CN219272962U - Supermolecule micro-lipid capsule cream preparation is with thermostatic dish of being convenient for settlement temperature - Google Patents

Abstract

The utility model provides a thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule cream, which relates to the technical field of cosmetics, and comprises a thermostatic dish, wherein a preparation cavity is arranged in the thermostatic dish, a sealing cover is arranged at the top of the preparation cavity, an electric heating wire is arranged on the outer wall of the thermostatic dish, a support column is fixed at the bottom of the thermostatic dish, a water inlet is fixed at the top of the thermostatic dish, a sliding rail is arranged at the other side of the top of the thermostatic dish, the sliding rail is in sliding connection with a heat dissipation plate, a push rod is fixed at the top of the heat dissipation plate, and a temperature display is arranged on the surface of the thermostatic dish.

Description

Supermolecule micro-lipid capsule cream preparation is with thermostatic dish of being convenient for settlement temperature

Technical Field

The utility model relates to the technical field of cosmetics, in particular to a thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule cream.

Background

The cream is thick and pasty, and generally contains relatively less oil, and is mainly used for mixed skin and neutral skin; the other is provided with a moisturizing component, and is suitable for dry and sensitive skin.

The supermolecule microcapsule cream is a spherical capsule ball specially designed by supermolecule microcapsule technology, and is prepared into a cream product by wrapping grease and other functional components simultaneously with an optimal wrapping carrier, the particle size of the formed microcapsule cream is 10-300nm, compared with the particle size of the traditional cream, the particle size of the formed microcapsule cream is 1-50 microns, the particle size is obviously reduced, the viscosity is obviously lower than that of the traditional cream, the face is fine and smooth, the skin feel is moist and not sticky, and the formed microcapsule cream has better skin feel compared with the traditional cream.

In the prior art, the supermolecule microcapsule cream is prepared through three steps of oil phase preparation, water phase preparation and system thickening, and the working temperature conditions of the three steps are as follows: the temperature is adjusted according to the actual preparation condition at 40-80 ℃, preferably 55-65 ℃, however, when the constant temperature is carried out through the thermostatic dish, the temperature of the thermostatic dish is inconvenient to adjust, so that the internal temperature of the thermostatic dish cannot be adjusted according to the actual preparation condition, and the temperature of the thermostatic dish exceeds the prepared temperature condition due to the too high heating speed, so that the yield of the supermolecule micro-lipid capsule cream finished product is reduced.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid vesicle cream.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides an supermolecule micro-lipid bag cream preparation is with constant temperature dish of being convenient for settlement temperature, includes the constant temperature dish, the inside preparation chamber that is equipped with of constant temperature dish, the preparation chamber top is equipped with sealed lid, the constant temperature dish outer wall is equipped with the heating wire, the constant temperature dish bottom is fixed with the support column, the constant temperature dish top is fixed with the water inlet, constant temperature dish top opposite side is equipped with the slide rail, the slide rail is the arc, and slide rail and heating panel sliding connection, the heating panel shape is the same with the slide rail shape, the fixed push rod in heating panel top, the constant temperature dish surface is equipped with temperature display.

Preferably, the bottom of the preparation cavity is rotationally connected with a stirring roller, the stirring blades are fixed on the surface array of the stirring roller, a speed reducer is connected with the bottom of the stirring roller in a key manner, and the speed reducer is driven by a rotary motor. The existing supermolecule microcapsule cream is required to be stirred and dissolved in the preparation process, but the existing thermostatic dish does not have the stirring function, and a separate stirring device is required to be used for stirring.

Preferably, the stirring roller array is provided with a plurality of stirring rollers, the bottom of each stirring roller is fixedly provided with a pinion, the surfaces of the pinions are meshed with the surfaces of the main gears, the bottom of each main gear is connected with a speed reducer in a key manner, the speed reducer is driven by a rotating motor, the stirring speed is low in the preparation process of the supermolecule microcapsule cream, and the stirring is insufficient, so that the preparation speed of the supermolecule microcapsule cream is reduced.

Preferably, the side surface of the stirring blade is provided with a scraping sleeve, and the scraping sleeve is attached to the inner wall of the preparation cavity. The stirring blade is provided with the scraping sleeve on the side surface, and the scraping sleeve is attached to the inner wall of the preparation cavity, so that the stirring blade can scrape the residual micro-lipid capsule frost on the inner wall of the preparation cavity in the stirring process, and the residual micro-lipid capsule frost is prevented from remaining on the inner wall of the preparation cavity.

Preferably, the outer wall of the preparation cavity is provided with threads, the inner wall of the sealing cover is provided with a thread groove, and the sealing cover is in threaded connection with the preparation cavity. The sealing performance of the existing preparation cavity is not high, bacteria in the air are easy to pollute the supermolecule micro-lipid capsule frost when the supermolecule micro-lipid capsule frost is prepared, and the yield is reduced.

Preferably, handles are fixed at both ends of the sealing cover, and the surface of the handles is coated with a heat-insulating coating. When the sealing cover rotates, workers are required to grasp the two ends of the sealing cover, time and labor are wasted, and the surface of the sealing cover is too high in temperature to easily scald the workers.

Preferably, the bottom of the thermostatic dish is provided with the water suction pump, the impeller is arranged in the water suction pump, the impeller is driven by the impeller driving motor, the top end of the water suction pump is provided with the water suction pipe, the other end of the water suction pipe is communicated with the bottom of the thermostatic dish, the side surface of the water suction pump is provided with the water outlet pipe, the other end of the water outlet pipe is communicated with the sewage tank, and the temperature of the existing thermostatic dish is increased by water bath heating without reducing the temperature when the temperature is controlled.

Preferably, the preparation cavity is detachably connected with the thermostatic vessel, and the supermolecule micro-lipid vesicle cream is conveniently taken out after preparation is finished in a detachable connection mode, so that the supermolecule micro-lipid vesicle cream is conveniently collected and prepared.

Advantageous effects

1. In the prior art, the supermolecule microcapsule cream is prepared through three steps of oil phase preparation, water phase preparation and system thickening, and the working temperature conditions of the three steps are as follows: the temperature of the thermostatic dish is regulated according to the actual preparation condition, however, when the thermostatic dish is used for constant temperature, the temperature of the thermostatic dish is inconvenient to regulate, so that the internal temperature of the thermostatic dish cannot be regulated according to the actual preparation condition, the temperature of the thermostatic dish exceeds the prepared temperature condition and the yield of the finished product of the supermolecule microcapsule cream is reduced due to the fact that the heating speed is too high, and aiming at the problems, the temperature of the thermostatic dish is regulated by adopting water bath heating, the temperature range of the supermolecule microcapsule cream during preparation is 40-80 ℃, strict temperature control is required, the uncontrollable property of the excessive intensity and the temperature caused by direct heating is avoided by water bath heating, the temperature can be smoothly heated, the temperature is easier to be controlled within the temperature range of the supermolecule microcapsule cream during preparation, the observation is convenient, partial hot air can be timely discharged through a heat dissipation device, the bumping phenomenon is avoided, and the yield of the finished product of the supermolecule microcapsule cream is improved.

2. The stirring speed is low and insufficient in the existing preparation process of the supermolecule microcapsule cream, so that the preparation speed of the supermolecule microcapsule cream is reduced.

3. The sealing performance of the existing preparation cavity is not high, bacteria in the air are easy to pollute the supermolecule micro-lipid capsule frost when the supermolecule micro-lipid capsule frost is prepared, and the yield is reduced.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a main gear and a pinion gear according to the present utility model;

FIG. 3 is a schematic perspective view of a stirring roller according to the present utility model;

FIG. 4 is a schematic perspective view of a seal cap according to the present utility model;

fig. 5 is a schematic perspective view of a water pump according to the present utility model.

Legend description:

1. a thermostatic dish; 2. a support column; 3. a water inlet; 4. preparing a cavity; 5. a thread; 6. a heat dissipation plate; 7. a slide rail; 8. a stirring roller; 9. stirring the leaves; 10. a handle; 11. sealing cover; 12. a thread groove; 13. a main gear; 14. a pinion gear; 15. a speed reducer; 16. a rotating electric machine; 17. a temperature display; 18. a push rod; 19. a water pump; 20. a water pumping pipe; 21. a water outlet pipe; 22. an impeller; 23. the impeller drives the motor.

Detailed Description

In order that the manner in which the above recited features, objects and advantages of the present utility model are obtained, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. Based on the examples in the embodiments, those skilled in the art can obtain other examples without making any inventive effort, which fall within the scope of the utility model.

Specific embodiments of the present utility model are described below with reference to the accompanying drawings.

Specific examples:

referring to fig. 1-5, a thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule frost comprises a thermostatic dish 1, wherein a preparation cavity 4 is arranged in the thermostatic dish 1, the preparation cavity 4 is detachably connected with the thermostatic dish 1, and the preparation cavity 4 is detachably sealed with the thermostatic dish 1, so that the supermolecule micro-lipid capsule frost is convenient to take out the preparation cavity 4 after being prepared in a detachable connection mode, and is convenient to collect and prepare the supermolecule micro-lipid capsule frost. The top of the preparation cavity 4 is provided with a sealing cover 11, the outer wall of the preparation cavity 4 is provided with threads 5, the inner wall of the sealing cover 11 is provided with a thread groove 12, the two ends of the sealing cover 11 are both fixed with handles 10, and the surface of the handles 10 is coated with a heat-insulating coating. When the sealing cover 11 rotates, workers are required to grasp the two ends of the sealing cover 11, time and labor are wasted, and the surface of the sealing cover 11 is too high in temperature to easily scald the workers. And the sealing cover 11 is in threaded connection with the preparation chamber 4. The existing preparation cavity 4 is low in tightness, bacteria in the air are easy to pollute the supermolecule micro-lipid capsule frost when the supermolecule micro-lipid capsule frost is prepared, and the yield is reduced.

The outer wall of the thermostatic dish 1 is provided with an electric heating wire, the bottom of the thermostatic dish 1 is fixedly provided with a support column 2, the top of the thermostatic dish 1 is fixedly provided with a water inlet 3, the other side of the top of the thermostatic dish 1 is provided with a sliding rail 7, the sliding rail 7 is arc-shaped, the sliding rail 7 is in sliding connection with a heat dissipation plate 6, the shape of the heat dissipation plate 6 is the same as that of the sliding rail 7, the top of the heat dissipation plate 6 is fixedly provided with a push rod 18, and the surface of the thermostatic dish 1 is provided with a temperature display 17. The water suction pump 19 is arranged at the bottom of the thermostatic dish 1, the impeller 22 is arranged in the water suction pump 19, the impeller 22 is driven by the impeller driving motor 23, the water suction pipe 20 is arranged at the top end of the water suction pump 19, the other end of the water suction pipe 20 is communicated with the bottom of the thermostatic dish 1, the water outlet pipe 21 is arranged on the side surface of the water suction pump 19, the other end of the water outlet pipe 21 is communicated with the sewage tank, and the temperature of the existing thermostatic dish 1 is increased by water bath heating without temperature reduction function when the temperature is controlled.

The bottom of the preparation cavity 4 is rotationally connected with a stirring roller 8, stirring blades 9 are fixed on the surface of the stirring roller 8 in an array manner, scraping sleeves are arranged on the side faces of the stirring blades 9, and the scraping sleeves are attached to the inner wall of the preparation cavity 4. The prior supermolecule microcapsule cream is easy to remain on the inner wall of the preparation cavity 4 to be cleaned and waste is caused when the stirring is carried out, and the scraping sleeve is arranged on the side surface of the stirring blade 9 and is attached to the inner wall of the preparation cavity 4, so that the stirring blade 9 can scrape the residual microcapsule cream on the inner wall of the preparation cavity 4 in the stirring process, and the residual microcapsule cream is prevented from remaining on the inner wall of the preparation cavity 4. And the bottom of the stirring roller 8 is connected with a speed reducer 15 in a key way, and the speed reducer 15 is driven by a rotary motor 16. The existing supermolecule microcapsule cream is required to be stirred and dissolved in the preparation process, but the existing thermostatic dish 1 does not have the stirring function, and a separate stirring device is required to be used for stirring, so that the stirring roller 8 is driven to rotate by the rotating motor 16 to fully stir raw materials, and the stirring effect while heating is achieved, so that time and labor are saved. The stirring roller 8 array is provided with a plurality of stirring rollers 8, the bottom of each stirring roller 8 is fixedly provided with a pinion 14, the surface of each pinion 14 is meshed with the surface of a main gear 13, the bottom of each main gear 13 is connected with a speed reducer 15 in a key way, the speed reducer 15 is driven by a rotating motor 16, the stirring speed is low in the preparation process of the supermolecule microcapsule cream, and the stirring is insufficient, so that the preparation speed of the supermolecule microcapsule cream is reduced.

In the prior art, the supermolecule microcapsule cream is prepared through three steps of oil phase preparation, water phase preparation and system thickening, and the working temperature conditions of the three steps are as follows: the temperature of the thermostatic dish 1 is regulated according to the actual preparation conditions, however, when the thermostatic dish 1 is used for constant temperature, the temperature of the thermostatic dish 1 is inconvenient to regulate, so that the internal temperature of the thermostatic dish 1 cannot be regulated according to the actual preparation conditions, the temperature of the thermostatic dish 1 exceeds the prepared temperature condition and the yield of the finished supermolecule microcapsule cream is reduced due to the fact that the heating speed is too fast, and aiming at the problems, the temperature of the thermostatic dish 1 is regulated by adopting water bath heating, the temperature range of the supermolecule microcapsule cream during preparation is 40-80 ℃, strict temperature control is required, the uncontrollable of excessive intensity and temperature caused by direct heating is avoided by water bath heating, the temperature can be stably heated, the temperature is easier to be controlled within the temperature range of the supermolecule microcapsule cream during preparation, the observation is convenient, part of hot air can be discharged timely through a heat radiating device, the phenomenon of bumping phenomenon is avoided, and the yield of the supermolecule microcapsule cream finished product is improved.

The working principle of the utility model is as follows: injecting water into the thermostatic dish 1 through the water inlet 3, opening the heating wire to heat the inside of the thermostatic dish 1, observing the temperature of the temperature display 17, when the temperature is too high, opening the impeller driving motor 23 to drive the impeller 22 to rotate, forming negative pressure difference in the water suction pump 19, pumping hot water in the thermostatic dish 1 out of the water suction pipe 20, discharging the hot water into a sewage tank through the water outlet pipe 21, adding cold water through the water inlet 3, achieving the cooling function, controlling the temperature in a required range, enabling a worker to grasp the handle 10, rotating the sealing cover 11, connecting the sealing cover 11 with the preparation cavity 4 in a threaded manner, simultaneously opening the rotating motor 16 to drive the main gear 13 to rotate, driving the plurality of auxiliary gears 14 to rotate, enabling the plurality of stirring rollers 8 to stir simultaneously, enabling stirring to be more sufficient, enabling the stirring blade 9 to scrape residual micro-lipid vesicle frost on the inner wall of the preparation cavity 4 in the stirring process, avoiding the micro-lipid vesicle frost to remain on the inner wall of the preparation cavity 4, sliding the cooling plate 6 through the push rod 18 after the preparation is completed, cooling the inside of the thermostatic dish 1, finally taking out the preparation cavity 4, and collecting the prepared ultra-molecular micro-lipid vesicle.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a supermolecule micro-lipid bag cream preparation is with constant temperature dish of being convenient for settlement temperature, includes thermostatic dish (1), thermostatic dish (1) inside is equipped with preparation chamber (4), preparation chamber (4) top is equipped with sealed lid (11), thermostatic dish (1) outer wall is equipped with the heating wire, thermostatic dish (1) bottom is fixed with support column (2), its characterized in that: the water inlet (3) is fixed at the top of the thermostatic dish (1), the sliding rail (7) is arranged on the other side of the top of the thermostatic dish (1), the sliding rail (7) is arc-shaped, the sliding rail (7) is in sliding connection with the cooling plate (6), the shape of the cooling plate (6) is identical to that of the sliding rail (7), the push rod (18) is fixed at the top of the cooling plate (6), and the temperature display (17) is arranged on the surface of the thermostatic dish (1).

2. The thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule cream according to claim 1, wherein the thermostatic dish is characterized in that: the stirring device is characterized in that the bottom of the preparation cavity (4) is rotationally connected with a stirring roller (8), stirring blades (9) are fixed on the surface array of the stirring roller (8), a speed reducer (15) is connected with the bottom of the stirring roller (8) in a key manner, and the speed reducer (15) is driven by a rotary motor (16).

3. The thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule cream according to claim 2, wherein the thermostatic dish is characterized in that: the stirring roller (8) array is equipped with a plurality ofly, and each stirring roller (8) bottom all is fixed with pinion (14), pinion (14) surface meshes with main gear (13) surface, main gear (13) bottom key is connected with reduction gear (15), and reduction gear (15) are through rotating electrical machines (16) drive.

4. The thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule cream according to claim 2, wherein the thermostatic dish is characterized in that: the side of the stirring blade (9) is provided with a scraping sleeve, and the scraping sleeve is attached to the inner wall of the preparation cavity (4).

5. The thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule cream according to claim 1, wherein the thermostatic dish is characterized in that: the outer wall of the preparation cavity (4) is provided with threads (5), the inner wall of the sealing cover (11) is provided with a thread groove (12), and the sealing cover (11) is in threaded connection with the preparation cavity (4).

6. The thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule cream according to claim 5, wherein the thermostatic dish is characterized in that: handles (10) are fixed at two ends of the sealing cover (11), and a heat-insulating coating is coated on the surfaces of the handles (10).

7. The thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule cream according to claim 1, wherein the thermostatic dish is characterized in that: the water pump is characterized in that a water suction pump (19) is arranged at the bottom of the thermostatic dish (1), an impeller (22) is arranged inside the water suction pump (19), the impeller (22) is driven by an impeller driving motor (23), a water suction pipe (20) is arranged at the top end of the water suction pump (19), the other end of the water suction pipe (20) is communicated with the bottom of the thermostatic dish (1), a water outlet pipe (21) is arranged on the side face of the water suction pump (19), and the other end of the water outlet pipe (21) is communicated with a sewage tank.

8. The thermostatic dish convenient for setting temperature for preparing supermolecule micro-lipid capsule cream according to claim 1, wherein the thermostatic dish is characterized in that: the preparation cavity (4) is detachably arranged with the thermostatic dish (1), and the preparation cavity (4) is detachably sealed with the thermostatic dish (1).

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