CN215139523U - Highland barley milk tea processing is with agitating unit who has filtration - Google Patents

Abstract

The utility model discloses a highland barley milk tea processing is with agitating unit who has filtration, including strutting arrangement, even sieve device, swing device, material feeding unit and induction system soon, even sieve device is connected with strutting arrangement through milk tea socket box, swings the device soon and is connected with even sieve device through the spacing snap ring of bolt post, and material feeding unit is connected with even sieve device through sealed feeding roof, and induction system passes through the quality monitoring ring and is connected with material feeding unit. The utility model discloses a raw materials weighing cup realizes that the raw materials is accurate to be weighed, realize raw materials quality monitoring through the quality monitoring ring, press from both sides the cover through heat preservation heating and realize the interior solution constant temperature of bucket, realize temperature monitoring in the bucket through the temperature-sensing ware, realize the tensile compression of globular stirring spring through tensile balladeur train snap ring, make the interior raw materials of bucket carry out intensive mixing, hit through globular stirring spring and hit down, realize the difficult caking of drier, make the mixture more even, realize the filtration of milk tea through the screening filter screen, make the finished product taste of milk tea more smooth.

Description

Highland barley milk tea processing is with agitating unit who has filtration

Technical Field

The utility model relates to a drink processingequipment specifically is a highland barley milk tea processing is with agitating unit who has filtration.

Background

The milk tea is a popular beverage nowadays, the origin is Mongolian plateau, northern grassland climate is cold, drinking hot salty milk tea can dispel cold, brick tea is indispensable beverage for herdsmen, drinking salty milk tea boiled by brick tea is a traditional tea drinking custom of Mongolian people. The highland barley milk tea is rich in dietary fiber, beta-glucan, various trace elements and rare nutrient components, has rich nutrient value and outstanding medical health-care effect, is softer, more glutinous, more fragrant and sweet than oat, is matched with milk tea, and is more delicious and healthy. To obtain a cup of mellow milk tea, a stirring device with excellent performance is essential.

The existing stirring device is not provided with a filtering device, the amount of raw materials required for making milk tea cannot be accurately measured, the made milk tea is not mellow and smooth enough, and dry materials are easy to agglomerate.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a clinical wound is tissue separation director for bone surgery can effectively solve agitating unit and do not have filter equipment among the background art, and can't accurately measure required raw materials quantity when making milk tea, and the milk tea of preparation is mellow and smooth inadequately, the problem of the easy caking of drier.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a highland barley milk tea processing is with agitating unit who has filtration, includes strutting arrangement, even sieve device, swing device, material feeding unit and induction system, strutting arrangement includes base and lift strut, a plurality of lift strut surface is connected with a base surface respectively, even sieve device includes milk tea and holds box, the double-deck cavity agitator of accuse temperature, heat preservation heating jacket, spin clearance square, tensile balladeur train snap ring, globular stirring spring and gomphosis response spiral plate back cover, milk tea holds box one surface and is connected with a base surface, milk tea holds box is hollow structure, the position of the double-deck cavity agitator of accuse temperature suits with milk tea and holds box's position, heat preservation heating jacket week side is connected with the double-deck cavity agitator internal surface of accuse temperature, a plurality of spin clearance square one surface respectively with a surface connection of the double-deck cavity agitator of accuse temperature, a plurality of tensile balladeur train snap ring a surface is connected with a plurality of spin clearance square strips surface respectively, a globular stirring spring surface is connected with a plurality of tensile balladeur train snap ring surfaces respectively, gomphosis response is revolved a board back cover surface and is connected with a double-deck cavity agitator surface of accuse temperature, it includes that main shaft revolves the card, draws arris frame, centrifugation spin ring rail and circuitous traveller to revolve the device, and a plurality of main shaft revolves a card surface and is revolved a card surface with a plurality of lift struts surface rotation cooperation respectively, a plurality of draw arris frame surface and is connected with a plurality of main shaft spin card surfaces respectively, a plurality of centrifugation spin ring rail surface is connected with a plurality of traction arris frame surfaces respectively, a plurality of circuitous traveller surface is with a plurality of centrifugation spin ring rail internal surface sliding fit respectively, material feeding device includes sealed feeding roof, dry charge square pipe, liquid leading-in side pipe, sealed choked flow and inlays platform, A compression folding clip chain, a turnover sealing block and a raw material weighing cup, wherein one surface of the sealed feeding top plate is connected with one surface of the temperature-control double-layer hollow stirring barrel, one surface of the dry material conveying square pipe is connected with one surface of the sealing feeding top plate, one surface of the liquid guiding square pipe is connected with one surface of the sealing feeding top plate, one surface of each of the sealing flow blocking embedded tables is connected with one surface of the sealing feeding top plate, one surface of each of the compression folding clamping chains is connected with one surface of each of the sealing flow blocking embedded tables, one surface of each of the turnover sealing blocks is connected with one surface of each of the compression folding clamping chains, one surface of each of the raw material weighing cups is connected with one surface of each of the turnover sealing blocks, each of the sensing devices comprises a temperature sensor and a concentration analysis plate, the peripheral side surface of the temperature sensor is connected with the inner surface of the temperature control double-layer hollow stirring barrel, and one surface of each of the concentration analysis plates is connected with one surface of the back cover of the embedded induction rotating plate.

Preferably, the supporting device further comprises a plurality of reinforcing ribs, one surface of each reinforcing rib is connected with one surface of each lifting support frame, the number of the lifting support frames is two, the lifting support frames are used for supporting and installing the rotary shaking devices and controlling the height of the rotary shaking devices, the number of the reinforcing ribs is two, the reinforcing ribs are used for reinforcing the connection of the lifting support frames and the base, and the base is a base body of all the devices.

Preferably, even sieve device still includes rose box and screening filter screen, rose box one surface is connected with gomphosis response spiral plate back cover one surface, screening filter screen one surface is connected with rose box one surface, wherein, spin clearance square strip is total two, and spin clearance square strip is used for driving the interior raw materials of spherical stirring spring spin clearance upper and lower lid simultaneously, and tensile balladeur train snap ring is total two, and tensile balladeur train snap ring is used for carrying out appropriate tensile compression so that the raw materials intensive mixing is even and difficult caking to spherical stirring spring.

Preferably, the rotary shaking device further comprises a plurality of embedded telescopic plugs and stud limiting snap rings, one surface of each embedded telescopic plug is respectively connected with one surface of each bypassing sliding stud, one surface of each stud limiting snap ring is respectively connected with one surface of each embedded telescopic plug, wherein, the total two of main shaft is blocked soon, the main shaft is blocked soon and is used for driving and pulls the arris frame and rotate, pull the arris frame total two, it is used for rotating ring rail transmission centrifugal force to the centrifugation to pull the arris frame, the centrifugation is rotated ring rail total two, the centrifugation is rotated ring rail and is used for providing the space of sliding for the traveller, the traveller is total four, the traveller is used for driving the flexible plug of gomphosis and rotates, the flexible plug of gomphosis is total two, the flexible plug of gomphosis is used for transmitting the revolving force, the spacing snap ring of stud is total four, the spacing snap ring of stud is used for fixing the flexible plug of gomphosis on the double-deck cavity agitator of accuse temperature and is convenient for biography power.

Preferably, material feeding unit is still including dividing liquid water conservancy diversion arc board and dividing the liquid deflector pipe, divide liquid water conservancy diversion arc board one surface and a leading-in side of liquid pipe surface connection, divide liquid deflector pipe one surface and a dry charge conveyer side pipe surface connection, wherein, sealed choked flow inlays the platform totally two, sealed choked flow inlays the platform and is used for the defeated material to finish the back and seal sealed feeding roof, the folding card chain of compression is total four, the folding card chain of compression is used for removing the upset seal block and inlays the platform with its chucking at sealed choked flow, the raw materials is weighed cup totally two, the raw materials is weighed the cup and is used for weighing the raw materials.

Preferably, the induction device further comprises two quality monitoring rings, wherein one surface of each of the two quality monitoring rings is connected with one surface of each of the raw material weighing cups, the two quality monitoring rings are used for weighing the quality of the raw materials, the two concentration analysis plates are used for detecting whether the concentration of the mixed milk tea reaches the standard or not.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses in, realize the accurate weighing of raw materials through the raw materials weighing cup, realize the raw materials quality monitoring through the quality monitoring ring, realize the traction seal of upset sealing block through the folding card chain of compression, realize the drier through drier conveyer side pipe and carry, through the leading-in of liquid leading-in side pipe realization solution, realize the reposition of redundant personnel through dividing liquid water conservancy diversion arc board, through dividing the liquid deflector pipe realize with the leading-in drier conveyer side pipe of solution, through sealed choked flow inlay the platform realize the complete sealing of the double-deck cavity agitator of accuse temperature, the even stirring of shaking after being convenient for.

2. The utility model discloses in, press from both sides the cover through heat preservation heating and realize solution constant temperature in the bucket, realize temperature monitoring in the bucket through the temperature-sensing ware, realize the tensile compression of globular stirring spring through tensile balladeur train snap ring, make the interior raw materials of bucket carry out intensive mixing, hit through globular stirring spring and beat down, realize the difficult caking of drier, it is more even to make the mixture, through the clearance of scraping soon of spin clearance square strip realization bucket interior upper and lower cover, the rotation of drawing the arris frame is realized blocking soon through the main shaft, the rotatory of circling round rail realization bypassing traveller slides through the centrifugation, carry out the gomphosis chucking through the flexible plug of gomphosis in the spacing snap ring of stud, it is rotatory to realize that the flexible plug of gomphosis is wrapped up in and is being held the double-deck cavity agitator of accuse temperature, make the irregular suppress stirring of globular stirring spring in the bucket, make raw materials intensive mixing.

3. The utility model discloses in, realize the monitoring of bucket interior milk tea concentration through the concentration analysis board, rotate the derivation that the board back cover realized milk tea through the gomphosis response, realize the abundant of bucket interior solution and scrape out through spin clearance square strip, realize the filtration of milk tea through the screening filter screen, make milk tea finished product taste more smooth, accept the box through the milk tea and realize that the milk tea after the mixing filters is stored.

Drawings

FIG. 1 is a schematic view of the overall external structure of a stirring device with a filtering structure for processing highland barley milk tea of the present invention;

FIG. 2 is a front view of the stirring device with a filtering structure for processing highland barley milk tea of the present invention;

FIG. 3 is a sectional view of the stirring device with a filtering structure for processing highland barley milk tea of the present invention shown in FIG. 2A-A;

fig. 4 is a sectional view of fig. 2B-B of the stirring device with a filtering structure for processing highland barley milk tea of the utility model.

In the figure: 100. a support device; 110. a base; 120. a lifting support frame; 130. reinforcing the ribs; 200. a screen homogenizing device; 210. the milk tea receiving box; 220. controlling the temperature of a double-layer hollow stirring barrel; 230. a heat preservation heating jacket; 240. spin cleaning the square strips; 250. stretching the carriage snap ring; 260. a spherical stirring spring; 270. embedding an induction rotary plate to seal the bottom; 280. a filter box; 290. screening a filter screen; 300. a rotary shaking device; 310. the main shaft is screwed and clamped; 320. a traction prism frame; 330. a centrifugal rotating ring rail; 340. bypassing the traveler; 350. embedding a telescopic plug; 360. a stud limit snap ring; 400. a feeding device; 410. sealing the feeding top plate; 420. a dry material conveying square pipe; 430. introducing liquid into the square pipe; 440. sealing the flow blocking embedding platform; 450. compressing the folding clip chain; 460. turning over the sealing block; 470. a raw material weighing cup; 480. a liquid separating and guiding arc plate; 490. a liquid separation guide plate pipe; 500. an induction device; 510. a temperature sensor; 520. concentration analysis plate; 530. and (5) quality monitoring loop.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-4, the present invention relates to a stirring device with a filtering structure for processing highland barley milk tea, comprising a supporting device 100, a uniform sieving device 200, a rotary shaking device 300, a feeding device 400 and an induction device 500, wherein the supporting device 100 comprises a base 110 and a plurality of lifting brackets 120, one surface of each lifting bracket 120 is connected with one surface of the base 110, the uniform sieving device 200 comprises a milk tea receiving box 210, a temperature-controlled double-layer hollow stirring barrel 220, a heat-preserving heating jacket 230, a self-rotating cleaning square bar 240, a stretching sliding frame clamping ring 250, a spherical stirring spring 260 and an embedded induction rotary plate back cover 270, one surface of the milk tea receiving box 210 is connected with one surface of the base 110, the milk tea receiving box 210 is hollow, the position of the temperature-controlled double-layer hollow stirring barrel 220 is adapted to the position of the milk tea receiving box 210, the circumferential side surface of the heat-preserving heating jacket 230 is connected with the inner surface of the temperature-controlled double-layer hollow stirring barrel 220, one surface of a plurality of spinning cleaning square strips 240 is respectively connected with one surface of a temperature control double-layer hollow stirring barrel 220, one surface of a plurality of stretching carriage snap rings 250 is respectively connected with one surface of a plurality of spinning cleaning square strips 240, one surface of a spherical stirring spring 260 is respectively connected with one surface of a plurality of stretching carriage snap rings 250, one surface of an embedded induction rotary plate back cover 270 is connected with one surface of the temperature control double-layer hollow stirring barrel 220, a rotary shaking device 300 comprises a spindle rotary clamp 310, a traction prismatic frame 320, a centrifugal rotary ring rail 330 and a winding sliding column 340, one surface of a plurality of spindle rotary clamps 310 is respectively matched with one surface of a plurality of lifting brackets 120 in a rotating way, one surface of a plurality of traction prismatic frames 320 is respectively connected with one surface of a plurality of spindle rotary clamps 310, one surface of a plurality of centrifugal rotary ring rails 330 is respectively connected with one surface of the traction prismatic frames 320, one surface of a plurality of winding sliding columns 340 is respectively matched with the inner surface of a plurality of centrifugal rotary ring rails 330 in a sliding way, the feeding device 400 comprises a sealed feeding top plate 410, a dry material conveying square tube 420, a liquid guiding square tube 430, a sealed flow blocking embedding platform 440, a compression folding clamping chain 450, a turning sealing block 460 and a raw material weighing cup 470, wherein one surface of the sealed feeding top plate 410 is connected with one surface of a temperature control double-layer hollow stirring barrel 220, one surface of the dry material conveying square tube 420 is connected with one surface of the sealed feeding top plate 410, one surface of the liquid guiding square tube 430 is connected with one surface of the sealed feeding top plate 410, one surface of a plurality of sealed flow blocking embedding platforms 440 are respectively connected with one surface of the sealed feeding top plate 410, one surface of a plurality of compression folding clamping chains 450 is respectively connected with one surface of a plurality of sealing flow blocking embedding platforms 440, one surface of a plurality of turning sealing blocks 460 is respectively connected with one surface of a plurality of compression folding clamping chains 450, one surface of a plurality of raw material weighing cups 470 is respectively connected with one surface of the turning sealing blocks 460, a plurality of sensing devices 500 comprise a temperature sensor 510 and a concentration analyzing plate 520, the peripheral side surface of the temperature sensor 510 is connected to the inner surface of the temperature-controlled double-layered hollow stirring barrel 220, and one surface of the concentration analyzing plates 520 is connected to one surface of the embedded sensing rotary plate back cover 270.

Referring to fig. 1-1, the supporting device 100 further includes two reinforcing ribs 130, one surface of each of the reinforcing ribs 130 is connected to one surface of each of the lifting brackets 120, the lifting brackets 120 are used for supporting and mounting the swing device 300 and controlling the height of the swing device, the number of the reinforcing ribs 130 is two, the reinforcing ribs 130 are used for reinforcing the connection between the lifting brackets 120 and the base 110, and the base 110 is a base body of all the devices.

Referring to fig. 1-3, the screen homogenizing device 200 further includes a filter box 280 and a screen mesh 290, wherein one surface of the filter box 280 is connected with one surface of the embedded induction rotary plate back cover 270, and one surface of the screen mesh 290 is connected with one surface of the filter box 280, wherein there are two spinning cleaning square bars 240, the spinning cleaning square bars 240 are used for driving the spherical stirring springs 260 to spin and simultaneously clean the raw materials in the upper cover and the lower cover, there are two stretching carriage snap rings 250, and the stretching carriage snap rings 250 are used for properly stretching and compressing the spherical stirring springs 260 so as to fully stir the raw materials uniformly and prevent the raw materials from caking.

Referring to fig. 1-1, the rotation device 300 further includes a plurality of engaging retractable plugs 350 and a plurality of stud-limiting snap rings 360, wherein a surface of each of the plurality of engaging retractable plugs 350 is connected to a surface of each of the plurality of orbiting sliding pillars 340, and a surface of each of the plurality of stud-limiting snap rings 360 is connected to a surface of each of the plurality of engaging retractable plugs 350, wherein there are two spindle rotation clips 310, the spindle rotation clips 310 are used for driving the traction prism frame 320 to rotate, there are two traction prism frames 320, the traction prism frame 320 is used for transmitting a centrifugal force to the centrifugal rotation rail 330, there are two centrifugal rotation rails 330, the centrifugal rotation rail 330 is used for providing a sliding space for the orbiting sliding pillars 340, there are four orbiting sliding pillars 340, the orbiting sliding pillars 340 are used for driving the engaging retractable plugs 350 to rotate, there are two engaging retractable plugs 350, the engaging retractable plugs 350 are used for transmitting a rotational force, there are four stud-limiting snap rings 360, and the stud-limiting snap rings 360 are used for fixing the engaging retractable plugs 350 on the double-layered hollow agitating barrel 220 for temperature control Force is transferred.

Referring to fig. 1-4, the feeding device 400 further includes a liquid-separating and guiding arc plate 480 and a liquid-separating and guiding plate pipe 490, wherein one surface of the liquid-separating and guiding arc plate 480 is connected with one surface of the liquid-guiding square pipe 430, and one surface of the liquid-separating and guiding plate pipe 490 is connected with one surface of the dry material conveying square pipe 420, wherein the number of the sealing and flow-blocking embedding platforms 440 is two, the sealing and flow-blocking embedding platforms 440 are used for sealing the sealing and feeding top plate 410 after the material conveying is completed, the number of the compression and folding clamp chains 450 is four, the compression and folding clamp chains 450 are used for moving the turnover sealing block 460 and clamping the turnover sealing block on the sealing and flow-blocking embedding platforms 440, the number of the raw material weighing cups 470 is two, and the raw material weighing cup 470 is used for weighing the raw material.

Referring to fig. 1-3, the sensing device 500 further includes two quality monitoring rings 530, and a surface of each of the quality monitoring rings 530 is connected to a surface of each of the raw material weighing cups 470, wherein the two quality monitoring rings 530 are used for weighing the raw materials, the two concentration analyzing plates 520 are used for detecting whether the concentration of the mixed milk tea reaches the standard or not, and the concentration analyzing plates 520 are used for detecting whether the concentration of the mixed milk tea reaches the standard or not.

The utility model discloses the theory of operation:

referring to fig. 1-4, the utility model relates to a tissue separation guider for clinical wound orthopedic surgery, wherein the model of a temperature sensor 510 is D6T-8L-09H, the raw material to be stirred is placed into a raw material weighing cup 470 for weighing before processing, a quality monitoring ring 530 monitors the quality of the raw material, when the required amount is reached, a compression folding card chain 450 is compressed and folded to pull an overturning sealing block 460 into a dry material conveying square pipe 420, at this time, the raw material in the cup falls into a temperature-controlled double-layer hollow stirring barrel 220 through the dry material conveying square pipe 420, the dry material is weighed firstly, then the solution is weighed, a part of the weighed solution is guided into the temperature-controlled double-layer hollow stirring barrel 220 through a liquid guiding square pipe 430, a part of the weighed solution is shunted by a liquid dividing guide arc plate 480 and guided into the dry material conveying square pipe 420 through a liquid dividing guide plate pipe 490, because of the impulsive force of the solution, the upset sealing block 460 that hovers in the pipe overturns, after overturning to certain angle, the card carries out further folding compression on the folding card chain 450 of compression, until upset sealing block 460 chucking imbeds sealed choked flow built-in table 440, make the double-deck cavity agitator 220 of accuse temperature totally sealed, through the washing of solution, the interior no longer residual raw materials of drier conveyer square tube 420.

After the material is delivered, the screen homogenizing device 200 and the rotary shaking device 300 are started simultaneously, the heat-insulating heating jacket 230 enables the solution in the temperature-controlled double-layer hollow stirring barrel 220 to keep the required temperature under the monitoring of the temperature sensor 510, the spherical stirring spring 260 is stretched and compressed under the traction of the stretching carriage clamping ring 250, so that the raw material in the barrel is fully stirred, the dry material is not easy to agglomerate under the impact of the spherical stirring spring 260, so that the mixing is more uniform, the self-spinning cleaning square bars 240 synchronously spin to drive the spherical stirring spring 260 to spin, meanwhile, the dry material of the upper cover and the lower cover in the barrel is scraped to the barrel for being mixed conveniently during the rotation, meanwhile, the embedded telescopic plug 350 is embedded and clamped in the plug limiting clamping ring 360, the spindle rotary clamp 310 rotates, the traction prismatic frame 320 embedded with the spindle rotary clamp rotates synchronously with the spindle rotary clamp, the centrifugal rotary ring rail 330 is pulled to rotate, the circumambulating sliding column 340 in the centrifugal rotary ring rail 330 drives the embedded telescopic plug 350 to rotate under the action of centrifugal force, the embedded telescopic plug 350 is wrapped around the temperature-controlled double-layer hollow stirring barrel 220 for rotation, so that the spherical stirring spring 260 is irregularly pressed and stirred in the barrel, and the raw materials are fully mixed.

A concentration analysis plate 520 is arranged on the embedded induction rotary plate back cover 270 at the bottom of the barrel, the concentration of milk tea in the barrel is detected all the time, after the milk tea is fully mixed, the milk tea concentration is monitored to reach the standard, the main shaft rotary clamp 310 completes the last rotation, the temperature-control double-layer hollow stirring barrel 220 is reset, the embedded rotary plate in the embedded induction rotary plate back cover 270 is opened, the milk tea in the barrel falls into the filter box 280, the spinning cleaning square strips 240 spin for one circle, the solution in the barrel is fully scraped out, the embedded induction rotary plate back cover 270 is reset and closed, the milk tea is filtered by the screening filter screen 290 at the bottom of the filter box 280, the finished milk tea tastes smoother, and the filtered milk tea is gathered into the milk tea receiving box 210 to complete the processing of uniform mixing and filtering.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a highland barley milk tea processing is with agitating unit who has filtration, includes strutting arrangement (100), even sieve device (200), shakes device (300), material feeding unit (400) and induction system (500) soon, its characterized in that: the supporting device (100) comprises a base (110) and lifting brackets (120), one surface of each lifting bracket (120) is connected with one surface of the base (110), the uniform sieving device (200) comprises a milk tea receiving box (210), a temperature-control double-layer hollow stirring barrel (220), a heat-preservation heating jacket (230), a self-rotating cleaning square strip (240), a stretching sliding frame clamping ring (250), a spherical stirring spring (260) and an embedded induction rotary plate back cover (270), one surface of the milk tea receiving box (210) is connected with one surface of the base (110), the milk tea receiving box (210) is of a hollow structure, the position of the temperature-control double-layer hollow stirring barrel (220) is matched with the position of the milk tea receiving box (210), the peripheral side surface of the heat-preservation heating jacket (230) is connected with the inner surface of the temperature-control double-layer hollow stirring barrel (220), one surface of each self-rotating cleaning square strip (240) is connected with one surface of the temperature-control double-layer hollow stirring barrel (220), one surface of each of the plurality of stretching carriage snap rings (250) is connected with one surface of each of the plurality of spinning cleaning square bars (240), one surface of each of the spherical stirring springs (260) is connected with one surface of each of the plurality of stretching carriage snap rings (250), one surface of each of the embedded induction rotating plate back covers (270) is connected with one surface of each of the temperature control double-layer hollow stirring barrels (220), each of the rotary shaking devices (300) comprises a main shaft rotary clamp (310), a traction prismatic frame (320), a centrifugal rotary ring rail (330) and a winding sliding column (340), one surface of each of the plurality of main shaft rotary clamps (310) is rotationally matched with one surface of each of the plurality of lifting support frames (120), one surface of each of the plurality of traction prismatic frames (320) is connected with one surface of the plurality of main shaft rotary clamps (310), one surface of each of the centrifugal rotary ring rail (330) is connected with one surface of the plurality of traction prismatic frames (320), one surface of the winding sliding column (340) is slidably matched with the inner surface of each of the plurality of centrifugal rotary ring rail (330), the feeding device (400) comprises a sealing feeding top plate (410), a dry material conveying square tube (420), a liquid guiding square tube (430), a sealing flow blocking embedding table (440), a compression folding clamping chain (450), an overturning sealing block (460) and a raw material weighing cup (470), wherein one surface of the sealing feeding top plate (410) is connected with one surface of a temperature control double-layer hollow stirring barrel (220), one surface of the dry material conveying square tube (420) is connected with one surface of the sealing feeding top plate (410), one surface of the liquid guiding square tube (430) is connected with one surface of the sealing feeding top plate (410), one surfaces of a plurality of the sealing flow blocking embedding tables (440) are respectively connected with one surface of the sealing feeding top plate (410), one surfaces of a plurality of the compression folding clamping chains (450) are respectively connected with one surface of the plurality of the sealing flow blocking embedding tables (440), one surfaces of the overturning sealing blocks (460) are respectively connected with one surface of the plurality of the compression folding clamping chains (450), the surface of a plurality of raw material weighing cups (470) is respectively connected with the surface of a turning sealing block (460), the sensing device (500) comprises a temperature sensor (510) and a concentration analysis plate (520), the peripheral side surface of the temperature sensor (510) is connected with the inner surface of a temperature-control double-layer hollow stirring barrel (220), and the surface of the concentration analysis plate (520) is respectively connected with the surface of an embedded sensing rotary plate sealing bottom (270).

2. The stirring device with the filtering structure for processing the highland barley milk tea according to claim 1, which is characterized in that: the supporting device (100) further comprises reinforcing ribs (130), and one surface of each reinforcing rib (130) is connected with one surface of each lifting support frame (120).

3. The stirring device with the filtering structure for processing the highland barley milk tea according to claim 1, which is characterized in that: the uniform screen device (200) further comprises a filter box (280) and a screening filter screen (290), one surface of the filter box (280) is connected with one surface of the embedded induction rotary plate back cover (270), and one surface of the screening filter screen (290) is connected with one surface of the filter box (280).

4. The stirring device with the filtering structure for processing the highland barley milk tea according to claim 1, which is characterized in that: the rotary shaking device (300) further comprises an embedded telescopic plug (350) and a bolt limiting snap ring (360), wherein one surface of the embedded telescopic plug (350) is connected with one surface of a plurality of bypassing sliding columns (340) respectively, and one surface of the bolt limiting snap ring (360) is connected with one surface of the embedded telescopic plug (350) respectively.

5. The stirring device with the filtering structure for processing the highland barley milk tea according to claim 1, which is characterized in that: the feeding device (400) further comprises a liquid-separating and flow-guiding arc plate (480) and a liquid-separating and flow-guiding plate pipe (490), wherein one surface of the liquid-separating and flow-guiding arc plate (480) is connected with one surface of a liquid-guiding square pipe (430), and one surface of the liquid-separating and flow-guiding plate pipe (490) is connected with one surface of a dry material conveying square pipe (420).

6. The stirring device with the filtering structure for processing the highland barley milk tea according to claim 1, which is characterized in that: the induction device (500) further comprises quality monitoring rings (530), and one surface of each of the quality monitoring rings (530) is connected with one surface of each of the raw material weighing cups (470).

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