CN115413744A

CN115413744A - Nourishing beverage and preparation method thereof

Info

Publication number: CN115413744A
Application number: CN202211072475.2A
Authority: CN
Inventors: 杨涌; 杨朔; 王敏; 张建国
Original assignee: Zhonghe Huitong Information Technology Co ltd
Current assignee: Zhonghe Huitong Information Technology Co ltd
Priority date: 2022-09-02
Filing date: 2022-09-02
Publication date: 2022-12-02

Abstract

The invention discloses a preparation method of a nourishing beverage, which is a nourishing beverage, and the nourishing beverage comprises the following components: 6-20 parts of red beans, 5-20 parts of black beans, 6-10 parts of mung beans, 6-15 parts of Chinese yams, 5-15 parts of barbary wolfberry fruits, 5-10 parts of hawthorn fruits, 6-10 parts of dried red dates, 5-10 parts of figs, 5-10 parts of sorghum rice, 3-10 parts of water chestnuts, 6-15 parts of chestnut kernels and the balance of water.

Description

Nourishing beverage and preparation method thereof

Technical Field

The invention relates to the technical field of beverages, in particular to a nourishing beverage and a preparation method thereof.

Background

The drink is liquid which is processed and prepared and is suitable for being drunk by people or livestock, in particular to liquid for quenching thirst, providing nutrition or refreshing, and in popular terms, the drink is food which can meet the normal needs of human body functions and can be drunk directly or be drunk in a dissolving, diluting and other ways, and the nourishing drink is prepared by adding a large amount of raw materials rich in nutrition in the preparation process of the drink;

however, in the process of preparing the nourishing beverage through the traditional equipment, the raw materials cannot be fully stirred by the cooking equipment in the cooking process of the beverage, and the nourishing beverage is thick in texture, so that the beverage in the cooking process is easy to adhere to the inner wall of the decocting equipment, the raw materials adsorbed on the inner wall of the decocting equipment are coked along with the continuous operation of the cooking equipment, dirt which is difficult to clean is formed on the inner wall of the decocting equipment, and meanwhile, the smell generated by coking of the raw materials can be doped into the beverage, so that the integral taste of the beverage is reduced.

Disclosure of Invention

The invention provides a nourishing beverage and a preparation method thereof, which can effectively solve the problems that in the process of preparing the nourishing beverage by traditional equipment, the raw materials cannot be fully stirred by cooking equipment in the cooking process of the beverage, and the nourishing beverage is thick in texture, so that the beverage in the cooking process is easy to adhere to the inner wall of the cooking equipment, the raw materials adsorbed to the inner wall of the cooking equipment are coked along with the continuous operation of the cooking equipment, dirt which is difficult to clean is formed on the inner wall of the cooking equipment, and meanwhile, the smell generated by the coking of the raw materials is also mixed into the beverage, so that the integral taste of the beverage is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: a preparation method of a nourishing beverage comprises the following steps:

s1, cleaning and baking: cleaning raw materials required to be used in the production process of the beverage, drying the cleaned raw materials after the cleaning of the raw materials is finished, and baking part of the raw materials required to be specially processed;

s2, counterweight transportation: weighing and matching the raw materials according to the formula and the effect of the beverage, transporting and storing the matched raw materials into a deep feeding box, transporting a raw material mixture in the deep feeding box into a shallow storage box through a horizontal conveying pipe and a conveying dragon, and transporting the fine pericarp separated from the outer side of the raw materials through air flow in the raw material transportation process;

s3, circulating cooking: adding the treated raw materials and a proper amount of water into a rolling heating barrel positioned at the top of a bottom bracket through a material guide bent pipe, driving the rolling heating barrel to roll at a constant speed through a driving roller, and cooking all the raw materials in the rolling process of the rolling heating barrel;

s4, cooling and filtering: guiding the beverage which is cooked in the rolling heating barrel and cooled to the proper temperature into the separation tank through the sealing valve, intercepting solid components in the decoction pieces through the flexible conical net in the process that the beverage flows through the separation tank, and temporarily storing the filtered beverage through the circulating barrel;

s5, transferring and filling: the beverage that will cool off the completion is held in the suitable transportation bucket to on transporting the beverage to the filling line through transporting the bucket, independently fill sealed through the filling line, and then accomplish the production of beverage.

A nourishing beverage, which consists of the following components:

6-20 parts of red beans, 5-20 parts of black beans, 6-10 parts of mung beans, 6-15 parts of Chinese yams, 5-15 parts of barbary wolfberry fruits, 5-10 parts of hawthorn fruits, 6-10 parts of dried red dates, 5-10 parts of figs, 5-10 parts of sorghum rice, 3-10 parts of water chestnuts, 6-15 parts of chestnut kernels and the balance of water.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the rolling type refining cooking mechanism is arranged, the cooking process of nourishing beverage raw materials and the refining process of various solid raw materials are optimized through mutual matching of various components in the rolling type refining cooking mechanism, the beverage can be stirred through the integral rotation of the rolling heating barrel and the extrusion arc-shaped block in the cooking process through the integral rolling type design of the rolling heating barrel, and the rolling heating barrel is in a rotating state all the time in the cooking process of the beverage, so that a fixed liquid-gas boundary line cannot exist on the inner wall of the rolling heating barrel, dirt which is difficult to clean after the raw materials adsorbed to the inner wall of the rolling heating barrel are coked is effectively avoided, the cleaning convenience of beverage processing equipment is effectively improved, the burnt smell is effectively avoided from being mixed in the beverage processing process, and the integral flavor of the beverage is improved;

can further reduce the remaining of roll heating bucket inner wall raw materials through the wiping of elasticity gluey stick and flexible scraper blade, the raw materials of big granule is intercepted through intercepting the fine net simultaneously, and extrude through the collision between extrusion arc piece and the extrusion ellipse piece and refine, the effectual mixed degree that improves each raw materials of drink inside, simultaneously according to the sound of extrusion arc piece and extrusion ellipse piece direct collision and the difference of sound when being mingled with solid raw materials and colliding between extrusion arc piece and the extrusion ellipse piece, can effectively judge the process degree of the inside drink of roll heating bucket, and then the effectual use convenience that improves the roll heating bucket.

2. The circulation separation processing mechanism is arranged, through the mutual matching of all components in the circulation separation processing mechanism, the filtration and cooling process of the drink is optimized, the residues are filtered and collected through the flexible cone net capable of deforming freely, the change of the form of the flexible cone net is realized by adjusting the rotating speed of the separation motor according to the requirements of different filtration stages of the drink, the flexible cone net is kept in an inverted cone shape at the initial stage of filtration, so that the flexible cone net can effectively collect the residues, liquid components are prevented from being thrown out of a rotating drum in the rotation process of the flexible cone net, when no new impurities are introduced in the middle stage of filtration and the impurities need to be thrown, the flexible cone net is changed into a flat lantern shape to dry the impurities, and the flexible cone net can be changed into a positive cone shape in the deslagging process, so that the impurities outside the flexible cone net are quickly separated, and the convenience of drink filtration is effectively improved;

carry out the circulation that lasts to the drink when filterable, the effectual cooling effect that improves the drink adds corresponding additive to the drink at the in-process that the drink circulates simultaneously to make the additive carry out effectual mixing at the in-process that the drink circulates, and then compressed the manufacturing procedure of drink, improved the production efficiency of drink.

3. The air flow circulation cleaning mechanism is arranged, the air flow circulation process in the beverage production process is optimized through the mutual matching of all components in the air flow circulation cleaning mechanism, the gap time period of the previous beverage processing completion and the preparation of the next beverage material is utilized, the air flow is subjected to double auxiliary circulation through the circulation fan and the discharge fan, then the impurities among the solid raw materials of the beverage are circularly cleaned in the air flow circulation process, the peel components which are not easy to cook in the raw materials are effectively removed, and the purity of the beverage is effectively improved;

simultaneously also can carry out abundant mixture to the raw materials at the transportation in-process of raw materials to make the drink cook the more quick that in-process raw materials mixes, and the cooling of drink is accelerated to the in-process accessible heat transfer case that the air current circulates, thereby the radiating efficiency of effectual improvement drink, simultaneously effectual utilized the intermittent type time in the drink production process, improved the production efficiency of drink.

In conclusion, the production process of nourishing type drinks is optimized through mutual matching of all components in the rolling type refining cooking mechanism, the circulating separation processing mechanism and the airflow circulating cleaning mechanism, the drinks are in a relatively sealed environment in the process from the time that raw materials of the drinks are added into the rolling heating barrel to the time that the raw materials are discharged from the bottom of the circulating barrel after being processed, new impurities are effectively prevented from being introduced into the drinks in the process of filtering and cooling, the cleanliness of the drinks is effectively improved, and the safety of the drink production process is effectively improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a flow chart of the steps of a method of making a beverage of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic view of the interior of the rolling heating barrel of the present invention;

FIG. 4 is a schematic structural view of the rolling type refining cooking mechanism of the present invention;

FIG. 5 is a schematic view of the construction of the extruded arcuate block of the present invention;

FIG. 6 is a schematic view of the configuration of the extruded oval block of the present invention;

FIG. 7 is a schematic view of the structure of the inside of the circulation tank of the present invention;

FIG. 8 is a schematic view showing the structure of the circulation separation treatment mechanism of the present invention;

FIG. 9 is a schematic view of the construction of the flexible cone web installation of the present invention;

FIG. 10 is a schematic structural view of the air circulation cleaning mechanism of the present invention;

the reference numbers in the figures: 1. a bottom bracket; 2. a top end limiting frame; 3. installing an inclined frame;

4. a rolling refining cooking mechanism; 401. rolling the heating barrel; 402. extruding the arc-shaped block; 403. a sealing valve; 404. splicing the tubes; 405. sealing the rubber ring; 406. installing a through groove; 407. sealing the cover plate; 408. rotating the round frame; 409. installing a side plate; 410. a support rail; 411. an elastic glue stick; 412. a flexible scraper; 413. inlaying a bottom plate; 414. inlaying a middle plate; 415. installing a cable; 416. intercepting the fine net; 417. extruding an elliptical block; 418. sealing the end cap; 419. a supporting inclined frame; 420. driving the roller; 421. a guiding square rod; 422. a guide slide bar; 423. a material guiding elbow pipe; 424. a feeding hopper;

5. a circulating separation treatment mechanism; 501. a separation tank; 502. installing a top ring; 503. an elastic retaining ring; 504. a protective cover; 505. splicing the snap rings; 506. splicing the telescopic rods; 507. a tapered guide ring; 508. separating the motor; 509. rotating the drum; 510. a liquid discharge bottom groove; 511. draining a bottom cone; 512. rotating the top ring; 513. a flexible conical mesh; 514. a counterweight bottom block; 515. supporting a cone frame; 516. installing a top block; 517. dragging a small rope; 518. a counterweight arc-shaped block; 519. a slag discharge notch; 520. opening and closing the telescopic rod; 521. sealing a slip ring; 522. a material guiding inclined ring; 523. a transfer pump; 524. a circulating barrel; 525. rotating the motor; 526. a stirring paddle; 527. a circulation pump; 528. cooling the top box; 529. distributing bent pipes;

6. an airflow circulating cleaning mechanism; 601. a heat exchange box; 602. a heat-conducting fin; 603. a circulating fan; 604. an air guide upper pipe; 605. mounting a bottom box; 606. a horizontal conveying pipe; 607. a conveying motor; 608. a material conveying dragon; 609. isolating the arc-shaped net; 610. collecting the upper box; 611. feeding a deep box; 612. shallow storage boxes; 613. a vertical material guiding pipe; 614. lifting the telescopic rod; 615. a lifting sliding cover; 616. an exhaust pipe; 617. a discharge fan; 618. installing an arc plate; 619. and (4) guiding the air film.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): the invention provides a technical scheme of a nourishing beverage, which consists of the following components:

11 parts of red beans, 10 parts of black beans, 8 parts of mung beans, 9 parts of Chinese yam, 9 parts of wolfberry fruits, 7 parts of hawthorn, 8 parts of dried red dates, 7 parts of figs, 6 parts of sorghum rice, 8 parts of water chestnuts, 9 parts of chestnut kernels and 8 parts of water.

As shown in fig. 1, a preparation method of a nourishing beverage comprises the following steps:

s2, counterweight transportation: weighing and matching the raw materials according to the formula and the effect of the beverage, transporting and storing the matched raw materials into a deep feeding box 611, transporting the raw material mixture in the deep feeding box 611 into a shallow storing box 612 through a transverse transporting pipe 606 and a transporting flood dragon 608, and transporting the fine crushed peels separated from the outer sides of the raw materials through air flow in the raw material transportation process;

s3, circulating cooking: adding the processed raw materials and a proper amount of water into a rolling heating barrel 401 positioned at the top of the bottom bracket 1 through a material guide bent pipe 423, driving the rolling heating barrel 401 to roll at a constant speed through a driving roller 420, and cooking each raw material in the rolling process of the rolling heating barrel 401;

s4, cooling and filtering: the beverage which is cooked in the rolling heating barrel 401 and cooled to a proper temperature is introduced into the separation tank 501 through the sealing valve 403, the solid components in the decoction pieces are intercepted through the flexible conical net 513 in the process that the beverage flows through the separation tank 501, and the filtered beverage is temporarily stored through the circulating barrel 524;

As shown in fig. 2-10, a top end limiting frame 2 is welded on one side of the top of the bottom bracket 1, and an installation inclined frame 3 is arranged on the other side of the top of the bottom bracket 1;

a rolling type refining cooking mechanism 4 is arranged at the position, corresponding to the inner side of the top end limiting frame 2, of the top of the bottom support 1 and is used for cooking various raw materials added into the rolling heating barrel 401, continuously cooking the rolling heating barrel 401 in the raw material cooking process, and rolling and refining the raw materials in the cooking process;

the rolling type refining cooking mechanism 4 comprises a rolling heating barrel 401, an extrusion arc-shaped block 402, a sealing valve 403, a splicing pipe 404, a sealing rubber ring 405, an installation through groove 406, a sealing cover plate 407, a rotating circular frame 408, an installation side plate 409, a supporting cross bar 410, an elastic rubber rod 411, a flexible scraper 412, an embedded bottom plate 413, an embedded middle plate 414, an installation rope 415, an interception fine net 416, an extrusion ellipse block 417, a sealing end cover 418, a supporting inclined frame 419, a driving roller 420, a guide square rod 421, a guide sliding rod 422, a guide bent pipe 423 and a charging hopper 424;

a rolling heating barrel 401 is arranged at the position, corresponding to the inner side of the top end limiting frame 2, of the top of the bottom support 1, an extrusion arc-shaped block 402 is uniformly and fixedly installed on the inner wall of the rolling heating barrel 401 at equal intervals along the circumferential direction, sealing valves 403 are uniformly and symmetrically and fixedly installed in the middle of the outer side of the rolling heating barrel 401 at equal intervals along the circumferential direction, an outlet edge part at one end of each sealing valve 403 is fixedly connected with a splicing pipe 404, and a sealing rubber ring 405 is bonded to an outer edge part at the end part of each splicing pipe 404;

an installation through groove 406 penetrates through one side of the back face of the rolling heating barrel 401, a sealing cover plate 407 is installed at a position, corresponding to the back face of the rolling heating barrel 401, of one end of the installation through groove 406 through a bolt, a rotary round frame 408 is movably installed at a position, corresponding to the inner position of the installation through groove 406, of the inner side of the rolling heating barrel 401, installation side plates 409 are symmetrically and fixedly connected to the middles of two sides of the rotary round frame 408, supporting cross rods 410 are fixedly connected to the middles of two ends of the side face of each installation side plate 409, elastic rubber rods 411 are embedded and installed at the end portions of the supporting cross rods 410, and flexible scraping plates 412 are connected to the end portions of the two elastic rubber rods 411;

an embedded bottom plate 413 is fixedly installed in the middle of the bottom end of one side of the rotary circular frame 408, an embedded middle plate 414 is embedded and installed in the middle of the inner side of the embedded bottom plate 413, two ends of the bottom surface of the embedded middle plate 414 are symmetrically and fixedly connected with installation ropes 415, an intercepting fine net 416 is fixedly connected between the two installation ropes 415, the bottom ends of the two installation ropes 415 are jointly connected with an extruded elliptical block 417, two sealing valves 403 are arranged in total, the two sealing valves 403 are symmetrically distributed along the outer wall of the rolling heating barrel 401, the outer sides of two ends of the rotary circular frame 408 are closely attached to the inner wall of the installation through groove 406 in a sliding manner, and the end part of the rotary circular frame 408 is closely attached to the inner side of the sealing cover plate 407 in a sliding manner;

the end part of the flexible scraper 412 is tightly attached to the inner wall of the rolling heating barrel 401, the top of the intercepting fine net 416 is fixedly connected with the bottom surface of the embedded middle plate 414, and the bottom of the intercepting fine net 416 extrudes the top of the elliptical block 417 to be fixedly connected;

a sealing end cover 418 is arranged at the position corresponding to the feed inlet in the middle of the front surface of the rolling heating barrel 401 through a mounting bolt, supporting inclined frames 419 are symmetrically arranged at the positions corresponding to the two sides of the bottom of the rolling heating barrel 401 at the top of the bottom support 1, a driving roller 420 is rotatably arranged at the middle of the top ends of the supporting inclined frames 419 through a rotating shaft, guiding square rods 421 are symmetrically arranged at the positions corresponding to the feed inlet in the front surface of the rolling heating barrel 401 at one end of the mounting inclined frames 3, a guiding slide rod 422 is slidably arranged at one end inside the guiding square rods 421, a guiding elbow 423 is commonly connected at the positions corresponding to the feed inlet of the rolling heating barrel 401 at the end parts of the four guiding slide rods 422, a feed hopper 424 is fixedly connected to the middle of the top ends of the guiding elbow 423, the outer side of the driving roller 420 is tightly attached to the rolling heating barrel 401, the driving roller 420 is driven by a motor, and the outer side of the sealing end cover 418 is tightly attached to the inner wall of the feed inlet of the rolling heating barrel 401, the outer side of the guide sliding rod 422 is closely attached to the inner wall of the guide square rod 421 in a sliding manner, the discharge port of the guide bent pipe 423 is positioned in the rolling heating barrel 401 in the material adding process, the cooking process of nourishing type drink raw materials and the refining process of each solid raw material in the cooking process are optimized through the mutual matching of all components in the rolling refining cooking mechanism 4, through the integral rolling type design of the rolling heating barrel 401, the drink can stir all the raw materials through the integral rotation of the rolling heating barrel 401 and the extrusion arc-shaped block 402 in the cooking process of the drink, as the rolling heating barrel 401 is always in a rotating state in the cooking process of the drink, a fixed liquid-gas boundary line cannot exist on the inner wall of the rolling heating barrel 401, the raw materials adsorbed to the inner wall of the rolling heating barrel 401 are effectively prevented from generating dirt which is difficult to clean after being coked, and the cleaning convenience of the drink processing equipment is effectively improved, the burnt smell mixed in the beverage processing process is effectively avoided, and the overall flavor of the beverage is improved;

the residues of raw materials on the inner wall of the rolling heating barrel 401 can be further reduced by the scraping of the elastic glue rod 411 and the flexible scraper 412, meanwhile, large-particle raw materials are intercepted by the intercepting fine net 416, and extrusion refining is carried out by the collision between the extrusion arc-shaped block 402 and the extrusion ellipse block 417, so that the mixing degree of the raw materials in the beverage is effectively improved, meanwhile, the processing degree of the beverage in the rolling heating barrel 401 can be effectively judged according to the difference between the sound of the direct collision between the extrusion arc-shaped block 402 and the extrusion ellipse block 417 and the sound of the collision between the extrusion arc-shaped block 402 and the extrusion ellipse block 417, and further, the use convenience of the rolling heating barrel 401 is effectively improved;

a circulating separation treatment mechanism 5 is arranged at the position, corresponding to the bottom of the rolling heating barrel 401, on the inner side of the bottom support 1 and used for circularly cooling the steamed beverage so as to ensure that the beverage can be cooled to a proper temperature before subsequent processing, and solid impurities in the beverage are filtered and collected in the circulating process of a beverage mixture so as to improve the purity of the beverage;

the circulating separation treatment mechanism 5 comprises a separation tank 501, an installation top ring 502, an elastic guard ring 503, a protective cover 504, a splicing snap ring 505, a splicing telescopic rod 506, a conical guide ring 507, a separation motor 508, a rotating barrel 509, a liquid drainage bottom groove 510, a liquid drainage bottom conical pipe 511, a rotating top ring 512, a flexible conical net 513, a counterweight bottom block 514, a support conical frame 515, an installation top block 516, a traction thin cable 517, a counterweight arc-shaped block 518, a slag drainage notch 519, an opening and closing telescopic rod 520, a sealing slide ring 521, a material guiding inclined ring 522, a transfer pump 523, a circulating barrel 524, a rotating motor 525, a stirring paddle 526, a circulating pump 527, a cooling top box 528 and a distribution elbow 529;

a separation tank 501 is arranged at the position, corresponding to the bottom of the rolling heating barrel 401, on the inner side of the bottom support 1, an installation top ring 502 is installed at the edge of the top end of the separation tank 501 through threads, an elastic retaining ring 503 is bonded at the position of the edge of the top end of the installation top ring 502, a protective cover 504 is fixedly connected to the edge of the top end of the elastic retaining ring 503, a splicing snap ring 505 is embedded in the middle of the top end of the protective cover 504, and splicing telescopic rods 506 are fixedly installed at the edges of two sides of the top end of the protective cover 504;

conical guide rings 507 are fixedly arranged in the middle of the top of the inner side of the separation tank 501 and at the bottom of the inner side of the separation tank 501, a separation motor 508 is fixedly arranged in the middle of the bottom of the separation tank 501, the separation motor 508 supplies power through an external power supply, a rotating barrel 509 is fixedly arranged at the top end of an output shaft of the separation motor 508 corresponding to the position inside the separation tank 501, liquid drainage bottom grooves 510 are uniformly formed in the bottom end of the inner side of the rotating barrel 509 at equal intervals along the circumferential direction, a liquid drainage bottom conical pipe 511 is fixedly arranged at the top of the conical guide ring 507 at one side of the separation tank 501 corresponding to the bottom of the separation tank, a liquid storage hole at the bottom of the splicing snap ring 505 is arranged in the middle of the inner side of the protective cover 504, the top of the splicing snap ring 505 corresponds to the position of the splicing pipe 404, the top of the splicing snap ring 505 fits with the bottom of the splicing pipe 404 in the liquid drainage process of the rolling heating tank 401, and the sealing rubber ring 405 fits with the edges of the splicing snap ring 505 and the splicing pipe 404 tightly;

the top surface of the conical guide ring 507 positioned at the bottom of the separation tank 501 is closely attached to the bottom surface of the rotating barrel 509 in a sliding manner, the inner side of the conical guide ring 507 positioned at the middle part of the separation tank 501 is closely attached to the outer side of the rotating barrel 509 in a sliding manner, a liquid outlet of the distribution elbow 529 is positioned at the top of the conical guide ring 507 positioned at the top of the separation tank 501, and the inner diameter of the bottom end of the conical guide ring 507 at the top of the separation tank 501 is smaller than the inner diameter of an opening at the top end of the rotating barrel 509;

a rotating top ring 512 is fixedly connected to the edge portion of the top end of the rotating barrel 509, a flexible conical net 513 is bonded to the bottom of the inner side of the rotating top ring 512, a counterweight bottom block 514 is embedded in the middle of the bottom end of the flexible conical net 513, a supporting conical frame 515 is fixedly connected to the edge portion of the top end of the inner side of the rotating top ring 512, an installation top block 516 is fixedly installed in the middle of the top end of the supporting conical frame 515, traction strings 517 are uniformly and fixedly connected to the edge portion of the top end of the counterweight bottom block 514 along the circumferential direction, and counterweight arc blocks 518 are fixedly connected to the positions, corresponding to the edge portions of the installation top block 516, of the tail ends of the traction strings 517;

a slag discharging notch 519 is uniformly formed in the position, corresponding to the top of the conical guide ring 507 in the middle, of the outer side of the separation tank 501 in a penetrating mode along the circumferential direction, an opening and closing telescopic rod 520 is uniformly and fixedly installed at the position, corresponding to the top of the slag discharging notch 519, of the top of the separation tank 501 through a mounting ring, a sealing sliding ring 521 is fixedly connected to the side face of the opening and closing telescopic rod 520 at the position, corresponding to the outer side of the slag discharging notch 519, of the side face of the opening and closing telescopic rod 520, and a material guiding inclined ring 522 is sleeved at the position, corresponding to the bottom of the slag discharging notch 519, of the outer side of the separation tank 501;

the end part of the drainage bottom taper pipe 511 is connected with a transfer pump 523 through a pipeline, the transfer pump 523 supplies power through an external power supply, one end of the transfer pump 523 is fixedly connected with a circulating bucket 524 through a pipeline, the middle part of the top end of the circulating bucket 524 is fixedly provided with a rotating motor 525, the rotating motor 525 supplies power through an external power supply, the outer side of an output shaft of the rotating motor 525 is fixedly connected with a stirring paddle 526 corresponding to the inner part of the circulating bucket 524, one side of the top end of the circulating bucket 524 is provided with a circulating pump 527 through a pipeline, the top end of the circulating pump 527 is fixedly connected with a cooling top box 528 through a pipeline, one end of the bottom of the cooling top box 528 is fixedly connected with a distribution elbow 529 corresponding to the positions of the two sides of the separation tank 501, the tail end of the distribution elbow 529 penetrates through the separation tank 501, a traction thin cable 517 penetrates through the inside of the top block 516, the counterweight arc 518 is embedded into the edge part of the top block 516, and the inner side of the sealing slip ring 521 is tightly attached to the outer side of the separation tank 501, A gap is reserved between the edge of the stirring paddle 526 and the inner wall of the circulating barrel 524, the top surface of the cooling top box 528 is fixedly connected with the bottom surface of the mounting inclined frame 3 through a connecting plate, the filtering and cooling process of the beverage is optimized through the mutual matching of all components in the circulating separation processing mechanism 5, the residue is filtered and collected through the flexible conical net 513 capable of freely deforming, the change of the form of the flexible conical net 513 is realized by adjusting the rotating speed of the separation motor 508 according to the requirements of different filtering stages of the beverage, the flexible conical net 513 is kept in an inverted cone shape at the initial stage of filtering to ensure that the flexible conical net 513 can effectively collect the residue, liquid components are prevented from being thrown out of the rotating barrel 509 in the rotating process of the flexible conical net 513, and when no new impurities are introduced and the impurities need to be dried, the flexible conical net is changed into a flat lantern shape to realize the drying of the impurities, in the deslagging process, the flexible conical net 513 can be changed into a positive conical shape, so that impurities on the outer side of the flexible conical net 513 can be quickly separated, and convenience in filtering the beverage is effectively improved;

the beverage is continuously circulated while being filtered, so that the cooling effect of the beverage is effectively improved, and meanwhile, the corresponding additive is added into the beverage in the beverage circulating process, so that the additive is effectively mixed in the beverage circulating process, the processing procedure of the beverage is further compressed, and the production efficiency of the beverage is improved;

the bottom of the cooling top box 528 is provided with an airflow circulation cleaning mechanism 6, which can assist in cooling the beverage in the circulation process through the continuously flowing airflow and can clean the raw material to be added into the rolling heating barrel 401 through the airflow so as to reduce the introduction of impurities in the beverage production process;

the airflow circulating cleaning mechanism 6 comprises a heat exchange box 601, a heat conduction fin 602, a circulating fan 603, an upper air guide pipe 604, a bottom mounting box 605, a horizontal conveying pipe 606, a conveying motor 607, a conveying auger 608, an isolation arc net 609, an upper collecting box 610, a deep feeding box 611, a shallow storing box 612, a vertical conveying pipe 613, a lifting telescopic rod 614, a lifting sliding cover 615, an exhaust pipe 616, a discharge fan 617, a mounting arc plate 618 and an air guide film 619;

the middle part of the bottom end of the cooling top box 528 is fixedly provided with a heat exchange box 601, the top part of the inner side of the heat exchange box 601 is uniformly and fixedly connected with heat conducting fins 602 at equal intervals, two ends of one side of each heat conducting fin 602 are embedded with a circulating fan 603, the middle part of the other side of the circulating fan 603 is fixedly provided with an air guide upper pipe 604, the top end of each air guide upper pipe 604 is fixedly connected with an installation bottom box 605 corresponding to the inner side position of the installation inclined frame 3, and the inside of each installation bottom box 605 is divided into two independent chambers through a partition plate;

the top end of the mounting bottom box 605 is fixedly connected with a horizontal conveying pipe 606, the middle part of one end of the horizontal conveying pipe 606 is fixedly provided with a conveying motor 607, the conveying motor 607 supplies power through an external power supply, the end part of an output shaft of the conveying motor 607 is fixedly connected with a conveying flood dragon 608 corresponding to the inner side position of the horizontal conveying pipe 606, the bottoms of the two ends of the horizontal conveying pipe 606 are embedded with isolating arc nets 609, the inner side of one end of the mounting bottom box 605 is embedded with a collecting upper box 610, the position of the top of the horizontal conveying pipe 606 corresponding to one side of the mounting inclined frame 3 is fixedly connected with a deep feeding box 611 through a pipeline, and the other end of the horizontal conveying pipe 606 is provided with a shallow storing box 612 corresponding to the other side of the mounting inclined frame 3;

a material guide vertical pipe 613 is fixedly connected to the other end of the material conveying horizontal pipe 606 corresponding to the bottom of the material storage shallow box 612, a lifting telescopic rod 614 is fixedly connected to the middle of the bottom end of the material guide vertical pipe 613, and a lifting sliding cover 615 is fixedly connected to the top end of the lifting telescopic rod 614 corresponding to the inner side of the material guide vertical pipe 613;

an exhaust pipe 616 is fixedly intercepted at the bottom of the mounting bottom box 605 corresponding to one end of the collecting upper box 610, a discharge fan 617 is fixedly connected at the tail end of the exhaust pipe 616 corresponding to the top of the material guiding inclined ring 522, the discharge fan 617 is powered by an external power supply, a mounting arc plate 618 is fixedly sleeved outside the discharge fan 617, an air guide rubber sheet 619 is bonded at the position of one end of the mounting arc plate 618 corresponding to the top of an air outlet of the discharge fan 617, the outer side of a material conveying auger 608 is tightly and slidably attached to the inner wall of a material conveying transverse pipe 606, two isolating arc-shaped nets 609 are respectively positioned at two sides of a partition plate inside the mounting bottom box 605, the top of a material guiding vertical pipe 613 is communicated with the inside of the material storing shallow box 612, the outer side of a lifting sliding hood 615 is tightly and slidably attached to the inner wall of the material guiding vertical pipe 613, the bottom of the mounting arc plate 618 is fixedly connected to the top of the inclined ring 522, through mutual cooperation among components inside the air circulation cleaning mechanism 6, the air circulation process in the beverage production process is optimized, the time period of the processing completion and the preparation of the next beverage material is utilized, the gap time period of double auxiliary circulation of the air flow through the circulating fan 603, the effective drink raw material removal of the solid impurities in the steam cooking raw material is effectively improved, and the raw material cooking raw material is effectively, and the raw material is effectively improved;

simultaneously also can carry out abundant mixing to the raw materials at the transportation of raw materials to make the drink cook the in-process raw materials faster that mixes, and the cooling of drink is accelerated at air current endless in-process accessible heat transfer case 601, thereby the radiating efficiency of effectual improvement drink, simultaneously the effectual intermittent type time that utilizes in the drink production process, improved the production efficiency of drink.

The working principle and the using process of the invention are as follows: in the practical application process, in the production process of the nourishing beverage, various raw materials are required to be added into the rolling heating barrel 401, after a sealing end cover 418 on the side surface of the rolling heating barrel 401 is opened, a material guide bent pipe 423 is pushed under the guidance of a guide square rod 421 and a guide slide rod 422 to approach the rolling heating barrel 401, after a discharge port of the material guide bent pipe 423 is positioned in the rolling heating barrel 401, the prepared various raw materials are poured from the top of a material adding hopper 424, the raw materials are added into the rolling heating barrel 401 after being guided by the material guide bent pipe 423, after the raw materials are added, the material guide bent pipe 423 is withdrawn from the rolling heating barrel 401 and the sealing end cover 418 is closed again, the sealing of the rolling heating barrel 401 is realized, then the rolling heating barrel 401 is driven to be transported and rotated by a driving roller 420 at the top of a support inclined frame 419, and the raw materials in the rolling heating barrel 401 are steamed and boiled in the rotating process;

when the raw materials in the rolling heating barrel 401 are cooked in a rotating way, the rotating round frame 408 and the components on the rotating round frame are arranged in the middle of the rolling heating barrel 401 through the installation through groove 406 and the sealing cover plate 407, and the rolling heating barrel 401 can not drive all the components on the rotating round frame 408 to synchronously rotate in the rotating process, the rolling heating barrel 401 drives the extrusion arc-shaped block 402 to synchronously rotate, the mixed raw material inside the rolling heating barrel 401 is agitated during the rotation of the extrusion arc-shaped blocks 402, the solid raw materials in the mixture are intercepted while moving to the side of the intercepting screen 416, the intercepted solid raw materials are deposited to the side of the extruded oval block 417 under the action of gravity, the settled solid raw material is extruded during the collision of the extruded arc-shaped block 402 with the extruded oval block 417 in motion, thereby accelerating the cooking refinement process of the solid raw material, and simultaneously installing the flexible scraper 412 to the inner side edge portion of the rolling heating barrel 401 through the installation side plate 409 and the support cross bar 410, the raw material adhered to the side surface of the rolling heating barrel 401 and the raw material adhered to the extrusion arc-shaped block 402 can be quickly scraped by the flexible scraping structure consisting of the elastic glue rod 411 and the flexible scraping plate 412, so that the raw material inside the rolling heating barrel 401 can be repeatedly concentrated on the bottom region of the rolling heating barrel 401, after the collision sound between the extruding arc-shaped block 402 and the extruding ellipse block 417 becomes uniform, the heating of the drink inside the rolling heating barrel 401 is stopped, and the rolling heating barrel 401 is continuously rotated, after the beverage in the rolling heating barrel 401 is cooled to a proper temperature, the rolling heating barrel 401 is rotated to a proper position, after the splicing of the splicing pipe 404 and the clamping ring 505 is completed, the sealing valve 403 is opened to discharge the steamed and boiled beverage in the rolling heating barrel 401;

after the beverage in the rolling heating barrel 401 enters the separating tank 501, the separating motor 508 drives the rotating barrel 509 and the components thereon to synchronously rotate;

in the low-speed rotation stage at the initial stage of filtration, the beverage entering the separation tank 501 is filtered through the flexible conical net 513, so that part of large-particle and infusible raw materials are intercepted at the top of the flexible conical net 513 to be collected, the filtered beverage flows to the bottom of the rotary barrel 509 and is discharged into the separation tank 501 from the liquid discharge bottom groove 510 in the rotating process of the rotary barrel 509, the filtered beverage is introduced into the liquid discharge bottom conical pipe 511 through the conical guide ring 507 at the bottom of the separation tank 501, the beverage is introduced into the circulating barrel 524 through the transfer pump 523, corresponding additives are added from the material adding port at the top of the circulating barrel 524, the stirring paddle 526 is driven by the rotary motor 525 to stir the beverage in the circulating barrel 524 so as to accelerate the mixing efficiency between the beverage and the additives, the beverage in the circulating barrel 524 is introduced into the cooling top box 528 through the circulating pump 527, the beverage is rapidly cooled when flowing through the cooling top box 528, the beverage is introduced into the separation tank 501 again through the distribution elbow 529;

when the raw material in the flexible conical net 513 needs to be spin-dried in the middle stage of filtration, the separation motor 508 drives the rotating drum 509 to rotate at a variable speed, the counterweight arc-shaped block 518 upwards pulls the traction rope 517 under the action of centrifugal force, the counterweight bottom block 514 is lifted by a distance from one end through the traction rope 517, and meanwhile, solid residues in the middle of the flexible conical net 513 can drive the flexible conical net 513 to move outwards under the action of centrifugal force, so that the flexible conical net becomes a flat lantern shape and continuously rotates to realize dehydration;

after the dehydration of the residues is finished, the rotating barrel 509 is driven to rotate at a high speed by the separating motor 508, the counterweight arc-shaped block 518 pulls the traction fine cable 517 upwards to the utmost under the action of centrifugal force, so that the flexible conical net 513 is changed from an inverted cone shape to a forward cone shape, the residues on the outer side of the flexible conical net 513 are thrown out of the top area of the rotating barrel 509 under the action of centrifugal force, the opening and closing telescopic rods 520 are synchronously contracted to drive the sealing slip ring 521 to slide upwards, so that the opening of the slag discharging notch 519 is realized, the residues thrown out of the flexible conical net 513 are guided by the conical guide ring 507 in the middle of the separating tank 501 and are discharged to the top of the material guide inclined ring 522 through the slag discharging notch 519, the residues are discharged outwards through the material guide inclined ring 522, and the beverage can be discharged from the bottom of the circulating barrel 524 after the cooling and filtering of the beverage are finished;

in the process of finishing the processing of the first batch of beverages and simultaneously preparing the processing raw materials of the second batch of beverages, pouring the solid raw materials of the beverages into the deep feeding box 611, driving the feeding flood dragon 608 inside the feeding horizontal pipe 606 to continuously rotate through the feeding motor 607, further transporting the raw materials inside the deep feeding box 611 to the top of the lifting slide cover 615 inside the material guiding vertical pipe 613 along the feeding horizontal pipe 606, after the raw materials at the top of the lifting slide cover 615 are sufficiently accumulated, extending through the lifting telescopic rod 614 to drive the raw materials inside the material guiding vertical pipe 613 to be transported upwards to the shallow storing box 612, and pushing the raw materials at the top of the lifting slide cover 615 to the other end of the shallow storing box 612 through the staff, thereby completing the transportation of the raw materials between the deep feeding box 611 and the shallow storing box 612;

when solid raw materials are transported along the inside of a horizontal conveying pipe 606, air is continuously blown into a heat exchange box 601 through a circulating fan 603, so that heat dissipation on a heat conduction fin 602 is accelerated, further, the cooling of drinks in a top cooling box 528 is accelerated, air flow is guided into one end in an installation bottom box 605 through an upper air guide pipe 604, air flow is guided into the other end of the horizontal conveying pipe 606 through an isolation arc-shaped net 609, when the air flow reversely passes through the horizontal conveying pipe 606, peeled peels and a small amount of dust on the outer side of the solid raw materials in the transportation process are driven to move towards the other end, the peeled peels and a small amount of dust on the feeding end of the horizontal conveying pipe 606 enter the other side of the installation bottom box 605 through the isolation arc-shaped net 609 at the feeding end of the horizontal conveying pipe 606, the peels and the small amount of dust are collected through an upper collection box 610, air in an exhaust pipe 616 is sucked under the action of a discharge fan 617, further, the air flow on the other side of the installation bottom box 605 is guided to the top of a guide inclined ring 522, and the air flow is uniformly blown downwards along the top of the guide inclined ring 522 through an air guide rubber sheet 619.

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 changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A preparation method of a nourishing beverage is characterized in that: the method comprises the following steps:

s2, counterweight transportation: weighing and matching the raw materials according to the formula and the effect of the beverage, transporting and storing the matched raw materials into a deep feeding box (611), transporting a raw material mixture in the deep feeding box (611) into a shallow storing box (612) through a horizontal transporting pipe (606) and a transporting auger (608), and transporting the broken pericarp separated from the outer side of the raw materials through air flow in the raw material transportation process;

s3, circulating cooking: adding the treated raw materials and a proper amount of water into a rolling heating barrel (401) positioned at the top of a bottom bracket (1) through a material guiding elbow pipe (423), driving the rolling heating barrel (401) to roll at a constant speed through a driving roller (420), and cooking all the raw materials in the rolling process of the rolling heating barrel (401);

s4, cooling and filtering: the beverage which is cooked in the rolling heating barrel (401) and cooled to a proper temperature is introduced into the separating tank (501) through a sealing valve (403), the solid components in the decoction pieces are intercepted through a flexible conical net (513) in the process that the beverage flows through the separating tank (501), and the filtered beverage is temporarily stored through a circulating barrel (524);

2. The method for preparing a tonic beverage according to claim 1, wherein the tonic beverage comprises the following ingredients:

3. A nourishing beverage preparation method according to claim 1, characterized in that a top end limiting frame (2) is welded on one side of the top of the bottom bracket (1), and a mounting inclined frame (3) is arranged on the other side of the top of the bottom bracket (1);

a rolling type refining cooking mechanism (4) is arranged at the position, corresponding to the inner side of the top end limiting frame (2), of the top of the bottom support (1) and used for cooking various raw materials added into the rolling heating barrel (401), continuously cooking the rolling heating barrel (401) in the raw material cooking process, and rolling and refining the raw materials in the cooking process;

the rolling type refining cooking mechanism (4) comprises a rolling heating barrel (401), an extrusion arc-shaped block (402), a sealing valve (403), a splicing pipe (404), a sealing rubber ring (405), an installation through groove (406), a sealing cover plate (407), a rotary circular frame (408), an installation side plate (409), a support cross rod (410), an elastic rubber rod (411), a flexible scraper (412), an embedded bottom plate (413), an embedded middle plate (414), an installation rope (415), an interception fine net (416), an extrusion elliptical block (417), a sealing end cover (418), a support inclined frame (419), a driving roller (420), a guide square rod (421), a guide sliding rod (422), a guide elbow (423) and a feeding hopper (424);

a rolling heating barrel (401) is arranged at a position, corresponding to the inner side of the top end limiting frame (2), on the top of the bottom support (1), extrusion arc-shaped blocks (402) are uniformly and fixedly installed on the inner wall of the rolling heating barrel (401) at equal intervals along the circumferential direction, sealing valves (403) are uniformly and symmetrically installed in the middle of the outer side of the rolling heating barrel (401) at equal intervals along the circumferential direction, an outlet edge part of one end of each sealing valve (403) is fixedly connected with a splicing pipe (404), and a sealing rubber ring (405) is bonded on the outer edge part of the end part of each splicing pipe (404);

an installation through groove (406) is formed in one side of the back face of the rolling heating barrel (401) in a penetrating mode, a sealing cover plate (407) is installed at the position, corresponding to the back face of the rolling heating barrel (401), of one end of the installation through groove (406) through a bolt, a rotary round frame (408) is movably installed at the position, corresponding to the inner portion of the installation through groove (406), of the inner side of the rolling heating barrel (401), installation side plates (409) are symmetrically and fixedly connected to the middles of two sides of the rotary round frame (408), supporting cross rods (410) are fixedly connected to the middles of two ends of the side face of each installation side plate (409), elastic rubber rods (411) are embedded into the end portions of the supporting cross rods (410), and flexible scraping plates (412) are connected to the end portions of the two elastic rubber rods (411) together;

an embedded bottom plate (413) is fixedly installed in the middle of the bottom end of one side of the rotary circular frame (408), an embedded middle plate (414) is embedded in the middle of the inner side of the embedded bottom plate (413), mounting ropes (415) are symmetrically and fixedly connected to two ends of the bottom surface of the embedded middle plate (414), an intercepting fine net (416) is fixedly connected to the position between the two mounting ropes (415), and an extruding elliptical block (417) is connected to the bottom end of each mounting rope (415);

roll heating bucket (401) openly the middle part corresponds feed inlet position department and installs end cover (418) through the installation bolt, bottom support (1) top corresponds roll heating bucket (401) bottom both sides position department equal symmetry and installs support sloping frame (419), support sloping frame (419) top middle part and rotate through the pivot and install drive roller (420), direction square bar (421) are installed to installation sloping frame (3) one end correspondence roll heating bucket (401) openly to add material mouthful position department symmetry, direction square bar (421) inside one end slidable mounting has direction slide bar (422), four direction slide bar (422) tip corresponds roll heating bucket (401) material adding mouth end position department and is connected with guide return bend (423) jointly, guide return bend (423) top middle part fixedly connected with adds hopper (424).

4. A nourishing beverage preparation method according to claim 3, wherein there are two sealing valves (403), and the two sealing valves (403) are symmetrically distributed along the outer wall of the rolling heating barrel (401), the outer sides of the two ends of the rotating circular frame (408) are closely and slidably attached to the inner wall of the installation through groove (406), and the end of the rotating circular frame (408) is closely and slidably attached to the inner side of the sealing cover plate (407);

the flexible scraper blade (412) tip and roll between the heating bucket (401) inner wall and closely laminate, fixed connection between interception fine mesh (416) top and the bottom surface of inlaying medium plate (414), fixed connection between interception fine mesh (416) bottom extrusion ellipse piece (417) top.

5. A nourishing beverage preparation method according to claim 3, wherein the outside of the driving roller (420) is tightly attached to the rolling heating barrel (401), the driving roller (420) is driven by a motor, the outside of the sealing end cap (418) is tightly attached to the inner wall of the feeding port of the rolling heating barrel (401), the outside of the guiding slide bar (422) is tightly attached to the inner wall of the guiding square bar (421) in a sliding manner, and the discharging port of the guiding elbow (423) is located inside the rolling heating barrel (401) during the feeding process.

6. A nourishing beverage preparation method according to claim 3, characterized in that the inside of the bottom bracket (1) is provided with a circulation separation treatment mechanism (5) corresponding to the bottom of the rolling heating barrel (401) for cooling the boiled beverage circularly to ensure that the beverage can be cooled to a proper temperature before subsequent processing, and filtering and collecting the solid impurities in the beverage during the circulation of the beverage mixture to improve the purity of the beverage;

the circulating separation treatment mechanism (5) comprises a separation tank (501), an installation top ring (502), an elastic protection ring (503), a protective cover (504), a splicing snap ring (505), a splicing telescopic rod (506), a conical guide ring (507), a separation motor (508), a rotary barrel (509), a liquid drainage bottom groove (510), a liquid drainage bottom conical pipe (511), a rotary top ring (512), a flexible conical net (513), a counterweight bottom block (514), a support conical frame (515), an installation top block (516), a traction fine cable (517), a counterweight arc block (518), a slag discharge notch (519), an opening and closing telescopic rod (520), a sealing sliding ring (521), a material guide inclined ring (522), a transfer pump (523), a circulating bucket (524), a rotary motor (525), a stirring paddle (526), a circulating pump (527), a cooling top box (528) and a distribution elbow (529);

a separation tank (501) is arranged on the inner side of the bottom support (1) corresponding to the bottom of the rolling heating barrel (401), an installation top ring (502) is installed on the edge of the top end of the separation tank (501) through threads, an elastic retaining ring (503) is bonded on the position of the edge of the top end of the installation top ring (502), a protective cover (504) is fixedly connected to the edge of the top end of the elastic retaining ring (503), a splicing snap ring (505) is embedded in the middle of the top end of the protective cover (504), and splicing telescopic rods (506) are fixedly installed on the edges of two sides of the top end of the protective cover (504);

the separation tank is characterized in that conical guide rings (507) are fixedly mounted in the middle of the top and the bottom of the inner side of the separation tank (501), a separation motor (508) is fixedly mounted in the middle of the bottom end of the separation tank (501), the separation motor (508) supplies power through an external power supply, a rotating drum (509) is fixedly mounted at the position, corresponding to the inner part of the separation tank (501), of the top end of an output shaft of the separation motor (508), liquid drainage bottom grooves (510) are uniformly formed in the bottom end of the inner side of the rotating drum (509) at equal intervals along the circumferential direction, and a liquid drainage bottom conical pipe (511) is fixedly mounted at the position, corresponding to the top of the conical guide ring (507) at the bottom, of one side of the separation tank (501);

the top edge of the rotating barrel (509) is fixedly connected with a rotating top ring (512), the bottom of the inner side of the rotating top ring (512) is bonded with a flexible conical net (513), the middle of the bottom end of the flexible conical net (513) is embedded with a counterweight bottom block (514), the top edge of the inner side of the rotating top ring (512) is fixedly connected with a supporting conical frame (515), the middle of the top end of the supporting conical frame (515) is fixedly provided with an installing top block (516), the top edge of the counterweight bottom block (514) is uniformly and fixedly connected with a traction thin cable (517) along the circumferential direction, and the position of the tail end of the traction thin cable (517) corresponding to the edge of the installing top block (516) is fixedly connected with a counterweight arc block (518);

a slag discharge notch (519) is uniformly formed in the position, corresponding to the top of the conical guide ring (507) in the middle, of the outer side of the separation tank (501) in a penetrating mode along the circumferential direction, an opening and closing telescopic rod (520) is uniformly and fixedly installed at the position, corresponding to the top of the slag discharge notch (519), of the top of the separation tank (501) through an installation ring, a sealing sliding ring (521) is fixedly connected to the position, corresponding to the outer side of the slag discharge notch (519), of the side face of the opening and closing telescopic rod (520), and a material guide inclined ring (522) is sleeved at the position, corresponding to the bottom of the slag discharge notch (519), of the outer side of the separation tank (501);

drain end taper pipe (511) tip has transfer pump (523) through the pipe connection, transfer pump (523) supplies power through external power source, transfer pump (523) one end is through pipeline fixedly connected with circulation bucket (524), circulation bucket (524) top middle part fixed mounting has rotation motor (525), rotation motor (525) supplies power through external power source, it corresponds circulation bucket (524) inside position department fixedly connected with stirring rake (526) to rotate motor (525) output shaft outside, circulation bucket (524) top one side is through pipe installation circulating pump (527), pipeline fixedly connected with cooling top case (528) is passed through on circulating pump (527) top, equal fixedly connected with distribution return bend (529) of cooling top case (528) bottom one end correspondence knockout drum (501) both sides position department, distribution return bend (529) end runs through knockout drum (501).

7. A nourishing beverage preparation method according to claim 6, characterized in that the liquid storage hole at the bottom of the splicing snap ring (505) is located at the middle part of the inner side of the protective cover (504), the top of the splicing snap ring (505) and the splicing pipe (404) are located corresponding to each other, the top of the splicing snap ring (505) and the bottom of the splicing pipe (404) are fitted with each other in the liquid discharging process of the rolling heating barrel (401), and the sealing rubber ring (405), the splicing snap ring (505) and the edge of the splicing pipe (404) are tightly fitted;

the conical guide ring (507) top surface at the bottom of the separation tank (501) is closely in sliding fit with the bottom surface of the rotating barrel (509), the conical guide ring (507) inner side at the middle of the separation tank (501) is closely in sliding fit with the outer side of the rotating barrel (509), the liquid discharge port of the distribution elbow (529) is located at the top of the conical guide ring (507) at the top of the separation tank (501), and the inner diameter of the bottom end of the conical guide ring (507) at the top of the separation tank (501) is smaller than the inner diameter of the opening at the top end of the rotating barrel (509).

8. A nourishing beverage preparation method according to claim 6, characterized in that the traction rope (517) penetrates through the inside of the mounting top block (516) in a sliding manner, the counterweight arc-shaped block (518) is embedded into the edge of the mounting top block (516), the inner side of the sealing slip ring (521) is tightly attached to the outer side of the separation tank (501), a gap is reserved between the edge of the stirring paddle (526) and the inner wall of the circulating barrel (524), and the top surface of the cooling top box (528) is fixedly connected with the bottom surface of the mounting inclined frame (3) through a connecting plate.

9. A nourishing beverage preparation method according to claim 3, characterized in that the bottom of the cooling top box (528) is provided with an air circulation cleaning mechanism (6), which can perform auxiliary cooling to the beverage in the circulation process by the continuous flowing air flow and simultaneously perform air flow cleaning to the raw material to be added into the rolling heating barrel (401) to reduce the introduction of impurities in the beverage production process;

the airflow circulating cleaning mechanism (6) comprises a heat exchange box (601), heat conducting fins (602), a circulating fan (603), an upper air guide pipe (604), a bottom mounting box (605), a transverse conveying pipe (606), a conveying motor (607), a conveying auger (608), an isolation arc-shaped net (609), an upper collecting box (610), a deep feeding box (611), a shallow material storage box (612), a vertical material guide pipe (613), a lifting telescopic rod (614), a lifting sliding cover (615), an exhaust pipe (616), a discharging fan (617), a mounting arc plate (618) and an air guide rubber sheet (619);

a heat exchange box (601) is fixedly installed in the middle of the bottom end of the cooling top box (528), heat conduction fins (602) are evenly and fixedly connected to the top of the inner side of the heat exchange box (601) at equal intervals, circulating fans (603) are embedded and installed at two ends of one side of each heat conduction fin (602), an upper air guide pipe (604) is fixedly installed in the middle of the other side of each circulating fan (603), an installation bottom box (605) is fixedly connected to the position, corresponding to the inner side of the installation inclined frame (3), of the top end of each upper air guide pipe (604), and the inside of each installation bottom box (605) is divided into two independent chambers through a partition plate;

the top end of the mounting bottom box (605) is fixedly connected with a horizontal conveying pipe (606), the middle of one end of the horizontal conveying pipe (606) is fixedly provided with a conveying motor (607), the conveying motor (607) supplies power through an external power supply, the end part of an output shaft of the conveying motor (607) is fixedly connected with a conveying flood dragon (608) corresponding to the inner side position of the horizontal conveying pipe (606), the bottoms of the two ends of the horizontal conveying pipe (606) are respectively embedded and provided with an isolation arc net (609), the inner side of one end of the mounting bottom box (605) is embedded and provided with an upper collecting box (610), the top of the horizontal conveying pipe (606) is fixedly connected with a deep feeding box (611) corresponding to one side of the mounting inclined frame (3), and the other end of the horizontal conveying pipe (606) is provided with a shallow storage box (612) corresponding to the other side of the mounting inclined frame (3);

a material guide vertical pipe (613) is fixedly connected to the other end of the material conveying horizontal pipe (606) corresponding to the bottom of the material storage shallow box (612), a lifting telescopic rod (614) is fixedly connected to the middle of the bottom end of the material guide vertical pipe (613), and a lifting sliding cover (615) is fixedly connected to the top end of the lifting telescopic rod (614) corresponding to the inner side of the material guide vertical pipe (613);

box (610) one end rigidity interception has blast pipe (616) in the corresponding collection of installation end box (605) bottom, blast pipe (616) end corresponds guide inclined ring (522) top position department fixedly connected with and arranges material fan (617), arrange material fan (617) and supply power through external power source, arrange material fan (617) outside and fixedly cup jointed installation radial plate (618), installation radial plate (618) one end is corresponding to arrange material fan (617) air exit top position department and is bonded and have wind guide film (619).

10. A nourishing beverage preparation method according to claim 9, wherein the outer side of the transporting flood dragon (608) is closely and slidably attached to the inner wall of the transporting horizontal pipe (606), the two isolating curved nets (609) are respectively located at two sides of a partition plate inside the installation bottom box (605), the top of the material guiding vertical pipe (613) is communicated with the inside of the material storage shallow box (612), the outer side of the lifting slide cover (615) is closely and slidably attached to the inner wall of the material guiding vertical pipe (613), and the bottom of the installation curved plate (618) is fixedly connected to the top of the material guiding inclined ring (522).