. The vibration motor 14 drives the guide hopper 7 to vibrate. The guide hopper 7 vibrates inside the heating box 1 through the spring 6, increasing the discharge speed of the beeswax inside the guide hopper 7. After the material inside the first material storage component 3 has melted, the drive motor 22 drives the threaded rod 20 to rotate inside the heating box 1. The threaded rod 20 rotates inside the push plate 21. 21 slides on the upper side of the first support frame 2, push plate 21 pushes the limiting frame 15, and slot 17 slides on the outside of the first slide rail 19, pushing the first material storage component 3 to the other end of the first support frame 2. After push plate 21 is reset, the second material storage component 3 is placed inside the heating box 1. The material storage net 16 slides to the inside of the first support frame 2, the limiting frame 15 is placed on the upper side of the first support frame 2, and slot 17 is locked on the outside of the first slide rail 19. The material is heated and melted again. After the first material storage component 3 is heated again for a period of time, the first material storage component 3 is taken out and the residue inside the material storage component 3 is cleaned.
[0024] exist Figure 2 , 5In the sedimentation separation component 9, there is a sedimentation tank 23. Second slide rails 24 are provided on both sides of the interior of the sedimentation tank 23. A lifting frame 25 is provided on the outer side of the second slide rails 24. A sliding frame 26 is provided inside the sedimentation tank 23. A lifting frame 27 is provided on the upper side of the sliding frame 26. A filter screen 28 is provided on the lower side of the sliding frame 26. A second handle 29 is provided on one side of the sedimentation tank 23. A fixing screw 30 is provided at the upper end of one side of the sedimentation tank 23. The sliding frame 26 slides inside the sedimentation tank 23, and the lifting frame 25 slides on the outer side of the second slide rails 24. The filter screen 28 filters the beeswax, and the filtered beeswax enters the sedimentation tank. Inside the sedimentation tank 23, finally, stop heating the heating rod 10 and wait for the inside of the heating tank 1 to cool completely to complete the sedimentation and separation of beeswax. The sedimentation and separation component 9 slides on the upper side of the second support frame 8. Remove the sedimentation and separation component 9, slide the frame 26 out of the sedimentation tank 23, clean the impurities filtered by the filter screen 28, slide the lifting frame 25 on the outer side of the second slide rail 24, slide the lifting frame 25 out of the sedimentation tank 23, and the lifting frame 25 brings out the solidified beeswax blocks inside the sedimentation tank 23 (here, the lifting frame 23 can be a U-shaped frame, which makes it convenient to remove the beeswax blocks by removing the lifting frame after cooling). Pour out the remaining water inside the sedimentation tank 23.
[0025] The working principle of this utility model is as follows: First, the material is placed inside the material storage mesh 16, and clean water is added to the heating box 1 through the water inlet 12. Then, the top cover 4 is rotated and opened, and the first material storage component 3 is placed inside the heating box 1. The material storage mesh 16 slides to the inside of the first support frame 2, the limiting frame 15 is placed on the upper side of the first support frame 2, the slot 17 is engaged with the outside of the first slide rail 19, the heating rod 10 runs to heat the water inside the heating box 1, the temperature sensor 11 detects the temperature of the water inside the heating box 1, and steam passes through the heating box 1 and the guide hopper 7. The material inside the material storage mesh 16 is heated through the gaps, and the melted beeswax flows into the guide hopper 7 through the material storage mesh 16. The beeswax inside the guide hopper 7 is introduced into the sedimentation separation component 9. The vibration motor 14 drives the guide hopper 7 to vibrate, and the guide hopper 7 shakes inside the heating box 1 through the spring 6, increasing the output speed of the beeswax inside the guide hopper 7. The filter screen 28 filters the beeswax, and after filtration, it enters the sedimentation box 23. After the material inside the first material storage component 3 has melted, the drive motor 22 drives the threaded rod 20 to rotate inside the heating box 1. The push rod 20 rotates inside the push plate 21, which slides on the upper side of the first support frame 2. The push plate 21 pushes the limiting frame 15, and the slot 17 slides on the outer side of the first slide rail 19, pushing the first material storage component 3 to the other end of the first support frame 2. After the push plate 21 returns to its original position, the second material storage component 3 is placed inside the heating box 1. The material storage mesh 16 slides to the inner side of the first support frame 2, the limiting frame 15 is placed on the upper side of the first support frame 2, and the slot 17 is engaged with the outer side of the first slide rail 19. The material is then heated and melted again, and the first material storage component 3 is heated for a period of time again. After a certain time, remove the first material storage component 3, clean the residue inside the material storage component 3, and finally stop heating the heating rod 10. Wait for the heating box 1 to cool completely to complete the sedimentation and separation of beeswax. The sedimentation and separation component 9 slides on the upper side of the second support frame 8. Remove the sedimentation and separation component 9, slide the frame 26 out of the sedimentation box 23, clean the impurities filtered by the filter screen 28, slide the lifting frame 25 on the outside of the second slide rail 24, slide the lifting frame 25 out of the sedimentation box 23, and lift the lifting frame 25 to bring out the solidified beeswax inside the sedimentation box 23. Pour out the residual water inside the sedimentation box 23.
[0026] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. A beeswax sedimentation and separation device with a filtration structure, comprising a heating chamber (1), a heating rod (10), a temperature sensor (11), and a water inlet (12), wherein the heating rod (10) is located at the lower end of the heating chamber (1), the temperature sensor (11) is located at the lower end of the heating chamber (1) near the heating rod (10), and the water inlet (12) is located at the lower end of one side of the heating chamber (1), characterized in that, A first support frame (2) is provided at the upper part of the heating box (1). A material storage component (3) is provided on the inner side of the first support frame (2). A top cover (4) is provided at both ends of the upper side of the heating box (1). A pressure relief valve (5) is provided on the upper side of the top cover (4). A spring (6) is provided inside the heating box (1). A guide hopper (7) is provided at the inner end of the spring (6). A second support frame (8) is provided at the lower part of the heating box (1). A sedimentation separation component (9) is provided on the upper side of the second support frame (8). A cover (13) is provided on the lower side of the guide hopper (7). A vibration motor (14) is installed inside the cover (13).
2. The beeswax precipitation and separation device with a filtration structure according to claim 1, characterized in that, The material storage component (3) includes a limiting frame (15), a material storage net (16) is provided on the lower side of the limiting frame (15), a slot (17) is provided on the lower side of the limiting frame (15), a first handle (18) is provided on the upper side of the limiting frame (15), a first slide rail (19) is provided on the upper side of the first support frame (2), a threaded rod (20) is provided inside the heating box (1) near the position of the first slide rail (19), a push plate (21) is provided on the outer side of the threaded rod (20), and a drive motor (22) is installed on the outer side of the heating box (1) corresponding to the position of the threaded rod (20).
3. The beeswax precipitation and separation device with a filtration structure according to claim 1, characterized in that, The sedimentation separation component (9) includes a sedimentation tank (23). A second slide rail (24) is provided on both sides of the interior of the sedimentation tank (23). A lifting frame (25) is provided on the outside of the second slide rail (24). A sliding frame (26) is provided inside the sedimentation tank (23). A lifting frame (27) is provided on the upper side of the sliding frame (26). A filter screen (28) is provided on the lower side of the sliding frame (26). A second handle (29) is provided on one side of the sedimentation tank (23). A fixing screw (30) is provided at the upper end of one side of the sedimentation tank (23).
4. The beeswax precipitation and separation device with a filtration structure according to claim 1, characterized in that, The lower end of the material storage component (3) slides inside the first support frame (2), and one end of the top cover (4) rotates to the upper side of the heating box (1).
5. The beeswax precipitation and separation device with a filtration structure according to claim 1, characterized in that, The feed hopper (7) is fixed to the inside of the heating box (1) by a spring (6), the output end of the water inlet (12) is connected to the inside of the heating box (1), and the sedimentation separation component (9) slides on the upper side of the second support frame (8).
6. The beeswax precipitation and separation device with a filtration structure according to claim 2, characterized in that, The limiting frame (15) is located on the upper side of the first support frame (2). The slot (17) corresponds to the position of the first slide rail (19). The slot (17) slides on the outer side of the first slide rail (19). The threaded rod (20) rotates inside the heating box (1) via the transmission motor (22). The threaded rod (20) rotates at the lower end of the push plate (21). The lower side of the push plate (21) slides on the upper side of the first support frame (2).
7. The beeswax precipitation and separation device with a filtration structure according to claim 3, characterized in that, The sliding frame (26) slides inside the sedimentation tank (23), and the lifting frame (25) slides outside the second slide rail (24).