A low temperature aging device for perfume grade mosquito repellent floral water
By designing a low-temperature aging device with a spherical seat and an arc-shaped scraper, the problems of uneven mixing and separation of precipitates during the low-temperature aging process of toilet water were solved, thus achieving stable and efficient production of toilet water.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- FUJIAN JINLU DAILY CHEM CO LTD
- Filing Date
- 2026-05-13
- Publication Date
- 2026-06-09
AI Technical Summary
Existing equipment is insufficient to meet the requirements of uniform mixing, low-temperature sealing, and separation of precipitates during the low-temperature aging process of toilet water, resulting in inconsistent aging effects and low mixing efficiency.
A low-temperature aging device for perfume-grade mosquito repellent floral water was designed. It adopts a spherical seat and arc scraper structure, combined with a stirring device and a refrigeration device to achieve uniform mixing and temperature control. It is equipped with a crushing air seat and a booster pump to crush and uniformly mix the materials, ensuring that the mixture is fully blended.
This process ensures thorough mixing and uniform stirring of materials during the low-temperature aging of floral water, guaranteeing stable aging results and facilitating the separation and discharge of precipitates, thereby improving production efficiency.
Smart Images

Figure CN122164290A_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of aging technology, and in particular relates to a low-temperature aging device for perfume-grade mosquito repellent floral water. Background Technology
[0002] Although various aging and maturation equipment exist in industries such as fragrances and alcoholic beverages, there is almost no specialized equipment directly applicable to the low-temperature aging of floral water, and existing technical solutions are insufficient to meet the needs of refined production.
[0003] Currently, many companies use general-purpose mixing tanks, reaction vessels, or even simple storage tanks as substitutes. These devices were not designed with the characteristics of low-temperature, long-term aging processes in mind, such as the uniformity of the internal flow field, low-temperature sealing to prevent volatilization, and the special requirements for easy separation of precipitates.
[0004] Furthermore, to ensure the stability of the low-temperature aging process, a stable low-temperature environment is a crucial factor. Current practices often involve placing the storage tanks in cold storage or adding cooling coils to the outside of general-purpose tanks. The former consumes a huge amount of space and energy and cannot achieve independent and precise temperature control for individual tanks; the latter often results in uneven cooling, with a large temperature difference between the center and the edge of the tank, leading to inconsistent aging effects.
[0005] Furthermore, during the low-temperature aging process of mosquito repellent liquid, it is necessary to mix and stir the ingredients together to promote the full integration of the fragrance in the liquid. Existing aging equipment has the disadvantages of being unable to mix efficiently and unable to quickly remove impurities.
[0006] Therefore, the present invention aims to provide a low-temperature aging device for perfume-grade mosquito repellent floral water to solve the above problems. Summary of the Invention
[0007] The purpose of this invention is to address the aforementioned problems in the existing technology by proposing a low-temperature aging device for perfume-grade mosquito repellent floral water. This invention can mix various floral water additives and age them at low temperatures, ensuring uniform mixing and thus guaranteeing the stability of the subsequent floral water's properties and its mellow aroma.
[0008] To achieve the above objectives, the present invention adopts the following technical solution: a low-temperature aging device for perfume-grade mosquito repellent floral water, including an aging tank and a discharge port. The discharge port is provided on the upper end face of the aging tank, and a first sealing cover is threadedly sealed at the center of the discharge port. A stirring and aging device is provided below the first sealing cover at the bottom of the aging tank. The stirring and aging device includes a spherical seat, on which multiple arc-shaped scrapers are rotatably arranged. Each arc-shaped scraper has a first connecting plate on its end face near the center of the spherical seat. A communicating air chamber is arranged inside the first connecting plate. Multiple first one-way spray nozzles are connected to the end face of the communicating air chamber near the center of the spherical seat. A discharge pipe is connected to the center of the bottom of the spherical seat. A spherical seat within the stirring and aging device is fixedly suspended at the bottom of the aging tank. A fixed frame is mounted above the spherical seat inside the aging tank. A crushing air seat is located at the center of the upper surface of the fixed frame. A first rotating ventilation shaft is rotatably connected to the center of the bottom of the crushing air seat. The other end of the first rotating ventilation shaft is connected to the upper surface of the ventilation chamber within the stirring and aging device. The hemispherical shape of the spherical seat effectively reduces the occurrence of mixing dead zones, and the curved scraper prevents the mixture from sticking to the spherical seat. The first connecting plate stirs the mixture during rotation, while the rotating fan wheel rotates on its own axis during the rotation of the first connecting plate, thus creating multi-directional agitation within the mixture and effectively improving the mixing effect.
[0009] Two rotating shafts are symmetrically fixed on the outer circular surfaces of both sides of the aging tank. The rotating shafts are rotatably mounted on the end face of the support plate. The bottom of the two support plates is fixedly mounted with a fixed base.
[0010] A material injection air pipe is connected to the center of the upper end face of the crushing air seat, and a booster pump is installed below the crushing air seat inside the first rotating ventilation shaft.
[0011] A bidirectional output motor is fixedly installed at the inner center of the crushing air seat. A first rotating disk is connected to the upper output end of the bidirectional output motor. Multiple rubber inclined rods are provided on the outer circular surface of the upper end of the first rotating disk. A connecting main rod is provided at the center of the end face of the first rotating disk. An elastic rope is connected between the connecting main rod and the multiple rubber inclined rods. Multiple first rubber spherical surfaces are provided on the upper end face of the elastic rope and the rubber inclined rods.
[0012] A crushing cone wall is provided above the first rotating disk and inside the top of the crushing gas seat. Multiple crushing grooves are provided on the inclined circular surface of the crushing cone wall near the first rotating disk. Multiple first crushing teeth are provided in each crushing groove. A guide cone seat is provided on the bottom end face of the crushing gas seat.
[0013] Multiple rotating inner rods are provided on the end face of the first connecting plate between multiple first unidirectional spray nozzles, and a stirring fan wheel is rotatably provided on the outer circular surface of each rotating inner rod.
[0014] The stirring and aging device also includes a rotating connecting plate rotatably disposed at the center of the upper part of the spherical seat. Multiple third connecting plates are connected to the outer circular surface of the rotating connecting plate. A second connecting plate is spring-loaded on one side of each third connecting plate. A first connecting plate is connected to the bottom end face of each second connecting plate. An air chamber is connected to the center of the rotating connecting plate. One end of multiple connecting pipes is connected to the bottom end face of the air chamber. The other end of the connecting pipes is connected to the end face of the air chamber.
[0015] Multiple elastic tubes are connected between the third connecting plate and the second connecting plate. Each elastic tube is connected to a connecting spring. An elastic frame is wrapped around the outer side of the elastic tube between the third connecting plate and the second connecting plate. A vibrator is provided on one side of the elastic frame on the upper surface of the second connecting plate.
[0016] The bottom of the ventilation chamber is connected to a second rotating ventilation shaft. Multiple stirring rods are evenly arranged along the circumference on the outer circular surface of the second rotating ventilation shaft. A spraying seat is connected to the end face of the second rotating ventilation shaft away from the rotating connecting plate. Multiple second one-way spraying nozzles are arranged on the outer circular surface of the spraying seat.
[0017] The aging tank is equipped with a refrigeration device at the bottom, and a refrigeration arc plate is provided below the spherical seat. The refrigeration arc plate is connected to the output end of the refrigeration device.
[0018] Preferably, the arc-shaped scraper is provided with an arc-shaped groove on the arc surface that fits against the inner wall of the spherical seat, and a plurality of cleaning bristles are evenly arranged on the arc-shaped groove surface along the circumferential direction.
[0019] Beneficial effects: This invention can ensure that the materials are fully mixed during the low-temperature aging process, facilitate aging in continuous operation, and facilitate the discharge of materials after aging. The inside of the tank is easy to clean and has strong continuous working capacity. This invention adopts a completely new layout for low-temperature aging equipment, enabling precise temperature control for individual low-temperature aging. Attached Figure Description
[0020] Figure 1 This is a perspective view of the present invention; Figure 2 This is a top view of the present invention; Figure 3 This is the front view of the present invention; Figure 4 for Figure 2 Sectional view at point AA; Figure 5 for Figure 3 Sectional view at point BB; Figure 6 for Figure 4 A magnified view of a section at point C; Figure 7 for Figure 4 A magnified view of a section at point D; Figure 8 for Figure 4 A magnified view of a section at point E in the middle; Figure 9 for Figure 5 A magnified view of a section at point F in the middle; In the diagram: aging tank 10, discharge port 12, first sealing cover 11, spherical seat 35, discharge port 18, second sealing cover 19, arc scraper 32, first connecting plate 49, connecting air chamber 50, first one-way spray nozzle 51, rotating inner rod 52, stirring fan wheel 53, fixed frame 20, crushing air seat 21, second rotating ventilation shaft 30, stirring rod 31, rotating shaft 17, support plate 14, fixed base 16, first drive motor 15, injection air pipe 13, rotating connecting disc 27, third connecting plate 57, second connecting plate 54, first connecting plate 49, booster pump. Machine 23, first gear ring 24, first gear 26, second drive motor 25, air chamber 28, spray base 60, second unidirectional spray nozzle 61, connecting pipe 29, bidirectional output motor 36, first rotating disk 37, rubber inclined rod 39, connecting main rod 38, elastic rope 40, first rubber spherical surface 41, crushing cone wall 42, crushing groove 43, first crushing tooth 44, second rotating disk 45, guide cone seat 47, crushing rod 46, second crushing tooth 48, spring tube 58, connecting spring 59, spring frame 56, vibrator 55, arc groove 62, cleaning brush bristles 63. Detailed Implementation
[0021] The following are specific embodiments of the present invention, which are described in conjunction with the accompanying drawings. However, the present invention is not limited to these embodiments.
[0022] In the description of this invention, it should be noted that the terms "inner," "lower," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship in which the product of the invention is conventionally placed during use. They are used only for the convenience of describing the invention and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the invention. Furthermore, the terms "first," "second," etc., are used only to distinguish descriptions and should not be construed as indicating or implying relative importance.
[0023] Example 1: like Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 7As shown, a low-temperature aging device for perfume-grade mosquito repellent includes an aging tank 10 and a discharge port 12. The discharge port 12 is located on the upper surface of the aging tank 10. A first sealing cover 11 is threadedly sealed at the center of the discharge port 12. A stirring and aging device is located inside the aging tank 10 below the first sealing cover 11. A spherical seat 35 inside the stirring and aging device is fixedly suspended at the bottom of the aging tank 10. A discharge port 18 is connected to the center of the bottom of the spherical seat 35 and the bottom of the aging tank 10. A second sealing cover 19 is threadedly sealed at the center of the discharge port 18. Multiple arc-shaped scrapers 32 are evenly rotated along the circumference on the inner surface of the spherical seat 35. The arc surfaces of the scrapers 32 are in contact with the inner surface of the spherical seat 35 and rotate. Each arc-shaped scraper 32 has a vertical first sealing cover on its end face near the center of the spherical seat 35. A connecting plate 49 is provided inside the first connecting plate 49. A connecting air chamber 50 is provided on the end face of the connecting air chamber 50 near the center of the arc scraper 32 along the straight direction. Multiple first one-way spray nozzles 51 are provided to spray gas mixed with aging bacteria. Multiple rotating inner rods 52 are provided between the multiple first one-way spray nozzles 51 on the end face of the first connecting plate 49. A stirring fan wheel 53 for stirring is rotatably provided on the outer circular surface of the rotating inner rods 52 away from the connecting air chamber 50. A fixing frame 20 is fixedly provided above the first connecting plate 49 inside the aging tank 10. A crushing gas seat 21 for crushing aging bacteria and mixing gas is provided at the center of the upper end face of the fixing frame 20. A second rotating ventilation shaft 30 is rotatably provided below the crushing gas seat 21 at the center of the spherical seat 35. Multiple stirring rods 31 are evenly provided on the outer circular surface of the second rotating ventilation shaft 30 along the circumferential direction.
[0024] Furthermore, such as Figure 1 and Figure 2 As shown, two rotating shafts 17 are symmetrically fixed on the outer circular surfaces of both sides of the aging tank 10. The rotating shafts 17 are rotatably mounted on the end face of the support plate 14. The bottom of the two support plates 14 is fixedly mounted with a fixed base 16. One end of one of the rotating shafts 17 extends out of the end face of the support plate 14. A first drive motor 15 is fixedly mounted on the end face of the support plate 14. The output end of the first drive motor 15 is connected to the end face of the rotating shaft 17 that extends out of the support plate 14.
[0025] Furthermore, such as Figure 4 , Figure 5 and Figure 7As shown, one end of the injection air pipe 13 is connected to the center of the upper end face of the crushing air seat 21, and the other end of the injection air pipe 13 is connected to the outer circular surface of the aging tank 10. A first rotating ventilation shaft 22 is rotatably connected to the bottom end face of the crushing air seat 21 below the injection air pipe 13. A rotating connecting plate 27 is connected to the end face of the first rotating ventilation shaft 22 near the spherical seat 35. Multiple third connecting plates 57 are evenly connected along the circumferential direction on the outer circular surface of the rotating connecting plate 27. A second connecting plate 54 is spring-loaded on one side of each third connecting plate 57. A first connecting plate 49 is connected to the bottom end face of each second connecting plate 54.
[0026] Furthermore, such as Figure 4 and Figure 5 As shown, a booster pump 23 for pressurizing gas is installed inside the first rotating ventilation shaft 22. A first gear ring 24 is installed on the outer surface of the cooling arc plate 33 on the outside of the booster pump 23. A first gear 26 is rotatably installed on one side of the first gear ring 24. The first gear 26 meshes with the first gear ring 24 for transmission. A second drive motor 25 is fixedly installed on the bottom end face of the fixed frame 20 above the first gear 26. The output end of the second drive motor 25 is connected to the top end face of the first gear 26.
[0027] Furthermore, such as Figure 4 , Figure 7 and Figure 8 As shown, a ventilation chamber 28 is connected to the center of the rotating connecting disc 27. The upper and lower ends of the ventilation chamber 28 are connected to the first rotating ventilation shaft 22 and the second rotating ventilation shaft 30, respectively. A spraying seat 60 is connected to the end face of the second rotating ventilation shaft 30 away from the rotating connecting disc 27. The spraying seat 60 is located above the bottom arc surface of the spherical seat 35. Multiple second unidirectional spraying nozzles 61 are evenly arranged along the circumferential direction on the outer circular surface of the spraying seat 60. One end of multiple connecting pipes 29 is evenly connected along the circumferential direction on the bottom end face of the ventilation chamber 28 on the outer side of the second rotating ventilation shaft 30. The other end of the connecting pipes 29 is connected to the end face of the connecting air chamber 50.
[0028] Furthermore, such as Figure 6 and Figure 9As shown, a bidirectional output motor 36 with output ends on both the upper and lower sides is fixedly installed at the center of the crushing air seat 21. A first rotating disk 37 is connected to the upper output end of the bidirectional output motor 36. Multiple outwardly inclined rubber rods 39 are evenly arranged along the circumference on the outer circular surface of the end face of the first rotating disk 37 near the injection air pipe 13. A connecting main rod 38 is installed at the center of the end face of the first rotating disk 37. An elastic rope 40 is connected between the multiple rubber rods 39 on the outer circular surface of the connecting main rod 38. Multiple first rubber spherical surfaces 41 are provided on the end faces of the elastic rope 40 and the rubber rods 39 near the injection air pipe 13. An annular inclined crushing cone wall 42 is provided above the first rotating disk 37 and inside the top of the crushing air seat 21. Multiple crushing grooves 43 are evenly arranged along the circumference on the inclined circular surface of the crushing cone wall 42 near the first rotating disk 37. Multiple outwardly protruding first crushing teeth 44 are provided in each crushing groove 43.
[0029] Furthermore, the bottom of the aging tank 10 is provided with a refrigeration device 34, and a refrigeration arc plate 33 is provided below the spherical seat 35. The refrigeration arc plate 33 is connected to the output end of the refrigeration device 34.
[0030] Before mixing and aging, the staff first unscrews the first sealing cap 11 outwards, and then pours the raw liquid into the spherical seat 35 through the discharge pipe 12. When the raw liquid covers the top stirring rod 31, the pouring is stopped, and then the first sealing cap 11 can be screwed back into the discharge pipe 12.
[0031] The equipment is then started. At this time, the second drive motor 25 starts, and the output end of the second drive motor 25 drives the first gear 26 to rotate, thereby driving the first gear ring 24 meshing with it and the first rotating ventilation shaft 22 at the center of the first gear ring 24 to rotate. The first rotating ventilation shaft 22 drives the rotating connecting plate 27 at the bottom and the third connecting plate 57 on the outer circular surface of the rotating connecting plate 27 to rotate, thereby driving the second connecting plate 54 set on one side of the third connecting plate 57 and the first connecting plate 49 at the bottom of the second connecting plate 54 to rotate, thereby driving the arc-shaped scraper 32 set at the bottom of the first connecting plate 49 to rotate against the inner circular surface of the spherical seat 35. During the rotation of the disc 27, the rotating disc 27 will also drive the second rotating ventilation shaft 30 at the bottom and the multiple stirring rods 31 on the outer surface of the second rotating ventilation shaft 30 to rotate, thereby stirring the raw liquid in the spherical seat 35. During the stirring process, the refrigeration device 34 set at the bottom of the aging tank 10 will also start to cool. The refrigeration device 34 will conduct heat to the refrigeration arc plate 33, which will drive the spherical seat 35 and the raw liquid in the spherical seat 35 to start to cool down until the aging temperature is reached and then the cooling stops. The temperature is maintained by the spherical seat 35. Combined with stirring, the internal raw liquid can be kept in a uniform and stable temperature state.
[0032] At this time, the staff can put the mixture in through the injection pipe 13 at the appropriate time. The mixture entering the injection pipe 13 will enter the crushing air seat 21. The bidirectional output motor 36 set in the crushing air seat 21 will start. The bidirectional output motor 36 will drive the upper output end to drive the first rotating disk 37 to rotate, thereby driving the connecting main rod 38 and the rubber inclined rod 39 set on the end face of the first rotating disk 37 to rotate, thereby driving the elastic rope 40 set between the connecting main rod 38 and the rubber inclined rod 39 to rotate. The mixture entering the crushing air seat 21 through the injection pipe 13 will fall onto the rotating elastic rope 40. Since the elastic rope 40 itself is elastic, and the rubber inclined rod 39 at one end of the elastic rope 40 is also made of rubber and is elastic, the mixture will be rotated and bounced up and come into contact with the first crushing tooth 44 in the crushing groove 43 of the top crushing cone wall 42, thereby being crushed and dispersed into powder.
[0033] During the process of crushing and dispersing the mixture into powder, the booster pump 23 located inside the first rotating ventilation shaft 22 will start. The booster pump 23 drives the gas outside the crushing air seat 21 and the injection air pipe 13 to flow into the first rotating ventilation shaft 22, thereby causing the dispersed powder to be carried into the booster pump 23 by the gas. Then, it is blown into the ventilation chamber 28 by the booster pump 23. A portion of the mixed powder gas entering the ventilation chamber 28 will enter the bottom second rotating ventilation shaft. At the center of circle 30, the mixture enters the spray base 60 through the second rotating ventilation shaft 30, and is then sprayed outward through multiple second one-way spray nozzles 61 on the outer surface of the spray base 60. This allows the mixed powder to enter the bottom of the original liquid layer for mixing. During this process, the second one-way spray nozzles 61 continuously spray gas, and the spray base 60 rotates under the action of the second rotating ventilation shaft 30, thereby stirring and mixing the bottom of the original liquid layer to prevent the mixed powder from settling. In this relationship, the injection air pipe 13 serves both as a container for the mixture and as a gas communication channel.
[0034] Another portion of the mixed powder gas entering the ventilation chamber 28 will enter each of the connecting air chambers 50 through the connecting pipe 29, and then be sprayed outward through multiple first one-way spray nozzles 51 on the end face of the connecting air chamber 50. In this relationship, the multiple connecting air chambers 50 are located on the side away from the center of the spherical seat 35, while the first one-way spray nozzles 51 are close to the center of the spherical seat 35. The mixed powder gas sprayed out can gather inward from the edge of the original liquid layer, thereby avoiding the situation where the edge of the original liquid layer cannot be fully aged.
[0035] When the first connecting plate 49 rotates along with the second connecting plate 54, the first connecting plate 49 will cause the bottom arc-shaped scraper 32 to rotate against the inner circular surface of the spherical seat 35. The arc-shaped scraper 32 can prevent the residue from clumping on the spherical surface of the spherical seat 35 after the original liquid has aged. In this relationship, the spherical seat 35 itself can also reduce the adhesion of residual clumps to the inner wall. During the rotation of the first connecting plate 49, it will also drive the multiple rotating inner rods 52 on one side to rotate, thereby driving the stirring fan wheel 53 set on the outer circular surface of the rotating inner rod 52 to rotate. When the stirring fan wheel 53 is driven to rotate by the first connecting plate 49, the blades on the surface of the stirring fan wheel 53 will also rotate on the outer circular surface of the rotating inner rod 52 when in contact with the original liquid, thereby stirring and mixing the original liquid in multiple ways, thereby improving the aging and mixing effect.
[0036] When the raw liquid is mixed and aged in the spherical seat 35, the first drive motor 15 set on the end face of the support plate 14 can also be started. The output end of the first drive motor 15 drives the rotating shaft 17 to rotate, thereby causing the aging tank 10 set at one end of the rotating shaft 17 to swing back and forth, so that the raw liquid in the spherical seat 35 can be shaken over a large area, thereby improving the mixing effect. After the raw liquid is aged, the staff put the tank at the bottom of the aging tank 10, and then unscrew the second sealing cap 19 to open the discharge pipe 18, and then the raw liquid will be discharged through the discharge pipe 18.
[0037] To remove any insoluble residues remaining inside, open the first sealing cover 11, invert it, and rinse the inside.
[0038] Example 2: Based on Example 1, further examples are made, such as... Figure 6 and Figure 9 As shown, a second rotating disk 45 is connected to the bottom output end of the bidirectional output motor 36. Below the second rotating disk 45, on the bottom end face of the crushing air seat 21, there is a downwardly inclined annular guide cone seat 47. The center of the guide cone seat 47 is connected to the first rotating ventilation shaft 22. Above the first rotating ventilation shaft 22, on the bottom end face of the second rotating disk 45, there are a plurality of outwardly inclined and open crushing rods 46 evenly arranged in the circumferential direction. Each crushing rod 46 has a plurality of second crushing teeth 48 on its inclined surface near the first rotating ventilation shaft 22.
[0039] As the first rotating disk 37 is driven to rotate by the crushing trough 43, the bidirectional output motor 36 also drives the second rotating disk 45 to rotate, thereby driving the multiple crushing rods 46 and the second crushing teeth 48 set on the bottom end face of the spherical seat 35 to rotate. When the mixture material that is thrown out by the elastic rope 40 hits the first crushing tooth 44 is not completely crushed, it will fall onto the guide cone seat 47. The conical surface of the guide cone seat 47 will cause the mixture material to roll to the outside of the crushing rods 46 and the second crushing teeth 48. The rotating crushing rods 46 and the second crushing teeth 48 can then perform secondary crushing on the mixture material, thereby ensuring that the mixture material is discharged as powder, thereby enhancing the contact with the aging liquid and ensuring sufficient aging effect.
[0040] Example 3: Further embodiments can be made based on Embodiment 1 or 2, such as... Figure 4 and Figure 7 As shown, multiple elastic tubes 58 are uniformly connected between the third connecting plate 57 and the second connecting plate 54 in a straight line direction. Each elastic tube 58 is connected to a connecting spring 59. An elastic frame 56 is wrapped around the outer side of the elastic tube 58 between the third connecting plate 57 and the second connecting plate 54. A vibrator 55 is provided on one side of the elastic frame 56 on the upper surface of the second connecting plate 54.
[0041] Furthermore, such as Figure 4 and Figure 8 As shown, the arc-shaped scraper 32 is attached to the arc surface of the inner wall of the spherical seat 35 and has an arc-shaped groove 62. Multiple cleaning bristles 63 are evenly arranged on the arc-shaped groove surface of the arc-shaped groove 62 along the circumferential direction.
[0042] When the first connecting plate 49 drives the arc-shaped scraper 32 to rotate against the inner circular surface of the spherical seat 35, the vibrator 55 set on the end face of the second connecting plate 54 will be activated. The vibrator 55 will cause the second connecting plate 54 to vibrate up and down under the action of the spring tube 58 and the connecting spring 59, thereby causing the multiple rotating inner rods 52 and the stirring fan wheel 53 on the end face of the first connecting plate 49 to vibrate up and down, thereby improving the diversity of mixing and stirring and improving the aging effect.
[0043] When the first connecting plate 49 vibrates up and down, the first connecting plate 49 will also drive the bottom arc scraper 32 to vibrate up and down. The up and down vibration of the arc scraper 32 will drive multiple cleaning bristles 63 in the arc groove 62 to move back and forth. The back and forth moving cleaning bristles 63 and the arc scraper 32 will break up and scrape off the solidified residue on the inner circular surface of the spherical seat 35.
[0044] The above descriptions are merely embodiments of the present invention. Commonly known structures and characteristics are not described in detail here. Those skilled in the art are aware of all common technical knowledge in the field prior to the application date or priority date, are aware of all existing technologies in that field, and have the ability to apply conventional experimental methods prior to that date. Those skilled in the art can, under the guidance of this application, improve and implement this solution in combination with their own capabilities. Some typical known structures or methods should not be obstacles for those skilled in the art to implement this application. It should be noted that those skilled in the art can make several modifications and improvements without departing from the structure of the present invention. These should also be considered within the scope of protection of the present invention, and will not affect the effectiveness of the implementation of the present invention or the practicality of the patent. The scope of protection claimed in this application should be determined by the content of its claims, and the specific embodiments described in the specification can be used to interpret the content of the claims.
Claims
1. A low temperature aging equipment for perfume grade mosquito repellent water, comprising an aging tank (10), a discharge nozzle (12), characterized in that, The aging tank (10) is provided with a discharge port (12) on the upper end face. A first sealing cover (11) is provided at the center of the discharge port (12) with a threaded seal. A stirring and aging device is provided below the first sealing cover (11) at the bottom of the aging tank (10). The stirring and aging device includes a spherical seat (35), on which multiple arc-shaped scrapers (32) are rotatably arranged. Each arc-shaped scraper (32) is provided with a first connecting plate (49) on the end face near the center of the spherical seat (35). A connecting air chamber (50) is provided inside the first connecting plate (49). Multiple first one-way spray nozzles (51) are connected to the end face near the center of the spherical seat (35). A discharge pipe (18) is connected to the bottom center of the spherical seat (35). The spherical seat (35) in the stirring aging device is fixedly mounted on the bottom of the aging tank (10). A fixed frame (20) is fixedly mounted on the upper part of the spherical seat (35) inside the aging tank (10). A crushing air seat (21) is provided at the center of the upper end of the fixed frame (20). One end of the first rotating ventilation shaft (22) is rotatably connected to the center of the bottom of the crushing air seat (21). The other end of the first rotating ventilation shaft (22) is connected to the upper end of the ventilation chamber (28) in the stirring aging device.
2. The low-temperature aging equipment for perfume-grade mosquito repellent floral water according to claim 1, characterized in that, Two rotating shafts (17) are symmetrically fixed on the outer circular surfaces of both sides of the aging tank (10). The rotating shafts (17) are rotatably mounted on the end face of the support plate (14). The bottom of the two support plates (14) is fixedly mounted with a fixed base (16).
3. The low-temperature aging equipment for perfume-grade mosquito repellent floral water according to claim 1, characterized in that, A material injection air pipe (13) is connected to the center of the upper end face of the crushing air seat (21), and a booster pump (23) is provided below the crushing air seat (21) inside the first rotating ventilation shaft (22).
4. The low-temperature aging equipment for perfume-grade mosquito repellent floral water according to claim 1, characterized in that, A bidirectional output motor (36) is fixedly installed at the inner center of the crushing air seat (21). A first rotating disk (37) is connected to the upper output end of the bidirectional output motor (36). A plurality of rubbery inclined rods (39) are provided on the upper outer circular surface of the first rotating disk (37). A connecting main rod (38) is provided at the center of the end face of the first rotating disk (37). An elastic rope (40) is connected between the connecting main rod (38) and the plurality of rubbery inclined rods (39). A plurality of first rubber spherical surfaces (41) are provided on the upper end face of the elastic rope (40) and the rubbery inclined rods (39).
5. The low-temperature aging equipment for perfume-grade mosquito repellent floral water according to claim 4, characterized in that, A crushing cone wall (42) is provided above the first rotating disk (37) and inside the top of the crushing air seat (21). The crushing cone wall (42) is provided with a plurality of crushing grooves (43) on the inclined circular surface near the first rotating disk (37). Each crushing groove (43) is provided with a plurality of first crushing teeth (44). A guide cone seat (47) is provided on the bottom end face of the crushing air seat (21).
6. The low-temperature aging equipment for perfume-grade mosquito repellent floral water according to claim 1, characterized in that, Multiple rotating inner rods (52) are provided on the end face of the first connecting plate (49) between multiple first unidirectional spray nozzles (51), and a stirring fan wheel (53) is rotatably provided on the outer circular surface of each rotating inner rod (52).
7. The low-temperature aging equipment for perfume-grade mosquito repellent floral water according to claim 1, characterized in that, The stirring and aging device also includes a rotating connecting plate (27) rotatably disposed at the center of the upper part of the spherical seat (35). Multiple third connecting plates (57) are connected to the outer circular surface of the rotating connecting plate (27). A second connecting plate (54) is spring-loaded on one side of each third connecting plate (57). A first connecting plate (49) is connected to the bottom end face of each second connecting plate (54). An air chamber (28) is connected to the center of the rotating connecting plate (27). One end of multiple connecting pipes (29) is connected to the bottom end face of the air chamber (28). The other end of the connecting pipes (29) is connected to the end face of the air chamber (50).
8. The low-temperature aging equipment for perfume-grade mosquito repellent floral water according to claim 7, characterized in that, A plurality of spring tubes (58) are connected between the third connecting plate (57) and the second connecting plate (54). Each spring tube (58) is connected to a connecting spring (59). A spring frame (56) is wrapped around the outside of the spring tube (58) between the third connecting plate (57) and the second connecting plate (54). A vibrator (55) is provided on one side of the spring frame (56) on the upper surface of the second connecting plate (54).
9. The low-temperature aging equipment for perfume-grade mosquito repellent floral water according to claim 8, characterized in that, The bottom of the ventilation chamber (28) is connected to a second rotating ventilation shaft (30). Multiple stirring rods (31) are evenly arranged on the outer circular surface of the second rotating ventilation shaft (30) along the circumferential direction. A spraying seat (60) is connected to the end face of the second rotating ventilation shaft (30) away from the rotating connecting disc (27). Multiple second one-way spraying nozzles (61) are arranged on the outer circular surface of the spraying seat (60).
10. The low-temperature aging equipment for perfume-grade mosquito repellent floral water according to claim 1, characterized in that, The aging tank (10) is equipped with a refrigeration device (34) at the bottom, and a refrigeration arc plate (33) is provided below the spherical seat (35). The refrigeration arc plate (33) is connected to the output end of the refrigeration device (34).