Vacuum emulsification device for producing a cream-type cosmetic
Through an integrated sealing structure and automated flipping design, the problem of frequent opening and closing of traditional cosmetic vacuum emulsification devices has been solved, improving processing and material discharge efficiency and realizing high-efficiency automation in cosmetic production.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG LUOYA BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-05-30
- Publication Date
- 2026-06-05
AI Technical Summary
Traditional cosmetic vacuum emulsification equipment suffers from reduced processing efficiency due to frequent opening and closing of the tank lid, and the fixed tank structure makes material discharge inconvenient, resulting in low processing and discharge efficiency.
It adopts an integrated sealing structure, uses a squeezing cylinder and a tilting motor to realize the automatic sealing and tilting of the tank, combines a vacuum pump and a vent pipe for vacuum emulsification and material discharge, and uses a tilting motor to drive the tilting shaft to realize the tilting operation of the tank.
It improves the efficiency and automation of cosmetic processing, ensures sealing effect, simplifies the process of adding additives, and improves material discharge efficiency.
Smart Images

Figure CN224321328U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cosmetic technology, specifically a vacuum emulsification device for the production of creams and lotions. Background Technology
[0002] Cosmetics, broadly speaking, refer to items used for makeup. Specifically, they mainly refer to items applied or distributed to the body or used in similar ways to cleanse and beautify the body, enhance attractiveness, alter appearance, and maintain healthy skin and hair. Cosmetic emulsification refers to the process of uniformly mixing two immiscible liquids, such as oil and water, using specific methods and substances (such as emulsifiers) to form a stable emulsion. This process is crucial in cosmetic manufacturing because it enables the uniform mixing of ingredients with different properties, improving product stability and consistency, and also enhancing the user experience of cosmetics, such as smoothness and absorption.
[0003] In the processing of cosmetics, vacuum emulsification equipment is required for vacuum emulsification. Traditionally, materials are put into the tank, and the lid is manually flipped and snapped shut to seal it. Then, a locking structure is used to fix the lid in place for better sealing. However, when different additives need to be added intermittently, they are not added at the same time, but at intervals, which leads to frequent opening and closing of the lid. This frequent opening and closing affects processing efficiency. At the same time, the fixed tank structure is not convenient for subsequent material discharge, affecting the efficiency of discharge and causing certain troubles. Utility Model Content
[0004] The purpose of this invention is to provide a vacuum emulsification device for the production of creams and lotions, addressing the issues raised in the background art. Traditionally, when processing cosmetics, vacuum emulsification is required. The process involves manually flipping and sealing the lid of the container after adding the material, then using a locking structure to maintain the seal. However, when different additives are added at intervals, this frequent opening and closing of the lid negatively impacts processing efficiency. Furthermore, the fixed container structure hinders subsequent material discharge, affecting discharge efficiency and causing further inconvenience.
[0005] To achieve the above objectives, this utility model provides the following technical solution:
[0006] A vacuum emulsification device for producing creams and ointments includes a main processing tank. A sealing cover is fastened to the top surface of the main processing tank. A top connecting column is welded vertically upwards to the top surface of the sealing cover. A through window is obliquely fixed to the top surface of the sealing cover. A vacuum tube is fixedly connected to the top surface of the sealing cover. A vent pipe is fixedly connected to the top surface of the sealing cover. An auxiliary tank is vertically arranged on the outer side of the main processing tank. A pressure gauge is fixedly installed at the top of the auxiliary tank. Side connecting pipes are symmetrically welded to the outer side of the auxiliary tank. The bottom surface of the main processing tank... A bottom flipping block is welded vertically downwards. A fixed base plate is horizontally installed at the bottom of the main treatment tank. A fixed through hole is symmetrically opened on the top surface of the fixed base plate. A top fixing block is symmetrically welded vertically upwards on the top surface of the fixed base plate. A side fixing box is fixedly installed on the side of one of the top fixing blocks. A flipping motor is horizontally fixed on the inner side of the side fixing box. A flipping shaft is horizontally inserted between the top fixing blocks. A sealing groove is opened at the top of the main treatment tank. A fixing sleeve hole is opened on the side of the bottom flipping block. A sealing rubber ring is fixedly installed on the bottom surface of the sealing cover.
[0007] In a preferred embodiment of this utility model: the top of the main processing tank is open, the sealing cover is snapped onto the top opening of the main processing tank, the bottom end of the top connecting column is fixedly connected to the center of the top surface of the sealing cover, and the top end of the top connecting column is fixedly connected to the movable body end through a flange.
[0008] In a preferred embodiment of this utility model: a transparent plate structure is provided at the top of the through window, one end of the vacuum tube and the vent tube are fixedly inserted into the top surface of the sealing cover near the edge, and both the vacuum tube and the vent tube are connected to the interior of the main processing tank. The auxiliary tank is fixedly connected to the outside of the main processing tank through a side connecting pipe.
[0009] In a preferred embodiment of this utility model: the pressure gauge is kept in communication with the interior of the auxiliary tank, the side connecting pipes are symmetrically fixed to each other on the outside of the auxiliary tank near the top and bottom, the top of the bottom flip block is fixedly connected to the center of the bottom of the main processing tank, and the bottom is inserted into the side between the two top fixing blocks.
[0010] In a preferred embodiment of this utility model: the fixed through holes are symmetrically and through-shaped on the top surface of the fixed base plate near both ends. There are two top fixing blocks, and the two top fixing blocks are symmetrically and parallel to each other and fixedly fixed on the top surface of the fixed base plate near both ends. The output end of the flipping motor extends horizontally and is fixedly connected to one end of the flipping shaft.
[0011] In a preferred embodiment of this utility model: the flipping shaft is horizontally fixedly inserted into the inner side of the fixing sleeve hole, the sealing groove is annularly opened at the edge of the top opening of the main treatment tank, the fixing sleeve hole is through-hole opened at the side of the bottom flipping block, and the bottom end of the sealing ring is snapped into the inner side of the sealing groove.
[0012] Compared with the prior art, the beneficial effects of this utility model are:
[0013] This invention features a fixed base plate horizontally aligned at a fixed position at the bottom. Bolts pass through the fixed through-holes to create a fixed installation. The top connecting column is bolted to the end of a retractable structure resembling a compression cylinder. An external vacuum pump pipe is fixedly connected to one end of a vacuum tube, and a ventilation pump pipe is fixedly connected to one end of a ventilation pipe. After material is fed into the main processing tank, the compression of the retractable structure resembling a compression cylinder causes the sealing cover to snap downwards and engage with the top opening of the main processing tank. The bottom sealing ring engages with the top of the sealing groove, and the compression action secures the seal. The gap between the cap and the top opening of the main processing tank creates a seal. The vacuum tube can draw a vacuum from the inside of the main processing tank, allowing the material to undergo vacuum emulsification. After processing, the venting pipe allows the cap to be easily opened. The rotating motor then drives the rotating shaft, causing the bottom rotating block to rotate between the top fixed block. This rotates the main processing tank to a designated angle, allowing the material to be poured out. The integrated sealing structure makes vacuum emulsification more efficient, and the automated rotating discharge structure effectively improves processing efficiency. Attached Figure Description
[0014] Other features, objects, and advantages of this invention will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:
[0015] Figure 1 A three-dimensional structural diagram of a vacuum emulsification device used in the production of cream-type cosmetics;
[0016] Figure 2 A schematic diagram showing the structural details of the three-dimensional connection of the fixed base plate of a vacuum emulsification device used in the production of cream-type cosmetics.
[0017] Figure 3 A schematic diagram showing the structural details of the three-dimensional connection of the main processing tank of a vacuum emulsification device used in the production of cream-type cosmetics.
[0018] Figure 4A schematic diagram showing the structural details of the three-dimensional connection of the sealing cover of a vacuum emulsification device used in the production of cream-type cosmetics.
[0019] In the diagram: 1. Main processing tank; 2. Sealing cover; 3. Top connecting column; 4. Through window; 5. Vacuum tube; 6. Vent pipe; 7. Auxiliary tank; 8. Pressure gauge; 9. Side connecting pipe; 10. Bottom flip block; 11. Fixed base plate; 12. Fixed through hole; 13. Top fixed block; 14. Side fixed box; 15. Flip motor; 16. Flip shaft; 17. Sealing groove; 18. Fixed sleeve hole; 19. Sealing ring. Detailed Implementation
[0020] Please see Figure 1In this embodiment of the present invention, a vacuum emulsification device for the production of cream-type cosmetics includes a main processing tank 1. A sealing cover 2 is fastened to the top surface of the main processing tank 1. A top connecting column 3 is welded vertically upward to the top surface of the sealing cover 2. The top of the main processing tank 1 is open. The sealing cover 2 is fastened to the top opening end of the main processing tank 1. The bottom end of the top connecting column 3 is fixedly connected to the center position of the top surface of the sealing cover 2, and the top end of the top connecting column 3 is fixedly connected to the movable body end through a flange. A through window 4 is obliquely fixed to the top surface of the sealing cover 2. A vacuum tube 5 is fixedly connected to the top surface of body 2, and a vent pipe 6 is fixedly connected to the top surface of the sealing cover body 2. An auxiliary tank 7 is vertically arranged on the outer side of the main processing tank 1. The auxiliary tank 7 serves as an external protective tank for the vacuum connection valve. A transparent plate structure is provided at the top of the window body 4. One end of the vacuum tube 5 and the vent pipe 6 are fixedly inserted into the top surface of the sealing cover body 2 near the edge, and both the vacuum tube 5 and the vent pipe 6 are connected to the interior of the main processing tank 1. The auxiliary tank 7 is fixedly connected to the outer side of the main processing tank 1 via a side connecting pipe 9. A pressure gauge 8 is fixedly installed at the top of the auxiliary tank 7. Side connecting pipes 9 are symmetrically welded to the outer side of the auxiliary tank 7. A bottom flip block 10 is vertically welded downwards to the bottom surface of the main treatment tank 1. The pressure gauge 8 is in communication with the interior of the auxiliary tank 7. The side connecting pipes 9 are symmetrically fixed to each other on the outer side of the auxiliary tank 7 near the top and bottom. The top of the bottom flip block 10 is fixedly connected to the center of the bottom of the main treatment tank 1, and the bottom is inserted into the side between two top fixing blocks 13. A fixed base plate 11 is horizontally installed at the bottom of the main treatment tank 1. The top of the fixed base plate 11... A fixed through hole 12 is symmetrically opened on the top surface of the fixed base plate 11. A top fixing block 13 is symmetrically welded vertically upward on the top surface of the fixed base plate 11. The fixed through hole 12 is symmetrically opened through the top surface of the fixed base plate 11 near both ends. There are two top fixing blocks 13, and the two top fixing blocks 13 are symmetrically fixed to each other on the top surface of the fixed base plate 11 near both ends. A side fixing box 14 is fixedly installed on the side of one top fixing block 13. The function of the top connecting column 3 is to fix and connect with the external stirring structure, so that the stirring structure extends into the tank to form a stirring process.
[0021] Please see Figure 2-4In this embodiment of the present invention, a vacuum emulsification device for the production of cream-type cosmetics is provided, wherein a flipping motor 15 is horizontally fixedly installed on the inner side of the side fixing box 14, and a flipping shaft 16 is horizontally inserted between the top fixing blocks 13. The output end of the flipping motor 15 is horizontally extended and fixedly connected to one end of the flipping shaft 16. The main processing tank 1 can achieve a stable effect through the fixed connection between the top and bottom ends. The flipping side of the main processing tank 1 is provided with a fixed limiting structure, which locks and fixes it after flipping to a specified angle, so that it can be stably maintained at the specified angle to meet the effect of stable placement. The flipping structure at the bottom is a certain distance away from the channel.
[0022] The main processing tank 1 has a sealing groove 17 at its top, and a fixing sleeve hole 18 is provided on the side of the bottom flipping block 10. A sealing ring 19 is fixedly provided on the bottom surface of the sealing cover 2. The flipping shaft 16 is horizontally fixedly inserted into the inner side of the fixing sleeve hole 18. The sealing groove 17 is annularly opened at the edge of the top opening of the main processing tank 1. The fixing sleeve hole 18 is through-hole opened on the side of the bottom flipping block 10. The bottom end of the sealing ring 19 is snapped into the inner side of the sealing groove 17. This emulsification device is suitable for the production of cream and ointment cosmetics.
[0023] The working principle of this utility model is as follows:
[0024] The fixed base plate 11 is horizontally aligned and fixed at the bottom. Bolts are used to pass through the fixed through-hole 12 to form a fixed installation. The top of the top connecting column 3 is fixedly connected to the end of the retractable structure of the extrusion cylinder via bolts. The external vacuum pump pipe is fixedly connected to one end of the vacuum pipe 5, and the air pump pipe is fixedly connected to one end of the air pipe 6. After the material is fed into the main processing tank 1, the extrusion of the top extrusion cylinder causes the sealing cover 2 to snap downwards and engage with the top opening of the main processing tank 1. The top extrusion cylinder is a moving structure that works in conjunction with the top of the main processing tank 1. This retractable structure is a movable structure similar to a telescopic cylinder, which moves downwards along with the agitator, causing the bottom... The sealing ring 19 is snapped into the top of the sealing groove 17. Under the pressure, it forms a seal between the top opening of the sealing cover 2 and the main processing tank 1. The vacuum tube 5 can draw a vacuum from the inside of the main processing tank 1, allowing the material to undergo vacuum emulsification reaction inside the main processing tank 1. After the process is completed, the sealing cover 2 can be easily opened by the ventilation tube 6. Then, the rotating motor 15 is controlled to rotate, causing the output end to drive the rotating shaft 16 to rotate, so that the bottom rotating block 10 rotates between the top fixed block 13. The fixed block 13 has a limit structure on one side, which can lock and fix the tank. The external openable and telescopic ring structure can provide an overall balance and fixation effect for the tank, so that the top of the main processing tank 1 rotates to a specified angle to perform the material pouring operation.
[0025] 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 vacuum emulsification device for the production of cream-type cosmetics, comprising a main processing tank (1), characterized in that, The main processing tank (1) is fitted with a sealing cover (2) on its top surface. A top connecting column (3) is welded vertically upward on the top surface of the sealing cover (2). A through window (4) is obliquely fixed on the top surface of the sealing cover (2). A vacuum tube (5) is fixedly connected to the top surface of the sealing cover (2). A vent pipe (6) is fixedly connected to the top surface of the sealing cover (2). An auxiliary tank (7) is vertically arranged on the outer side of the main processing tank (1). A pressure gauge (8) is fixedly arranged at the top of the auxiliary tank (7). Side connecting pipes (9) are symmetrically welded on the outer side of the auxiliary tank (7). A bottom flipping block (10) is welded vertically downward on the bottom surface of the main processing tank (1). A fixed base plate (11) is horizontally provided at the bottom of the main processing tank (1). A fixed through hole (12) is symmetrically provided on the top surface of the fixed base plate (11). A top fixing block (13) is vertically and symmetrically welded on the top surface of the fixed base plate (11). A side fixing box (14) is fixedly provided on the side of one of the top fixing blocks (13). A flipping motor (15) is horizontally fixed on the inner side of the side fixing box (14). A flipping shaft (16) is horizontally inserted between the top fixing blocks (13). A sealing groove (17) is provided at the top of the main processing tank (1). A fixing sleeve hole (18) is provided on the side of the bottom flipping block (10). A sealing rubber ring (19) is fixedly provided on the bottom surface of the sealing cover (2).
2. The vacuum emulsification device for producing creams and ointments according to claim 1, characterized in that, The top of the main processing tank (1) is open, and the sealing cover (2) is fastened to the top opening of the main processing tank (1). The bottom of the top connecting column (3) is fixedly connected to the center of the top surface of the sealing cover (2), and the top of the top connecting column (3) is fixedly connected to the movable body end through a flange.
3. The vacuum emulsification device for producing creams and ointments according to claim 1, characterized in that, The top of the through window (4) is provided with a transparent plate structure. One end of the vacuum tube (5) and the vent tube (6) are fixedly inserted into the top surface of the sealing cover (2) near the edge. The vacuum tube (5) and the vent tube (6) are both connected to the inside of the main processing tank (1). The auxiliary tank (7) is fixedly connected to the outside of the main processing tank (1) through the side connecting pipe (9).
4. The vacuum emulsification device for producing creams and ointments according to claim 1, characterized in that, The pressure gauge (8) is connected to the interior of the auxiliary tank (7). The side connecting pipes (9) are symmetrically fixed to each other on the outside of the auxiliary tank (7) near the top and bottom. The top of the bottom flip block (10) is fixedly connected to the center of the bottom of the main processing tank (1), and the bottom is inserted between the two top fixing blocks (13) on the side.
5. The vacuum emulsification device for producing creams and ointments according to claim 1, characterized in that, The fixed through holes (12) are symmetrically opened on the top surface of the fixed base plate (11) near both ends. There are two top fixing blocks (13), and the two top fixing blocks (13) are symmetrically fixed on the top surface of the fixed base plate (11) near both ends. The output end of the flipping motor (15) is horizontally extended and fixedly connected to one end of the flipping shaft (16).
6. The vacuum emulsification device for producing creams and ointments according to claim 1, characterized in that, The flipping shaft (16) is horizontally fixed and inserted into the inner side of the fixed sleeve hole (18). The sealing groove (17) is opened in a ring shape at the edge of the top opening of the main treatment tank (1). The fixed sleeve hole (18) is opened through the side of the bottom flipping block (10). The bottom end of the sealing ring (19) is snapped into the inner side of the sealing groove (17).