A vitamin b2 emulsifying mixer

By designing a mixer with compound motion, the mixing tank shakes in the Y-axis direction and rotates in the X-axis direction, solving the problem of difficult cleaning of existing mixers, achieving rapid emulsification and convenient cleaning, and meeting the high standard cleaning requirements of the cosmetics and pharmaceutical industries.

CN224388612UActive Publication Date: 2026-06-23GUANGZHOU YANGYI BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU YANGYI BIOTECHNOLOGY CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing vitamin B2 emulsifying mixers have complex structures and difficult-to-disassemble mixing tanks, making cleaning difficult and failing to meet the high requirements of the cosmetics and pharmaceutical industries for the production environment.

Method used

A mixer comprising a frame, a swing frame, a drive motor, and rollers is designed. The mixing tank is movably mounted with a shaft via a sealed bearing, and the shaft is fixed with a stirring paddle. The mixing tank swings in the Y-axis direction and rotates in the X-axis direction to achieve a compound motion. After mixing is completed, it can be easily disassembled for cleaning.

Benefits of technology

It achieves rapid emulsification and easy cleaning, improving the cleanliness of the mixing tank and meeting the cleanliness requirements of the cosmetics and pharmaceutical industries.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224388612U_ABST
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Abstract

The utility model provides a kind of vitamin B2 emulsification mixer, rack is movably installed with swing frame by pivot, rack is connected swing frame by cylinder drive, swing frame is equipped with driving motor, first roller shaft and second roller shaft, and stirring barrel is movably placed between first roller shaft and second roller shaft, and stirring barrel is movably installed with shaft by sealing bearing, and shaft is fixedly installed with stirring paddle.In operation, cylinder repeatedly telescopic motion, drive swing frame to shake in Y-axis direction, driving motor rotates first roller shaft and second roller shaft by belt drive, and drives stirring barrel to rotate in X-axis direction, and one end of shaft is connected with clamping joint and clamping seat, so that shaft is fixed, and stirring barrel is stirred by shaking in Y-axis direction and rotating in X-axis direction, vitamin B2 emulsification stirring is quickly completed, after stirring is completed, stirring barrel is removed, vitamin B2 is conveniently poured out and stirring barrel is cleaned, and the cleanliness of stirring barrel is improved.
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Description

Technical Field

[0001] This utility model belongs to the technical field of mixing equipment, specifically relating to a vitamin B2 emulsifying mixer. Background Technology

[0002] Emulsifying mixers are widely used in many fields such as cosmetics, food, pharmaceuticals, and chemicals. Taking vitamin B2 emulsifying mixers as an example, they can be used in the cosmetics and pharmaceutical industries. However, the cosmetics and pharmaceutical industries have extremely high requirements for the production environment, and any residue inside the mixer can easily lead to mold or spoilage. Currently, however, most emulsifying mixers on the market have complex structures, making their installation and disassembly difficult to understand, resulting in incomplete cleaning.

[0003] This Chinese utility model, authorized by publication number CN221244954U, relates to the field of vitamin B2 emulsification and stirring structures, and more particularly to a vitamin B2 emulsification mixer. It includes an outer wall with an opening and closing mechanism mounted on its outer surface. A top cover is rotatably mounted on the upper end of the outer wall, and a motor is fixedly mounted on the upper surface of the top cover. A stirring mechanism is mounted below the motor, and a drain is fixedly mounted on the lower end of the outer wall. A heating mechanism is mounted above the drain. The stirring mechanism allows for easy removal of the outer wall, top cover, and drain for cleaning. The heating mechanism heats the material to be emulsified. When cleaning is required, the heat-conducting protective sleeve is replaced to prevent the heating rod from rusting and shortening its lifespan. The stirring mechanism, stirring paddle, and stirring tube thoroughly stir the material, resulting in faster emulsification and automation. Individual components can be disassembled for cleaning. However, the stirring tank cannot be disassembled, making cleaning difficult. Utility Model Content

[0004] The purpose of this invention is to provide a vitamin B2 emulsifying mixer to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a vitamin B2 emulsifying mixer, comprising a frame, a swing frame movably mounted on the frame via a rotating shaft, the frame being driven and connected to the swing frame by a cylinder, the swing frame being equipped with a drive motor, a first roller shaft, and a second roller shaft, the drive motor being connected to the first roller shaft and the second roller shaft via a belt drive, a mixing tank being movably placed between the first roller shaft and the second roller shaft, the bottom of the mixing tank having a through hole, a sealing bearing being sealed and installed in the through hole, a shaft being movably mounted on the sealing bearing, a stirring paddle being fixedly mounted on the shaft inside the mixing tank, a snap-fit ​​connector being fixedly connected to the shaft outside the mixing tank, and a snap-fit ​​seat being fixedly mounted on the swing frame via a first support plate.

[0006] Preferably, a soft rubber layer is fixedly installed on the surface of both the first roller and the second roller, and the soft rubber layer is made of fluororubber.

[0007] Preferably, the mixing tank includes a tank body and a sealing cap. The tank body is fixedly connected to the sealing cap by a buckle. A sealing gasket is fixedly installed on the sealing cap. The sealing gasket is made of silicone rubber.

[0008] Preferably, the swing frame is fixedly mounted with a limiting component via a second support plate. The limiting component includes a mounting base and a ball bearing. The mounting base is movably mounted with the ball bearing, and the ball bearing movably abuts against the mixing tank.

[0009] Compared with the prior art, the beneficial effects of this utility model are:

[0010] This invention features a swing frame movably mounted on a frame via a rotating shaft. The frame is connected to the swing frame via a cylinder. The swing frame is equipped with a drive motor, a first roller shaft, and a second roller shaft. A mixing tank is movably placed between the first and second roller shafts. A shaft is movably mounted on the mixing tank via a sealed bearing, and a stirring paddle is fixedly mounted on the shaft. During operation, the cylinder repeatedly extends and retracts, driving the swing frame to swing in the Y-axis direction. The drive motor drives the first and second roller shafts to rotate via a belt, causing the mixing tank to rotate in the X-axis direction. One end of the shaft is connected to a locking seat via a snap-fit ​​connector, fixing the shaft in place. This prevents the stirring paddle inside the mixing tank from rotating while the mixing tank rotates, thus achieving a stirring effect. The mixing tank quickly emulsifies and stirs vitamin B2 through the swinging in the Y-axis direction and the rotation in the X-axis direction. After stirring, the mixing tank can be removed for easy pouring out of vitamin B2 and cleaning of the mixing tank, improving its cleanliness. Attached Figure Description

[0011] Figure 1 This is the first perspective structural view of this utility model.

[0012] Figure 2 This is the second perspective structural view of this utility model.

[0013] Figure 3 This is the third perspective structural view of this utility model.

[0014] Figure 4 This is a cross-sectional structural view of the mixing tank of this utility model.

[0015] Figure 5 This is a structural view of the mixing tank of this utility model.

[0016] Figure 6 This is a structural view of the limiting component of this utility model.

[0017] The diagram shows: 1. Frame, 2. Rotary shaft, 3. Swing frame, 4. Cylinder, 5. Drive motor, 6. First roller, 7. Second roller, 8. Belt, 9. Mixing tank, 10. Through hole, 11. Sealed bearing, 12. Shaft, 13. Mixing paddle, 14. Clip connector, 15. First support plate, 16. Clip seat, 17. Soft rubber layer, 18. Tank body, 19. Sealing cap, 20. Pull buckle, 21. Sealing gasket, 22. Second support plate, 23. Limiting component, 24. Assembly seat, 25. Ball bearing. Detailed Implementation

[0018] 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.

[0019] Example 1:

[0020] This utility model provides a vitamin B2 emulsifying mixer, including a frame 1. A swing frame 3 is movably mounted on the frame 1 via a rotating shaft 2. The frame 1 is driven and connected to the swing frame 3 by a cylinder 4. The swing frame 3 is equipped with a drive motor 5, a first roller shaft 6, and a second roller shaft 7. The drive motor 5 is connected to the first roller shaft 6 and the second roller shaft 7 via a belt 8. A mixing tank 9 is movably placed between the first roller shaft 6 and the second roller shaft 7. The bottom of the mixing tank 9 has a through hole 10, and a sealing bearing 11 is sealed and installed in the through hole 10. A shaft 12 is movably mounted on the sealing bearing 11. A stirring paddle 13 is fixedly installed on the shaft 12 inside the mixing tank 9. A snap-fit ​​connector 14 is fixedly connected to the shaft 12 outside the mixing tank 9. A snap-fit ​​seat 16 is fixedly installed on the swing frame 3 via a first support plate 15. A soft rubber layer 17, made of fluororubber, is fixedly installed on the surface of both the first roller shaft 6 and the second roller shaft 7. The mixing tank 9 includes a tank body 18 and a sealing cap 19. The tank body 18 is fixedly connected to the sealing cap 19 via a buckle 20. A sealing gasket 21, made of silicone rubber, is fixedly installed on the sealing cap 19. The swing frame 3 is fixedly installed with a limiting component 23 via a second support plate 22. The limiting component 23 includes a mounting base 24 and a ball bearing 25. The ball bearing 25 is movably mounted on the mounting base 24 and movably abuts against the mixing tank 9.

[0021] Through the above technical solution, this utility model has a swing frame 3 movably mounted on a frame 1 via a rotating shaft 2. The frame 1 is driven and connected to the swing frame 3 by a cylinder 4. The swing frame 3 is equipped with a drive motor 5, a first roller shaft 6, and a second roller shaft 7. A stirring tank 9 is movably placed between the first roller shaft 6 and the second roller shaft 7. The stirring tank 9 is movably mounted on a shaft 12 via a sealed bearing 11. A stirring paddle 13 is fixedly mounted on the shaft 12. During operation, the cylinder 4 repeatedly extends and retracts, driving the swing frame 3 to swing in the Y-axis direction. The drive motor 5 is driven by a belt 8. The first roller shaft 6 and the second roller shaft 7 rotate, which in turn drives the mixing tank 9 to rotate in the X-axis direction. One end of the shaft 12 is connected to the clamping seat 16 through the clamping connector 14, so that the shaft 12 is fixed. This way, when the mixing tank 9 rotates, the stirring paddle 13 inside the mixing tank 9 does not rotate, thus playing a stirring role. The mixing tank 9 quickly completes the emulsification and stirring of vitamin B2 through shaking in the Y-axis direction and rotation in the X-axis direction. After stirring is completed, the mixing tank 9 can be removed to facilitate the pouring out of vitamin B2 and cleaning of the mixing tank 9, thereby improving the cleanliness of the mixing tank 9.

[0022] Example 2:

[0023] In this embodiment, the frame 1 serves as the basic support structure for the entire device. A swing frame 3 is movably connected to its top via a pivot 2. This pivot 2 is horizontally positioned, allowing the swing frame 3 to swing within a vertical plane. A cylinder 4 is mounted on the side of the frame 1. The piston rod of the cylinder 4 is hinged to the swing frame 3. The reciprocating motion of the cylinder 4 drives the swing frame 3 to perform a periodic swinging motion around the pivot 2.

[0024] The swing frame 3 adopts a frame structure, with a drive motor 5 fixedly installed on its upper part. The motor output shaft drives the first roller shaft 6 and the second roller shaft 7 to rotate simultaneously through a belt transmission system 8. These two roller shafts are arranged parallel to each other at the lower part of the swing frame 3, forming a space between them for placing the mixing tank 9. The mixing tank 9 is a cylindrical container, which allows the mixing tank 9 to be clamped by the two roller shafts and rotate with the rotation of the roller shafts.

[0025] A through hole 10 is provided at the center of the bottom of the mixing tank 9. A sealed bearing 11 is installed inside the through hole 10. This bearing is made of food-grade material and has good sealing performance. The shaft 12 passes through the sealed bearing 11 and extends through the bottom of the mixing tank 9. Multiple agitators 13 are fixedly installed on the part of the shaft 12 inside the mixing tank 9. These agitators 13 are radially distributed and can be designed as paddles, spirals, or other forms as needed. The end of the shaft 12 extending out of the mixing tank 9 is provided with a specially designed snap-fit ​​connector 14. This snap-fit ​​connector 14 can be a polygonal cylinder or a structure with a keyway.

[0026] A first support plate 15 is fixedly installed on the side of the swing frame 3. The first support plate 15 has a locking seat 16 that matches the locking connector 14. When the mixing tank 9 is installed in place, the locking connector 14 of the shaft 12 will embed into the locking seat 16, keeping the shaft 12 fixed and not rotating. During operation, the drive motor 5 drives the first roller shaft 6 and the second roller shaft 7 to rotate synchronously via the belt 8, thereby driving the mixing tank 9 to rotate around its own axis. Simultaneously, the cylinder 4 pushes the swing frame 3 to perform periodic swinging, causing the mixing tank 9 to generate a compound motion. Because the shaft 12 is fixed by the locking structure, the stirring paddle 13 generates relative motion with respect to the inner wall of the mixing tank 9, achieving thorough mixing of the materials.

[0027] The unique feature of this mixer lies in its combined motion: the mixing drum 9 simultaneously rotates and oscillates, while the mixing paddle 13 remains relatively stationary. This combination of motion generates a complex flow field, significantly improving emulsification efficiency. After mixing, simply removing the mixing drum 9 from between the two rollers allows for easy material pouring and container cleaning. The entire disassembly process requires no tools, is simple and quick, and effectively solves the problem of difficult cleaning of traditional mixing equipment.

[0028] The mixer of this embodiment is particularly suitable for emulsifying materials with high cleanliness requirements, such as vitamin B2. Its structural design fully considers ease of cleaning; all parts in contact with the material can be quickly disassembled, avoiding cleaning dead zones. Simultaneously, the use of sealed bearings 11 ensures stable support for the shaft 12 while preventing material leakage and external contamination. By adjusting the motion parameters of the cylinder 4 and the speed of the drive motor 5, the stirring intensity and emulsification effect can be flexibly controlled to meet different process requirements.

[0029] Example 3:

[0030] The frame 1 serves as the basic support structure for the entire equipment. A swing frame 3 is movably connected to its upper part via a rotating shaft 2, which allows the swing frame 3 to reciprocate in the Y-axis direction. A cylinder 4 drive device is installed between the frame 1 and the swing frame 3. The extension and retraction of the cylinder 4 drives the swing frame 3 to achieve a regular swinging motion.

[0031] The swing frame 3 is equipped with a transmission system consisting of a drive motor 5, a first roller 6, and a second roller 7. The drive motor 5 drives the first roller 6 and the second roller 7 to rotate synchronously via a belt drive mechanism 8. Both rollers are covered with a soft rubber layer 17 made of fluororubber. This specially designed soft rubber layer 17 can significantly increase the friction between the rollers and the outer wall of the mixing tank 9, ensuring that the mixing tank 9 can be effectively rotated. The choice of fluororubber material not only has good friction performance but also excellent chemical corrosion resistance.

[0032] The mixing tank 9 is designed to be detachable and is movably positioned between the first roller shaft 6 and the second roller shaft 7. The bottom of the mixing tank 9 has a through-hole 10, within which a sealed bearing 11 assembly is installed. A shaft 12 is movably mounted inside the sealed bearing 11. One end of the shaft 12 extending into the mixing tank 9 is fixedly fitted with a stirring paddle 13, while the other end extending outside the mixing tank 9 has a snap-fit ​​connector 14. A snap-fit ​​seat 16 is fixedly mounted on the swing frame 3 via a first support plate 15, for engaging with the snap-fit ​​connector 14 of the shaft 12.

[0033] During operation, cylinder 4 drives the swing frame 3 to reciprocate in the Y-axis direction, while drive motor 5 drives two rollers to rotate via belt 8, thereby causing the mixing tank 9 to rotate in the X-axis direction. Since shaft 12 is fixed to the clamping seat 16 via clamping connector 14, the stirring paddle 13 remains stationary, while the mixing tank 9 moves simultaneously in both the X and Y axes, creating a compound stirring effect.

[0034] After mixing, the operator can easily remove the mixing tank 9 from between the two rollers for easy pouring out of the finished product and thorough cleaning. The detachable design of the mixing tank 9 greatly simplifies the cleaning process and effectively solves the problem of traditional mixers being difficult to clean thoroughly. The entire equipment has a reasonable structural design, with all components operating in coordination, ensuring both mixing effect and ease of maintenance and cleaning. It is particularly suitable for emulsifying and mixing pharmaceuticals such as vitamin B2, where hygiene requirements are strict.

[0035] Example 4:

[0036] The mixing tank 9 of this embodiment includes two main components: a tank body 18 and a sealing cap 19. The tank body 18 has a cylindrical design with an annular flange at the top opening, on which multiple pull-tab 20 fixing seats are evenly distributed. The sealing cap 19 has a circular flat structure with a diameter slightly larger than the opening diameter of the tank body 18. Matching pull-tab 20 movable parts are provided on the edge of the sealing cap 19 corresponding to the positions of the pull-tab 20 fixing seats on the tank body 18. The pull-tab 20 is made of stainless steel and consists of a fixed end and a movable end. The fixed end is mounted on the fixing seat on the flange of the tank body 18, and the movable end connects to the movable part on the edge of the sealing cap 19.

[0037] An annular sealing gasket 21 is fixedly installed on the inner surface of the sealing cap 19. The sealing gasket 21 is made of food-grade silicone rubber and has a U-shaped cross-section, which can completely cover the edge of the opening of the barrel 18. When the sealing cap 19 is closed, the U-shaped opening of the sealing gasket 21 faces downward, forming a double sealing structure with the edge of the opening of the barrel 18. The thickness design of the sealing gasket 21 allows it to undergo moderate compression deformation when the buckle 20 is tightened, ensuring sealing performance. The sealing gasket 21 is fixedly connected to the sealing cap 19 through an annular groove. The groove depth is slightly less than the thickness of the sealing gasket 21, allowing the sealing gasket 21 to be firmly fixed to the sealing cap 19.

[0038] When the mixing tank 9 is in operation, the operator loads the raw materials into the tank body 18, aligns the sealing cap 19 with the opening of the tank body 18, and then tightens each of the latches 20 in sequence. The movable end of the latch 20 generates a locking force through the lever principle, pressing the sealing cap 19 tightly against the tank body 18. At this time, the sealing gasket 21 undergoes elastic deformation, filling all gaps between the tank body 18 and the sealing cap 19, forming a reliable seal. When it is necessary to open the mixing tank 9, simply loosen the latches 20 in sequence to easily remove the sealing cap 19.

[0039] The mixing tank 9 features a specially designed quick-opening and closing mechanism. All latches 20 are of uniform specifications, eliminating the need to distinguish the order of operation and allowing for locking and unlocking in any sequence. The alignment of the sealing cap 19 with the tank body 18 utilizes a guiding structure. Three positioning protrusions on the edge of the sealing cap 19 engage with the positioning groove at the opening of the tank body 18, ensuring accurate alignment with each closure. The U-shaped design of the sealing gasket 21 prevents deformation during repeated opening and closing, maintaining excellent sealing performance over a long period.

[0040] The mixing tank 9 is very easy to clean and maintain. After opening the sealing cover 19, the inner cavity of the tank body 18 is fully exposed, facilitating thorough cleaning. The sealing gasket 21 can be removed from the sealing cover 19 for cleaning or replacement. The entire structure of the mixing tank 9 has no hard-to-clean corners, and all parts can be easily disassembled. The surfaces of the tank body 18 and the sealing cover 19 are polished to reduce the possibility of material residue. This structure ensures both the sealing requirements of the mixing process and meets the high standards of equipment cleanliness required by the pharmaceutical industry.

[0041] Example 5:

[0042] The swing frame 3 is fixedly mounted with a limiting component 23 via a second support plate 22. The limiting component 23 includes a mounting base 24 and ball bearings 25. The mounting base 24 movably mounts the ball bearings 25, which movably abut against the mixing tank 9. The limiting component 23 prevents the mixing tank 9 from falling during the swinging of the swing frame 3, and reduces wear by abutting against the mixing tank 9 with the ball bearings 25.

[0043] In practice, the limiting component 23 is fixedly mounted on the swing frame 3 via the second support plate 22, located on the side of the mixing tank 9. The mounting base 24 is made of metal and has a circular groove inside to accommodate the ball bearing 25. The ball bearing 25 is made of wear-resistant stainless steel and its roundness is ensured through precision machining, allowing it to roll freely within the groove of the mounting base 24. An appropriate gap is maintained between the mounting base 24 and the ball bearing 25 to ensure smooth rotation of the ball bearing 25 while preventing it from falling out.

[0044] When the mixing tank 9 is placed between the first roller 6 and the second roller 7, the balls 25 remain in contact with the outer wall of the mixing tank 9. When the rocking frame 3 shakes in the Y-axis direction, the mixing tank 9 will have a tendency to move laterally. At this time, the balls 25 effectively limit the displacement range of the mixing tank 9 through rolling contact with the outer wall of the mixing tank 9, preventing it from slipping off the rollers. At the same time, since the balls 25 can rotate freely, rolling friction is formed between them and the mixing tank 9, which greatly reduces the sliding friction between the traditional fixed limiting block and the mixing tank 9, and significantly reduces wear.

[0045] When the mixing tank 9 rotates in the X-axis direction, the ball bearings 25 will rotate along with the mixing tank 9, maintaining dynamic contact with the outer wall of the mixing tank 9. This design allows the limiting component 23 to effectively fix the position of the mixing tank 9 without generating significant resistance to the rotational movement of the mixing tank 9, ensuring smooth mixing.

[0046] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0047] The above description is only used to illustrate the technical solution of this utility model and is not intended to limit it. Any other modifications or equivalent substitutions made by those skilled in the art to the technical solution of this utility model, as long as they do not depart from the spirit and scope of the technical solution of this utility model, should be covered within the scope of the claims of this utility model.

Claims

1. A vitamin B2 emulsifying mixer, comprising a frame, characterized in that, The frame is movably mounted with a swing frame via a rotating shaft. The frame is driven by a cylinder to connect the swing frame. The swing frame is equipped with a drive motor, a first roller shaft, and a second roller shaft. The drive motor is connected to the first roller shaft and the second roller shaft via a belt drive. A mixing tank is movably placed between the first roller shaft and the second roller shaft. The bottom of the mixing tank has a through hole, and a sealing bearing is sealed in the through hole. A shaft is movably mounted on the sealing bearing. A stirring paddle is fixedly mounted on the shaft inside the mixing tank. A snap-fit ​​connector is fixedly connected to the shaft outside the mixing tank. The swing frame is fixedly mounted with a snap-fit ​​seat via a first support plate.

2. The vitamin B2 emulsifying mixer according to claim 1, characterized in that, Both the first roller and the second roller have a soft rubber layer fixedly installed on their surfaces, and the soft rubber layer is made of fluororubber.

3. A vitamin B2 emulsifying mixer according to claim 1, characterized in that, The mixing tank includes a tank body and a sealing cap. The tank body is fixedly connected to the sealing cap by a buckle. A sealing gasket is fixedly installed on the sealing cap. The sealing gasket is made of silicone rubber.

4. A vitamin B2 emulsifying mixer according to claim 1, characterized in that, The swing frame is fixedly mounted with a limiting component via a second support plate. The limiting component includes a mounting base and a ball bearing. The ball bearing is movably mounted on the mounting base, and the ball bearing movably abuts against the mixing tank.