CN114887546A - Preparation device of astaxanthin-containing coated particle composition - Google Patents

Abstract

The invention relates to the field of cosmetics, in particular to a preparation device of a particle-coated composition containing astaxanthin. The technical problem is as follows: the existing astaxanthin mixed material is easy to cause skin irritation, the granulation speed of the existing astaxanthin granulation operation is too slow, and the operation mode of adding powder is not proper. The technical scheme is as follows: a preparation device of coated particle composition containing astaxanthin comprises a main pot and a granule inspection system; the front part of the main pot is connected with a particle checking system. The method abandons the traditional astaxanthin using means, and adds the astaxanthin serving as the final medium into the mixed granulating stock solution, so that the astaxanthin is kept dry and discrete during blanking, the falling amount of the astaxanthin each time is extremely small, the situations that the astaxanthin is deposited when the amount is large and is free and secondarily combined in the granulating stock solution are effectively avoided, and the granulating effect is improved; the molding condition of the astaxanthin coated particles is observed in a light transmission mode, and the checking quality is improved.

Description

Preparation device of astaxanthin-containing coated particle composition

Technical Field

The invention relates to the field of cosmetics, in particular to a preparation device of a particle-coated composition containing astaxanthin.

Background

Astaxanthin is an oil-soluble substance, has thick texture and low skin absorption efficiency, and is easy to change color when added into a water-containing material body; however, the traditional nano emulsion is often added with a synthetic surfactant as an emulsifier, which is easy to cause skin irritation; the astaxanthin is prepared into the coating particles, so that the astaxanthin can be effectively and slowly released, the skin feel is improved, and the absorption rate of the skin to the astaxanthin is improved; the development of more safe and stable astaxanthin-containing cosmetics is of great significance.

In the prior art, the astaxanthin is completely dissolved in lipid solution and then added into a granulating stock solution, but the granulating speed of the astaxanthin in the dissolved state is too slow, the astaxanthin can be used as a final medium and added into the granulating stock solution, and a small amount of astaxanthin is intermittently added to improve the particle forming rate.

In order to solve the above problems, an apparatus for producing a coated particle composition containing astaxanthin has been proposed.

Disclosure of Invention

In order to overcome the defects that the existing astaxanthin mixing material is easy to cause skin irritation, the granulation speed of the existing astaxanthin granulation operation is too low, and the operation mode of adding powder is not proper, the invention provides a preparation device of a particle-coated composition containing astaxanthin.

The technical scheme is as follows: a preparation device of a particle-coated composition containing astaxanthin comprises a base, a mounting plate, a main pot and a first power moving mechanism; the rear part of the upper surface of the base is fixedly connected with an installation plate; the front part of the upper surface of the base is fixedly connected with a main pot; the front part of the mounting plate is connected with a first power moving mechanism; the device is characterized by also comprising a mixing system, an annular funnel, a heat release blocking platform, a disperser, a blanking ring, a discrete adding system and a particle checking system; the lower side of the front part of the first power moving mechanism is connected with a mixing system which is used for mixing the solution in the main pot and forming a rotating vortex; the upper side of the front part of the first power moving mechanism is connected with a discrete adding system; the discrete adding system is provided with an annular funnel; a heat release blocking platform is fixedly connected inside the annular funnel; the upper side surface of the heat release plugging table is contacted with four dispersers which are rotationally connected to the discrete adding system by taking the central line of the annular funnel as a rotating shaft; the bottoms of the four dispersers are fixedly connected with blanking rings, and the blanking rings are contacted with the heat release blocking table; the astaxanthin falls on the heat release blocking platform under the action of the discrete adding system and is thermally dried, and the astaxanthin is intermittently blanked through the heat release blocking platform after being dispersed by the four dispersing devices; the front part of the main pot is connected with a particle checking system for quickly checking the state of the wrapped particles.

As an improvement of the scheme, the heat-releasing blocking platform is a circular truncated cone, and eight blanking ports are formed in the circumferential direction of the bottom of the heat-releasing blocking platform.

As an improvement of the scheme, eight blanking ports are formed in the blanking ring.

As an improvement of the scheme, the hybrid system comprises a power transmission mechanism, a connecting shaft and a vortex agitator; the lower side of the front part of the first power moving mechanism is connected with a power transmission system; the power transmission mechanism is connected with a connecting shaft; the bottom of the connecting shaft is fixedly connected with a vortex agitator.

As an improvement of the scheme, the vortex oscillator consists of a main rod and four twisted line-shaped arc bending plates which are uniformly distributed in the circumferential direction.

As the improvement of the proposal, the power transmission mechanism comprises a carrying plate, an annular track, a first toothed ring, a first servo motor and a first flat gear; two carrying plates are fixedly connected to the lower side of the front part of the first power moving mechanism; the front parts of the two lapping plates are fixedly connected with an annular track; a first gear ring is connected in the annular track in a sliding manner; a connecting shaft is fixedly connected inside the first gear ring; a first servo motor is fixedly connected to the rear part of the upper surface of the annular track; a first flat gear is fixedly connected with an output shaft of the first servo motor; the first pinion is engaged with the first ring gear.

As an improvement of the scheme, the discrete adding system comprises a strip-shaped fixing frame, a fixed annular frame, a connecting frame, a second toothed ring, a monitor, a cover plate, an air duct, a fan, a second servo motor and a second flat gear; the upper side of the front part of the first power moving mechanism is fixedly connected with a strip-shaped fixing frame; the front part of the strip-shaped fixing frame is fixedly connected with a fixing annular frame; the outer surface of the fixed annular frame is fixedly connected with four connecting frames which are uniformly distributed in the circumferential direction; the four connecting frames are fixedly connected with the annular funnel; a second toothed ring is rotatably connected between the fixed annular frame and the annular funnel; the inner part of the second gear ring is fixedly connected with four dispersers; two monitors are fixedly connected to the lower side of the outer surface of the annular funnel; the upper surface of the fixed ring-shaped frame is fixedly connected with a cover plate; a feed opening is formed on the cover plate; the upper surface of the cover plate is fixedly connected with two symmetrical air ducts; a fan is fixedly connected inside each of the two air ducts; a second servo motor is fixedly connected to the right part of the outer surface of the fixed annular frame; a second flat gear is fixedly connected with an output shaft of the second servo motor; the second flat gear is meshed with the second gear ring.

As an improvement of the scheme, the discrete adding system also comprises a blanking funnel, a limiter, a bearing box and a sealing plate; a blanking funnel is fixedly connected to the middle part of the upper surface of the cover plate; a limiter is fixedly connected inside the blanking funnel; the upper part of the discharging funnel is fixedly connected with a bearing box; the upper part of the bearing box is rotatably connected with two sealing plates.

As an improvement of the scheme, the particle checking system comprises a material guide pipe, a first electromagnetic valve, a second electromagnetic valve, a support frame, a transparent pipe, a flow guide pipe, a third servo motor, a stirring rod, a lamp strip and a curtain plate; a material guide pipe is communicated with the lower side of the front part of the main boiler; the left part of the material guide pipe is fixedly connected with a first electromagnetic valve; a second electromagnetic valve is fixedly connected to the right part of the material guide pipe; the front part of the upper surface of the base is fixedly connected with a support frame; the supporting frame is fixedly connected with a transparent tube; the second electromagnetic valve is communicated with the transparent tube; the right side of the bottom of the transparent tube is communicated with a guide tube; the rear part of the transparent tube is fixedly connected with a third servo motor; the output shaft of the third servo motor is fixedly connected with a stirring rod; the rear part of the transparent tube is fixedly connected with a lamp strip; the rear side of the inner wall of the transparent tube is adhered with a curtain plate.

As an improvement of the scheme, the system also comprises an auxiliary cooling system; the lower side of the front part of the mounting plate is connected with an auxiliary cooling system for accelerating the cooling of the mixed material; the auxiliary cooling system comprises a second power moving mechanism, a connecting plate, an annular fixing frame, a condensing pipe, a water valve connector and a screwing column; the lower side of the front part of the mounting plate is connected with a second power moving mechanism; two connecting plates are fixedly connected to the second power moving mechanism; the opposite sides of the two connecting plates are fixedly connected with an annular fixing frame respectively; each annular fixing frame is fixedly connected with a condensing pipe; the rear ports of the two condensation pipes are respectively communicated with a water valve connector; the front ports of the two condensation pipes are respectively communicated with a rotary connecting column.

The invention has the following advantages: the method abandons the traditional astaxanthin using means, and adds the astaxanthin serving as the final medium into the mixed granulating stock solution, so that the astaxanthin is kept dry and discrete during blanking, the falling amount of the astaxanthin each time is extremely small, the situations that the astaxanthin is deposited when the amount is large and is free and secondarily combined in the granulating stock solution are effectively avoided, and the granulating effect is improved; the molding condition of the astaxanthin coated particles is observed in a light transmission mode, and the checking quality is improved.

Drawings

FIG. 1 is a schematic perspective view of a first apparatus for preparing an astaxanthin-containing coated particle composition according to the present invention;

FIG. 2 is a schematic diagram showing a second perspective structure of an apparatus for preparing an astaxanthin-containing coated particle composition according to the present invention;

FIG. 3 is a schematic view showing a first partial structure of an apparatus for preparing an astaxanthin-containing coated particle composition according to the present invention;

FIG. 4 is a schematic view showing a second partial structure of an apparatus for preparing an astaxanthin-containing coated particle composition according to the present invention;

FIG. 5 is a schematic perspective view of the vortex shaker of the present invention;

FIG. 6 is a schematic perspective view of a discrete addition system of the present invention;

FIG. 7 is a partial structural cross-sectional view of the discrete addition system of the present invention;

FIG. 8 is an exploded view of a portion of the discrete addition system of the present invention;

FIG. 9 is a schematic view showing a third partial structure of an apparatus for preparing an astaxanthin-containing coated particle composition according to the present invention;

FIG. 10 is a partial cross-sectional structural view of the particle inspection system of the present invention;

fig. 11 is a schematic perspective view of the auxiliary cooling system of the present invention.

Number designation in the figures: 1-base, 2-mounting plate, 3-main pan, 4-first guide rail, 5-first electric control mover, 6-second guide rail, 7-second electric control mover, 101-landing plate, 102-circular track, 103-first gear ring, 104-connecting shaft, 105-vortex agitator, 106-first servo motor, 107-first flat gear, 201-strip type fixing frame, 202-fixing circular frame, 203-connecting frame, 204-second gear ring, 205-circular funnel, 206-monitor, 207-heat release blocking table, 208-disperser, 209-blanking ring, 2010-cover plate, 2011-air duct, 2012-fan, 2013-blanking funnel, 2014-limiter, 2015-carrying box, 2016-sealing plate, 2017-second servo motor, 2018-second flat gear, 301-guide pipe, 302-first electromagnetic valve, 303-second electromagnetic valve, 304-support frame, 305-transparent pipe, 306-guide pipe, 307-third servo motor, 308-stirring rod, 309-lamp strip, 3010-curtain plate, 401-connecting plate, 402-annular fixing frame, 403-condenser pipe, 404-water valve connector and 405-rotary connecting column.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

An apparatus for preparing a coated particle composition containing astaxanthin, as shown in fig. 1-11, comprises a base 1, a mounting plate 2, a main pan 3 and a first power moving mechanism; the rear part of the upper surface of the base 1 is welded with a mounting plate 2; the front part of the upper surface of the base 1 is connected with a main pot 3 through bolts; the front part of the mounting plate 2 is connected with a first power moving mechanism;

the device is characterized by also comprising a mixing system, an annular funnel 205, a heat release blocking platform 207, a discretizer 208, a blanking ring 209, a discrete adding system and a particle checking system; the lower side of the front part of the first power moving mechanism is connected with a hybrid system; the upper side of the front part of the first power moving mechanism is connected with a discrete adding system; the discrete addition system is provided with a ring-shaped funnel 205; a heat release blocking platform 207 is fixedly connected inside the ring-shaped funnel 205; the upper side surface of the heat release plugging platform 207 is contacted with four dispersers 208, and the four dispersers 208 are rotationally connected to a discrete adding system by taking the central line of the ring-shaped funnel 205 as a rotating shaft; the bottom parts of the four dispersers 208 are fixedly connected with blanking rings 209, and the blanking rings 209 are contacted with the heat release blocking platform 207; the astaxanthin falls on the heat release blocking platform 207 under the action of the discrete adding system and is thermally dried, and meanwhile, the astaxanthin is intermittently blanked through the heat release blocking platform 207 after being dispersed by the four dispersers 208; the front part of the main pot 3 is connected with a particle checking system.

The heat release blocking platform 207 is a circular truncated cone, and eight blanking ports are formed in the circumferential direction of the bottom of the heat release blocking platform.

Eight blanking ports are arranged on the blanking ring 209.

The hybrid system comprises a power transmission mechanism, a connecting shaft 104 and a vortex agitator 105; the lower side of the front part of the first power moving mechanism is connected with a power transmission system; the power transmission mechanism is connected with a connecting shaft 104; the bottom of the connecting shaft 104 is fixedly connected with a vortex agitator 105.

The vortex oscillator 105 is composed of a main rod and four twisted arc plates uniformly distributed in the circumferential direction.

The power transmission mechanism comprises a carrying plate 101, an annular track 102, a first toothed ring 103, a first servo motor 106 and a first flat gear 107; the lower side of the front part of the first power moving mechanism is connected with two carrying plates 101 through bolts; the front parts of the two carrying plates 101 are connected with an annular track 102 through bolts; a first toothed ring 103 is connected in the annular track 102 in a sliding manner; a connecting shaft 104 is fixedly connected inside the first gear ring 103; a first servo motor 106 is fixedly connected to the rear part of the upper surface of the annular track 102; a first flat gear 107 is fixedly connected with an output shaft of the first servo motor 106; the first pinion 107 meshes with the first ring gear 103.

The discrete adding system comprises a strip-shaped fixing frame 201, a fixed ring-shaped frame 202, a connecting frame 203, a second gear ring 204, a monitor 206, a cover plate 2010, an air duct 2011, a fan 2012, a second servo motor 2017 and a second flat gear 2018; the upper side of the front part of the first power moving mechanism is connected with a strip-shaped fixed frame 201 through bolts; the front part of the strip-shaped fixing frame 201 is fixedly connected with a fixing ring-shaped frame 202; the outer surface of the fixed annular frame 202 is in bolted connection with four connecting frames 203 which are uniformly distributed in the circumferential direction; the four connecting frames 203 are all fixedly connected with the annular funnel 205; a second gear ring 204 is rotatably connected between the fixed ring-shaped frame 202 and the ring-shaped funnel 205; four dispersers 208 are fixedly connected inside the second gear ring 204; two monitors 206 are fixedly connected to the lower side of the outer surface of the ring-shaped funnel 205; a cover plate 2010 is fixedly connected to the upper surface of the fixed ring frame 202; a feed opening is formed in the cover plate 2010; the upper surface of the cover plate 2010 is in bolted connection with two symmetrical air ducts 2011; a fan 2012 is fixedly connected inside each of the two air ducts 2011; a second servo motor 2017 is fixedly connected to the right part of the outer surface of the fixed annular frame 202; a second flat gear 2018 is fixedly connected with an output shaft of the second servo motor 2017; the second spur gear 2018 is meshed with the second ring gear 204.

The discrete adding system also comprises a blanking funnel 2013, a limiter 2014, a carrying box 2015 and a sealing plate 2016; a blanking funnel 2013 is connected to the middle of the upper surface of the cover plate 2010 through a bolt; a limiter 2014 is fixedly connected inside the blanking funnel 2013; the upper part of the blanking funnel 2013 is welded with a bearing box 2015; two sealing plates 2016 are rotatably attached to the top of the carrying case 2015.

The upper parts of the two air ducts 2011 are respectively fixedly connected with a detachable dustproof net.

The upper part of the limiting device 2014 is spherical and is used for reducing the residual astaxanthin.

The first power moving mechanism comprises a first guide rail 4 and a first electric control mover 5; two first guide rails 4 are fixedly connected to the front part of the mounting plate 2; a first electric control mover 5 is connected on the two first guide rails 4 in a sliding way; the upper side of the front part of the first electric control mover 5 is connected with a strip-shaped fixing frame 201 through bolts; two mounting plates 101 are bolted to the lower front side of the first electrically controlled mover 5.

Before a preparation device of the astaxanthin-containing coated particle composition is used, the whole main pot 3 is strictly disinfected and cleaned and is completely dried, then a granulating raw material is added into the main pot 3, water, aminomethyl propanol and other materials are mixed in the main pot 3, and the temperature in the main pot 3 is controlled so that the granulating raw material liquid is completely crosslinked; then the first electric control shifter 5 is controlled to move downwards on the two first guide rails 4, the first electric control shifter 5 drives the relevant parts on the first electric control shifter 5 to move downwards together, wherein the vortex oscillator 105 moving along with the first electric control shifter enters the main pot 3, then the first servo motor 106 is controlled to operate, the output shaft of the first servo motor 106 drives the first flat gear 107 to rotate, the first flat gear 107 drives the first toothed ring 103, the first toothed ring 103 rotates in the annular track 102, the first toothed ring 103 drives the connecting shaft 104 to rotate, the rotation center of the connecting shaft 104 is in the same straight line with the central line of the main pot 3, therefore, the connecting shaft 104 drives the vortex oscillator 105 to stir the granulating raw liquid of the main pot 3, four twisted arc plates on the vortex oscillator 105, therefore, at a fixed rotation speed, the upper part of the granulating raw liquid of the main pot 3 is stirred to form a vortex, and the liquid level is monitored by the two monitors 206, the formation of the vortex is beneficial to the secondary addition of the stock solution, and the granulating effect is improved when the directionally flowing granulating stock solution is contacted with the astaxanthin subsequently.

When a vortex is formed in the main pot 3, a certain amount of astaxanthin can be added into the granulating stock solution, before the addition operation, a worker calculates and weighs the amount of astaxanthin, then two sealing plates 2016 are opened, the astaxanthin is poured into the bearing box 2015, falls into the spaces of the ring-shaped funnel 205 and the heat-releasing blocking table 207 in an annular waterfall-shaped mode under the matching of the discharging funnel 2013 and the limiting device 2014, and because the heater is arranged at the bottom of the heat-releasing blocking table 207, the whole space at the upper part of the heat-releasing blocking table 207 is kept at the proper temperature, the astaxanthin is dried at the temperature, after a period of drying, the second servo motor 2017 is controlled to run, the output shaft of the second servo motor 2017 drives the second flat gear 2018 to rotate, the second flat gear 2018 drives the second toothed ring 204, and the second toothed ring 204 starts to rotate between the fixed ring-shaped frame 202 and the ring-shaped funnel 205, the second toothed ring 204 drives the four dispersers 208 to rotate, the four dispersers 208 rotate circumferentially with the central line of the ring-shaped funnel 205 as the rotation center, so that the four dispersers 208 continuously push the astaxanthin to the annular inclined plane of the heat release blocking platform 207 to achieve the effect of dispersing the astaxanthin, meanwhile, the four dispersers 208 drive a blanking ring 209 to rotate together, whenever a gap exists between a blanking port on the rotating blanking ring 209 and a blanking port at the bottom of the heat release blocking platform 207, the astaxanthin falls from the space between the two blanking ports, and is conveyed into the granulating stock solution in the main pot 3 by the ring-shaped funnel 205; during the process, the fixed annular frame 202, the second toothed ring 204 and the annular funnel 205 form a drying chamber, and due to the fact that the content of water molecules in the drying chamber is high in the drying process of the astaxanthin, intermittent operation of the fans 2012 in the two air guide pipes 2011 is intermittently controlled, the two fans 2012 pump air in the drying chamber formed by the fixed annular frame 202, the second toothed ring 204 and the annular funnel 205, the whole discreteness of the astaxanthin is improved, and the astaxanthin is prevented from being bonded; astaxanthin keeps dry and discrete when the unloading, and the volume that astaxanthin fell down every time is very little simultaneously, has avoided the astaxanthin to appear depositing and the condition of dissociating in the granulation stoste and combining again when the volume is many effectively, has improved the pelletization effect.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 3 and 9-11, the particle inspection system comprises a material guiding pipe 301, a first electromagnetic valve 302, a second electromagnetic valve 303, a supporting frame 304, a transparent pipe 305, a flow guiding pipe 306, a third servo motor 307, a stirring rod 308, a light strip 309 and a curtain plate 3010; a material guide pipe 301 is communicated with the lower side of the front part of the main boiler 3; a first electromagnetic valve 302 is fixedly connected to the left part of the material guide pipe 301; a second electromagnetic valve 303 is fixedly connected to the right part of the material guide pipe 301; a support frame 304 is welded at the front part of the upper surface of the base 1; a transparent tube 305 is fixedly connected to the support frame 304; the second electromagnetic valve 303 is communicated with a transparent tube 305; the right side of the bottom of the transparent tube 305 is communicated with a guide tube 306; a third servo motor 307 is fixedly connected to the rear part of the transparent tube 305; the output shaft of the third servo motor 307 is fixedly connected with a stirring rod 308; a lamp strip 309 is fixedly connected to the rear part of the transparent tube 305; the rear side of the inner wall of the transparent tube 305 is covered with a curtain plate 3010.

Also comprises an auxiliary cooling system; an auxiliary cooling system for accelerating the cooling of the mixed materials is connected to the lower side of the front part of the mounting plate 2; the auxiliary cooling system comprises a second power moving mechanism, a connecting plate 401, an annular fixing frame 402, a condensing pipe 403, a water valve connector 404 and a screwing column 405; the lower side of the front part of the mounting plate 2 is connected with a second power moving mechanism; two connecting plates 401 are fixedly connected to the second power moving mechanism; the opposite sides of the two connecting plates 401 are respectively connected with an annular fixing frame 402 through bolts; each annular fixing frame 402 is fixedly connected with a condensing pipe 403; the rear ports of the two condensation pipes 403 are respectively communicated with a water valve connector 404; the front ports of the two condensation pipes 403 are respectively communicated with a screwed column 405.

The second power moving mechanism comprises a second guide rail 6 and a second electric control mover 7; two second guide rails 6 are fixedly connected to the lower side of the front part of the mounting plate 2, and the two second guide rails 6 are positioned behind the first guide rail 4; two second electric control movers 7 are connected on the two second guide rails 6 in a sliding way; each second electrically-controlled mover 7 is fixedly connected with a connecting plate 401.

After the astaxanthin is completely added, the vortex oscillator 105 is continuously controlled to rotate for a period of time, and the rotating time is determined by the amount of the granulating stock solution; then the first electric control mover 5 is controlled to move upwards on the two first guide rails 4, the first electric control mover 5 drives the relevant parts thereon to return together, then the two second electric control movers 7 are controlled to move towards each other on the two second guide rails 6, each second electric control mover 7 drives a connecting plate 401 to move, the connecting plate 401 drives the relevant parts thereon to move, the two condensation pipes 403 which follow the movement respectively contact with the two sides of the main pan 3, then the two rotary connecting columns 405 are manually connected together, then the two water valve connectors 404 are used as a water inlet end and a water outlet end, so that a flowing liquid channel is formed in the two condensation pipes 403, the flowing liquid quickly cools the raw materials in the main pan 3, when the temperature in the main pan 3 is between 40 and 50 degrees, the second electromagnetic valve 303 is controlled to be opened, then a small amount of the material liquid and free wrapping particles enter the transparent pipe 305, the interior of the transparent tube 305 is in a full state, then the second electromagnetic valve 303 is closed, the third servo motor 307 is controlled to operate, the output shaft of the third servo motor 307 drives the stirring rod 308 to rotate, the stirring rod 308 stirs the mixture of the transparent tube 305, then the third servo motor 307 is immediately stopped to operate, the light strip 309 is opened, and the rear half part of the transparent tube 305 is shielded by the curtain plate 3010, so that the mixed material of the transparent tube 305 is irradiated by the light strip 309, a worker can accurately observe the forming condition of astaxanthin-containing coated particles, and when the granulation quality is qualified, the first electromagnetic valve 302 is controlled to be opened, and the material is integrally led out to complete the preparation.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. A preparation device of a particle-coated composition containing astaxanthin comprises a base (1), a mounting plate (2), a main pot (3) and a first power moving mechanism; the rear part of the upper surface of the base (1) is fixedly connected with a mounting plate (2); the front part of the upper surface of the base (1) is fixedly connected with a main pot (3); the front part of the mounting plate (2) is connected with a first power moving mechanism;

the device is characterized by also comprising a mixing system, an annular funnel (205), a heat release blocking table (207), a discretizer (208), a blanking ring (209), a discrete adding system and a particle checking system; the lower side of the front part of the first power moving mechanism is connected with a mixing system which is used for mixing the solution in the main pot (3) and forming a rotating vortex; the upper side of the front part of the first power moving mechanism is connected with a discrete adding system; the discrete adding system is provided with a ring-shaped funnel (205); a heat release blocking platform (207) is fixedly connected inside the annular funnel (205); the upper side surface of the heat release plugging platform (207) is contacted with four dispersers (208), and the four dispersers (208) are rotationally connected to a discrete adding system by taking the central line of the ring-shaped funnel (205) as a rotating shaft; the bottom parts of the four dispersers (208) are fixedly connected with blanking rings (209), and the blanking rings (209) are contacted with the heat release blocking table (207); the astaxanthin falls on a heat release blocking platform (207) under the action of a discrete adding system and is thermally dried, and meanwhile, the astaxanthin is dispersed by four dispersers (208) and then intermittently blanked by the heat release blocking platform (207); the front part of the main pot (3) is connected with a particle checking system for quickly checking the state of the wrapped particles.

2. The apparatus for producing a coated particle composition containing astaxanthin according to claim 1, wherein the exothermic blocking table (207) is a circular table and eight blanking ports are formed in the circumferential direction of the bottom.

3. The apparatus for preparing a coated particle composition containing astaxanthin according to claim 2, wherein the discharge ring (209) has eight discharge openings.

4. The apparatus for preparing a coated particle composition containing astaxanthin according to claim 3, wherein the mixing system comprises a power transmission mechanism, a connecting shaft (104) and a vortex agitator (105); the lower side of the front part of the first power moving mechanism is connected with a power transmission system; the power transmission mechanism is connected with a connecting shaft (104); the bottom of the connecting shaft (104) is fixedly connected with a vortex agitator (105).

5. The apparatus for preparing a particle-coated composition containing astaxanthin according to claim 4, wherein the vortex oscillator (105) comprises a main shaft and four twisted arc plates arranged uniformly in a circumferential direction.

6. The apparatus for preparing a particle-coated composition containing astaxanthin according to claim 5, wherein the power transmission means comprises a carrying plate (101), an endless track (102), a first ring gear (103), a first servo motor (106) and a first flat gear (107); two carrying plates (101) are fixedly connected to the lower side of the front part of the first power moving mechanism; the front parts of the two carrying plates (101) are fixedly connected with an annular track (102); a first gear ring (103) is connected in the annular track (102) in a sliding way; a connecting shaft (104) is fixedly connected inside the first gear ring (103); a first servo motor (106) is fixedly connected to the rear part of the upper surface of the annular track (102); a first flat gear (107) is fixedly connected with an output shaft of the first servo motor (106); the first pinion (107) meshes with the first ring gear (103).

7. The device for preparing the astaxanthin-containing coated particle composition according to claim 6, wherein the discrete adding system comprises a strip-shaped fixing frame (201), a fixed ring-shaped frame (202), a connecting frame (203), a second toothed ring (204), a monitor (206), a cover plate (2010), an air duct (2011), a fan (2012), a second servo motor (2017) and a second flat gear (2018); a strip-shaped fixed frame (201) is fixedly connected to the upper side of the front part of the first power moving mechanism; the front part of the strip-shaped fixing frame (201) is fixedly connected with a fixing annular frame (202); the outer surface of the fixed annular frame (202) is fixedly connected with four connecting frames (203) which are uniformly distributed in the circumferential direction; the four connecting frames (203) are fixedly connected with the annular funnel (205); a second toothed ring (204) is rotatably connected between the fixed annular frame (202) and the annular funnel (205); four dispersers (208) are fixedly connected inside the second gear ring (204); two monitors (206) are fixedly connected to the lower side of the outer surface of the ring-shaped funnel (205); a cover plate (2010) is fixedly connected to the upper surface of the fixed ring frame (202); a feed opening is formed in the cover plate (2010); the upper surface of the cover plate (2010) is fixedly connected with two symmetrical air ducts (2011); a fan (2012) is fixedly connected inside each of the two air ducts (2011); a second servo motor (2017) is fixedly connected to the right part of the outer surface of the fixed annular frame (202); a second flat gear (2018) is fixedly connected with an output shaft of the second servo motor (2017); the second spur gear (2018) is meshed with the second ring gear (204).

8. The apparatus for preparing astaxanthin-containing coated particle composition as claimed in claim 7, wherein the discrete adding system further comprises a discharging funnel (2013), a stopper (2014), a carrying box (2015) and a sealing plate (2016); a blanking funnel (2013) is fixedly connected to the middle of the upper surface of the cover plate (2010); a limiter (2014) is fixedly connected inside the blanking funnel (2013); a bearing box (2015) is fixedly connected to the upper part of the blanking funnel (2013); two sealing plates (2016) are rotatably connected to the upper part of the carrying box (2015).

9. The apparatus according to claim 8, wherein the particle inspection system comprises a material guiding tube (301), a first solenoid valve (302), a second solenoid valve (303), a supporting frame (304), a transparent tube (305), a fluid guiding tube (306), a third servo motor (307), a stirring rod (308), a light strip (309), and a curtain plate (3010); a material guide pipe (301) is communicated with the lower side of the front part of the main pot (3); a first electromagnetic valve (302) is fixedly connected to the left part of the material guide pipe (301); a second electromagnetic valve (303) is fixedly connected to the right part of the material guide pipe (301); a support frame (304) is fixedly connected to the front part of the upper surface of the base (1); a transparent tube (305) is fixedly connected to the support frame (304); the second electromagnetic valve (303) is communicated with the transparent pipe (305); the right side of the bottom of the transparent tube (305) is communicated with a guide tube (306); a third servo motor (307) is fixedly connected to the rear part of the transparent tube (305); the output shaft of the third servo motor (307) is fixedly connected with a stirring rod (308); a lamp strip (309) is fixedly connected to the rear part of the transparent tube (305); the rear side of the inner wall of the transparent tube (305) is pasted with a curtain plate (3010).

10. The apparatus for preparing a coated particle composition comprising astaxanthin according to any one of claims 1 to 9, further comprising an auxiliary cooling system; the lower side of the front part of the mounting plate (2) is connected with an auxiliary cooling system for accelerating the cooling of the mixed material; the auxiliary cooling system comprises a second power moving mechanism, a connecting plate (401), an annular fixing frame (402), a condensing pipe (403), a water valve connector (404) and a rotary connecting column (405); the lower side of the front part of the mounting plate (2) is connected with a second power moving mechanism; two connecting plates (401) are fixedly connected to the second power moving mechanism; two annular fixing frames (402) are fixedly connected to the opposite sides of the two connecting plates (401) respectively; each annular fixing frame (402) is fixedly connected with a condensation pipe (403); the rear ports of the two condensation pipes (403) are respectively communicated with a water valve connector (404); the front ports of the two condensation pipes (403) are respectively communicated with a screwed column (405).

Images