CN215586719U - Instant tea powder extraction device for milk tea - Google Patents

Abstract

The utility model relates to an extraction element of instant tea powder for milk tea, belong to tea powder processing's technical field, it is including drawing the case, draw the top surface of case and seted up the drain hole, it is used for carrying out the hank-cutting subassembly of hank-cutting with tealeaves to draw the incasement, it has set firmly first filter plate to draw the incasement, be equipped with on the first filter plate and be used for smashing the subassembly that rolls to the powder with tealeaves that finishes to draw the incasement, it is used for driving the circulation subassembly that rolls the subassembly top to get back to the tealeaves that rolls to draw the incasement to be equipped with, draw and seted up the waste gate on the circumference outer wall of case, it has the waste door to articulate in the waste gate, draw the incasement to be equipped with the second filter plate, be equipped with the vibration subassembly that is used for driving the vibration of second filter plate between second filter plate and the extraction case, the bottom of drawing the case is equipped with the discharge gate. This application has the automatic extraction that realizes instant tea powder for the milk tea, improves the grinding homogeneity of tea powder to improve the effect of the extraction efficiency of tea powder.

Description

Instant tea powder extraction device for milk tea

Technical Field

The utility model relates to a technical field of tea powder processing especially relates to an extraction element of instant tea powder for milk tea.

Background

At present, milk tea is one of the favorite beverages of people all over the country, and the main raw materials of the milk tea are milk, tea powder, saccharin (sweet taste) and salt (salty taste), so that the extraction of the tea powder becomes one of the emerging industries at present.

Present tea powder extraction mode is placed in the container for the tealeaves that dries, and the staff grinds tealeaves, when tealeaves is most developed for powdered, the staff places the collecting box on the ground, uses the filter to filter the tealeaves after will grinding.

To above-mentioned correlation technique, the inventor thinks that there is when extracting tea powder, and artifical the grinding is extravagant manpower simultaneously, and artifical the grinding causes the tea powder size inhomogeneous, and then causes the tea powder to extract the defect that the efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to realize the automatic extraction of instant tea powder for the milk tea, improve the grinding homogeneity of tea powder to improve the extraction efficiency of tea powder, this application provides an extraction element of instant tea powder for the milk tea.

The application provides a milk tea is with extraction element of instant tea powder adopts following technical scheme:

an extraction device of instant tea powder for milk tea comprises an extraction box, a discharge hole is formed in the top surface of the extraction box, an mincing component for mincing and cutting tea is arranged in the extraction box, a first filter plate is fixedly arranged in the extraction box, the first filter plate is positioned below the mincing component, a smashing component for smashing tea is arranged on the first filter plate, a rolling component for rolling the smashed tea to powder is arranged in the extraction box, the rolling component is positioned below the first filter plate, a circulating component for driving the rolled tea to return to the position above the rolling component is arranged in the extraction box, a waste material hole is formed in the circumferential outer wall of the extraction box, a waste material door is hinged in the waste material hole, a second filter plate is arranged in the extraction box, the waste material hole is positioned between the circulating component and the second filter plate, and a vibration component for driving the second filter plate to vibrate is arranged between the second filter plate and the extraction box, the bottom of drawing the case is equipped with the discharge gate.

By adopting the technical scheme, when tea powder needs to be extracted, a worker places tea leaves into an extraction box through a discharge hole, an mincing component minces and cuts the whole tea leaves into fragment tea leaves, the tea leaves after the mincing and cutting are smashed by a smashing component, the smashed tea leaves pass through a first filter plate, the smashing component continuously smashes unbroken tea leaves until all the tea leaves are smashed and pass through the first filter plate, the smashing component grinds the smashed tea leaves, a circulating component drives the grinded tea leaves to return to the upper part of the grinding component, the grinding component repeatedly grinds the tea leaves, when the tea leaves are powder, the circulating component drives the tea leaves to fall onto a second filter plate, a vibrating component drives the second filter plate to vibrate, the second filter plate screens the tea leaves on the upper surface of the second filter plate, the tea leaves pass through the second filter plate and fall to a discharge hole, impurities in the tea powder are left on the upper surface of the second filter plate, and the tea powder passes through the discharge hole and falls into a vessel for collecting the tea powder, after tea powder draws and finishes, open the waste door, the staff collects the impurity clearance of second filter plate upper surface, has realized that the milk tea rolls the subassembly simultaneously and rolls tealeaves repeatedly with the automatic extraction of instant tea powder, has improved the grinding homogeneity of tea powder, and then has improved the extraction efficiency of tea powder.

Optionally, the mincing component includes the mincing motor, the mincing gear, the mincing pivot, the mincing blade, the mincing gear all has two with the mincing pivot, two mincing gear meshing, two mincing pivot circumference inner walls looks butt, the mincing pivot rotates to be connected and draws the incasement, the mincing gear is coaxial to be set firmly on the circumference outer wall of mincing pivot, the mincing blade sets firmly on the circumference lateral wall of mincing pivot, the mincing motor sets firmly on the circumference outer wall of drawing the case, the output shaft of mincing motor and one of them mincing pivot are coaxial to be linked firmly.

Through adopting above-mentioned technical scheme, after tealeaves got into and draws the case, start the stranding motor, the output shaft of stranding motor drives a stranding pivot and a stranding gear rotation, the stranding pivot with another stranding gear meshing and drive another stranding gear and another stranding pivot rotation, two stranding blades in the stranding pivot will fall to the tealeaves strand of the two intersection line department and cut into the fragment for tealeaves carries out first step stranding, has lightened the work burden of smashing the subassembly, and then has improved the extraction efficiency of tealeaves.

Optionally, smash the subassembly including smashing the motor, smashing the axle, smashing the blade, smash the motor and set firmly in the lower surface of first filter plate, smash the vertical upper surface that sets up in first filter plate of axle, smash the axle and pass first filter plate and with smash the coaxial link connection of output shaft of motor, smash the blade and set firmly on smashing the circumference lateral wall of axle.

Through adopting above-mentioned technical scheme, the tealeaves that the hank was cut and is finished falls to first filter plate upper surface, starts to smash the motor, smashes the output shaft of motor and drives through smashing the axle and smash the blade rotation, smashes the blade and smashes tealeaves to the graininess, and graininess tealeaves passes first filter plate and drifts downwards for tealeaves carries out the second step and smashes, has alleviateed the work burden that rolls the subassembly, and then has improved the extraction efficiency of tealeaves.

Optionally, the subassembly that rolls includes rolls the motor, rolls the gear, rolls the pivot, rolls the gear and rolls the pivot and all have two, two and roll gear engagement, two roll pivot circumference inner wall looks butt, roll the pivot and rotate to be connected and draw the incasement, roll the gear coaxial set firmly on rolling the circumference outer wall of pivot, roll the motor and set firmly on drawing the circumference outer wall of case, roll the output shaft of motor and one of them and roll the coaxial link firmly of pivot.

Through adopting above-mentioned technical scheme, the start rolls the motor, the output shaft that rolls the motor drives one and rolls pivot and one and roll gear revolve, roll pivot and another and roll gear mesh and drive another and roll the pivot rotation with another, two roll the pivot and will fall to the tealeaves of the two intersection line department and roll, roll the pivot and roll tealeaves for the powder, realized that the automatic preparation of tea powder draws, need not manually to roll, and then improved the extraction efficiency of tea powder.

Optionally, draw and seted up the pull mouth on the circumference outer wall of case, the pull mouth is located the rolling component below, and the circulation subassembly includes pull board, fan, circulation channel, the pull board slides and connects in the pull mouth, and the circumference lateral wall of pull board offsets tightly with the circumference inner wall of drawing the case, and the fan sets firmly on the lateral wall of drawing the case, and the fan sets up with circulation channel relatively, and circulation channel's both ends all are linked together with drawing incasement portion, and circulation channel's last port is located first filter plate and rolls between the subassembly, and circulation channel's lower port is located between rolling component and the pull board.

Through adopting above-mentioned technical scheme, the tealeaves that finishes of rolling falls to the pull board on, start the fan, the fan will fall to the tealeaves on the pull board by circulating channel blow to rolling the subassembly top, rolling the subassembly and repeatedly rolling tealeaves, when the tealeaves that falls to pull board top all rolls for tea powder, the staff takes out the pull board by the pull mouth, tea powder on the pull board wafts downwards, the circulation that has realized tealeaves rolls the grinding, the grinding homogeneity of tea powder has been improved, the extraction efficiency of tea powder has further been improved.

Optionally, a drawing locking block is fixedly arranged on the circumferential outer wall of the extraction box, and a drawing locking ring in interference fit with the drawing locking block is hinged to the outer wall of the drawing plate.

Through adopting above-mentioned technical scheme, after the tea powder on the pull board all wafts downwards, the staff pushes the pull board and supports tightly to the inner wall of pull board and extraction case, and on pull catch straining to the pull locking piece, pull catch and pull locking piece interference fit have realized the tea powder and have drawed the fixed of in-process pull board, and then have improved the tea powder and have drawed the job stabilization nature of in-process circulation subassembly.

Optionally, the vibration subassembly includes vibrating motor, fixed plate, vibrating spring, the fixed plate has a plurality ofly, and vibrating spring has a plurality ofly, vibrating motor sets firmly on the second filter plate, and the fixed plate sets firmly on drawing the circumference inner wall of case, and the fixed plate is located the below of second filter plate, and vibrating spring's top sets firmly on the second filter plate, and vibrating spring's bottom sets firmly on the fixed plate.

Through adopting above-mentioned technical scheme, tea powder on the pull board wafts to the upper surface of second filter plate, start vibrating motor, vibrating motor drives the vibration of second filter plate, the second filter plate has realized the cushioning modulation of its position through the spring, the tea powder of second filter plate upper surface passes the second filter plate and wafts to the discharge gate, impurity in the tea powder stops at the upper surface of second filter plate, the tea powder passes the discharge gate and falls to the household utensils of collecting the tea powder in, after the tea powder draws and finishes, open the waste door, the staff is collected the impurity clearance of second filter plate upper surface, the tea powder has realized automatic filtration through the second filter plate, need not manual filtration, and then the extraction efficiency of tea powder has been improved.

Optionally, a material collecting shell is fixedly arranged at the discharge port of the extraction box, an upper opening and a lower opening of the material collecting shell are arranged, and the lower opening of the material collecting shell is smaller than the upper opening of the material collecting shell.

Through adopting above-mentioned technical scheme, tea powder passes the second filter plate and wafts towards the discharge gate, and the shell of gathering materials is concentrated with the motion route of tea powder, and tea powder falls to the household utensils of collecting tea powder through the under shed of the shell of gathering materials, and the shell of gathering materials has reduced the tea powder waste that the tea powder in-process probably caused that wafts, and then has improved the collection efficiency of tea powder.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the tea leaf is minced by the mincing component, the grinding component is used for grinding the smashed tea leaf, the circulating component is used for driving the ground tea leaf to return to the position above the grinding component, the grinding component is used for repeatedly grinding the tea leaf, and the vibrating component is used for driving the second filter plate to screen the tea powder on the upper surface of the second filter plate, so that the automatic extraction of the instant tea powder for the milk tea is realized, the grinding uniformity of the tea powder is improved, and the extraction efficiency of the tea powder is further improved;

2. the smashing motor is started, an output shaft of the smashing motor drives the smashing blade to rotate through the smashing shaft, the smashing blade smashes the tea leaves into particles, and the particles of the tea leaves downwards fall through the first filter plate, so that the tea leaves are smashed in the second step, and the extraction efficiency of the tea leaves is improved;

3. start the fan, the fan will fall to the tealeaves on the pull board by circulating channel blow to rolling the subassembly top, roll the subassembly and carry out repetition with tealeaves and roll, when tealeaves all rolled for tea powder, the staff takes the pull board out, has improved the grinding homogeneity of tea powder, has further improved the extraction efficiency of tea powder.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a cross-sectional view of an embodiment of the present application;

fig. 3 is a schematic view showing the construction of the mashing assembly.

In the figure, 1, an extraction box; 11. a discharging port; 111. discharging a shell; 12. a first filter plate; 13. drawing the opening; 14. pulling the locking block; 15. a waste material port; 151. a waste gate; 152. a scrap lock ring; 153. a waste lock block; 16. a second filter plate; 17. a discharge port; 18. an aggregate shell; 19. a strut; 2. a stranding assembly; 21. a twisting and cutting motor; 22. a stranding gear; 23. twisting and cutting the rotating shaft; 24. a mincing blade; 3. a breaking up assembly; 31. breaking a motor; 32. breaking the shaft; 33. crushing the blade; 4. rolling the component; 41. rolling a motor; 42. rolling the gear; 43. rolling the rotating shaft; 5. a circulation component; 51. a drawing plate; 511. drawing the lock ring; 52. a fan; 53. a circulation channel; 6. a vibrating assembly; 61. a vibration motor; 62. a fixing plate; 63. a vibrating spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses instant tea powder's extraction element for milk tea.

Referring to fig. 1 and 2, an extraction element of instant tea powder for milk tea is including drawing case 1, draw and seted up drain hole 11 on the outer roof of case 1, it is equipped with the hank cutting subassembly 2 that is used for mincing tealeaves into the piece to draw in case 1, draw the circumference inner wall of case 1 and go up the level and set firmly first filter plate 12, be equipped with on the first filter plate 12 and be used for smashing into the subassembly 3 that smashes the tealeaves that finishes the hank cutting of granule, it is located hank cutting subassembly 2 below to smash subassembly 3, it is equipped with the subassembly 4 that rolls that is used for rolling the tealeaves that smashes into the powder to draw in case 1, it is located hank cutting subassembly 2 below to roll subassembly 4, it is equipped with the circulation subassembly 5 that is used for driving the tealeaves that finishes to roll to get back to the subassembly 4 top to draw in case 1, circulation subassembly 5 is located and rolls subassembly 4 below.

Refer to fig. 1 and 2, draw the circumference outer wall of case 1 and go up the level and seted up waste material mouth 15, waste material mouth 15 is located circulation subassembly 5 below, it has waste material door 151 to articulate in the waste material mouth 15, draw the circumference inner wall of case 1 and go up the level and be provided with second filter plate 16, second filter plate 16 is located waste material mouth 15 below, second filter plate 16 with draw and be equipped with the vibration subassembly 6 that is used for driving the vibration of second filter plate 16 between the case 1, draw the bottom of case 1 and seted up discharge gate 17, the bottom of drawing case 1 is vertical to have set firmly a plurality of branches 19, draw the bottom of case 1 and the bottom of branch 19 and have the interval.

When tea powder needs to be extracted, tea leaves are placed into the extraction box 1 through the discharge hole 11, a worker places a vessel for collecting the tea powder below the discharge hole 17, the tea leaves entering the extraction box 1 are chopped into fragments by the chopping component 2, the tea leaves fall down, the tea leaves chopped into fragments are smashed into particles by the smashing component 3, the granular tea leaves pass through the first filter plate 12 and fall towards the rolling component 4, the rolling component 4 rolls the tea leaves, the tea leaves fall down, the circulating component 5 drives the rolled tea leaves to return to the position above the rolling component 4, the rolling component 4 rolls the tea leaves again, when the tea leaves in the extraction box 1 are rolled into powder, the tea powder falls onto the upper surface of the second filter plate 16, the vibrating component 6 drives the second filter plate 16 to vibrate, the tea powder on the upper surface of the second filter plate 16 passes through the second filter plate 16 and falls into the vessel for collecting the tea powder towards the discharge hole 17, and impurities in the tea powder stay on the upper surface of the second filter plate 16, open waste door 151, the clearance is collected with the impurity of second filter plate 16 upper surface to the staff, has realized the automatic of instant tea powder for the milk tea and has drawed, has improved the grinding homogeneity of tea powder simultaneously, and then has improved the extraction efficiency of tea powder.

Referring to fig. 2 and 3, the portion of the extraction box 1 provided with the mincing component 2 is cylindrical, the mincing component 2 comprises a mincing motor 21 fixedly arranged on the circumferential outer wall of the extraction box 1, two mincing rotating shafts 23 rotatably connected to the opposite inner walls of the extraction box 1, two mincing gears 22 coaxially and fixedly arranged with the two mincing rotating shafts 23 respectively, and mincing blades 24 uniformly and fixedly arranged on the circumferential side walls of the mincing rotating shafts 23, the mincing rotating shafts 23 are horizontally arranged, the mincing motor 21 is coaxially and fixedly connected with one mincing rotating shaft 23, the mincing blade 24 on one mincing rotating shaft 23 is abutted against the circumferential inner wall of the other mincing rotating shaft 23, and the two mincing gears 22 are meshed with each other.

After the tea leaves enter the extraction box 1, the mincing motor 21 is started, the mincing motor 21 drives one mincing rotating shaft 23 and one mincing gear 22 to rotate, one mincing gear 22 drives the other mincing gear 22 to rotate, the other mincing gear 22 drives the other mincing rotating shaft 23 to rotate, and the mincing blades 24 mince the tea leaves into fragments along the butt positions of the two mincing rotating shafts 23, so that the automatic mincing of the tea leaves is realized, and the extraction efficiency of the tea powder is further improved.

Referring to fig. 2 and 3, the breaking assembly 3 includes a breaking motor 31 fixed on the lower surface of the first filter plate 12, a breaking shaft 32 coaxially and fixedly connected to an output shaft of the breaking motor 31 and vertically disposed, and a breaking blade 33 fixed on a circumferential side wall of the breaking shaft 32, wherein a bottom end of the breaking blade 33 abuts against an upper surface of the first filter plate 12.

After the tea leaves are twisted and cut, the tea leaves fall onto the upper surface of the first filter plate 12, the smashing motor 31 is started, the output shaft of the smashing motor 31 drives the smashing shaft 32 to rotate, the smashing shaft 32 drives the smashing blade 33 to rotate, the smashing blade 33 smashes the tea leaves on the upper surface of the first filter plate 12 into particles, the smashed tea leaves float downwards through the first filter plate 12, the automatic smashing of the tea leaves is achieved, the smashing component 3 smashes the tea leaves into particles, and therefore the extraction efficiency of the tea leaves is improved.

Referring to fig. 2 and 3, rolling subassembly 4 is including setting firmly in extracting the motor 41 that rolls on case 1 circumference outer wall, two all rotate to connect and roll pivot 43 on extracting the relative inner wall of case 1, two respectively with two roll pivot 43 coaxial gear 42 that roll that sets firmly, roll pivot 43 level setting, roll motor 41 and one roll pivot 43 coaxial link firmly, two roll pivot 43 circumference inner wall looks butt, two roll gear 42 intermeshing.

Tealeaves is smashed and is fallen to rolling 4 tops of subassembly after becoming the granule, the start rolls motor 41, it drives one and rolls pivot 43 and one and rolls gear 42 and rotate to roll motor 41, one rolls gear 42 and drives another and rolls gear 42 and rotate, another rolls gear 42 and drives another and rolls pivot 43 and rotate, two roll pivot 43 and roll tealeaves along the two butt department for the powder, the automatic rolling that has realized tealeaves is last, need not to roll by hand, and then the extraction efficiency of tea powder has been improved.

Referring to fig. 1 and 2, a drawing opening 13 is horizontally formed in the circumferential outer wall of the extraction box 1, the drawing opening 13 is located between the rolling component 4 and the second filter plate 16, the circulation component 5 includes a drawing plate 51 which is connected in the drawing opening 13 in a sliding manner and is horizontally arranged, a fan 52 which is fixedly arranged on one side of the extraction box 1, and a circulation channel 53 which is fixedly arranged on the circumferential outer wall of the extraction box 1 and is communicated with the extraction box 1 at two ends, the fan 52 and the circulation channel 53 are oppositely arranged, the lower port of the circulation channel 53 and the fan 52 are both located between the rolling component 4 and the drawing plate 51, the upper port of the circulation channel 53 is located above the rolling component 4, and the circumferential side wall of the drawing plate 51 is abutted against the circumferential inner wall of the extraction box 1; the outer wall of the drawing plate 51 is hinged with a drawing lock ring 511, and the outer wall of the circumference of the extraction box 1 is fixedly provided with a drawing lock block 14 in interference fit with the drawing lock ring 511.

Draw catch 511 straining is in draw catch 14 under operating condition, when the tealeaves after rolling falls to the pull board 51 on, start fan 52, fan 52 blows tealeaves to rolling 4 tops through circulation channel 53, rolling 4 pieces of subassembly rolls tealeaves once more, when tealeaves rolls to powdered completely, close fan 52, staff cancel the lock state of draw catch 511, pull board 51 passes and draws mouth 13 outwards to pull out, the tea powder on the pull board 51 is floated downwards, the circulation that has realized tealeaves rolls the grinding, the grinding homogeneity of tea powder has been improved, the extraction efficiency of tea powder has further been improved.

Referring to fig. 1 and 2, the vibration assembly 6 includes a vibration motor 61 fixed on the lower surface of the second filter plate 16, two fixing plates 62 horizontally fixed on the opposite inner walls of the extraction tank 1, and a plurality of vibration springs 63 fixed between the fixing plates 62 and the vibration motor 61, wherein the fixing plates 62 are located below the vibration motor 61, the top ends of the vibration springs 63 are fixedly connected with the second filter plate 16, and the bottom ends of the vibration springs 63 are fixedly connected with the fixing plates 62; articulated on the waste door 151 have waste material catch ring 152, set firmly on the circumference outer wall that draws case 1 with waste material catch ring 152 interference fit's waste material locking piece 153.

Waste material catch ring 152 straining is in waste material catch 153 under operating condition, waste material door 151 is in the closed condition, after tea powder drifts to second filter plate 16 upper surface, start vibrating motor 61, vibrating motor 61 drives second filter plate 16 vibration, second filter plate 16 realizes elastic buffer through vibrating spring 63, the tea powder of second filter plate 16 upper surface passes second filter plate 16 and drifts to the household utensils that hold tea powder by discharge gate 17, impurity in the tea powder stays to second filter plate 16 upper surface, the lock-up state of staff cancellation waste material catch ring 152, open waste material door 151 and collect the clearance to the impurity of second filter plate 16 upper surface, the automatic filtration of tea powder has been realized, need not artifical the filtration, and then the filtration efficiency of tea powder has been improved.

Referring to fig. 1, a feeding hole of an extraction box 1 is fixedly provided with a feeding shell 111, the feeding shell 111 is provided with an upper opening and a lower opening, the feeding hole is communicated with the lower opening of the feeding shell 111, and the lower opening of the feeding shell 111 is smaller than the upper opening thereof; the discharge port 17 of the extraction box 1 is fixedly provided with an aggregate shell 18, the upper opening and the lower opening of the aggregate shell 18 are arranged, the material handling port is communicated with the upper opening of the aggregate shell 18, and the upper opening of the aggregate shell 18 is larger than the lower opening thereof.

During feeding, the tea leaves are placed into the placing shell 111 by the worker, so that the probability that the tea leaves are likely to be scattered on the outer top wall of the extraction box 1 during placing is reduced, and the placing efficiency is improved; during the ejection of compact, the shell 18 that gathers materials concentrates the motion route of tea powder, has reduced the tea powder waste that the tea powder drifted away the in-process and probably caused, and then has improved the collection efficiency of tea powder.

The implementation principle of the extraction element of instant tea powder for milk tea of the embodiment of this application is: when tea powder needs to be extracted, a worker puts tea leaves into the discharging shell 111, the tea leaves in the discharging shell 111 pass through the discharging hole 11 to enter the extraction box 1, and the worker puts a vessel for collecting tea powder below the discharging hole 17; starting the mincing motor 21, driving a mincing rotating shaft 23 and a mincing gear 22 to rotate by the mincing motor 21, driving the other mincing gear 22 to rotate by one mincing gear 22, driving the other mincing rotating shaft 23 to rotate by the other mincing gear 22, and mincing the tea leaves into fragments along the butt joint of the two mincing rotating shafts 23 by the mincing blade 24; the tea leaves fall onto the upper surface of the first filter plate 12, the breaking motor 31 is started, the output shaft of the breaking motor 31 drives the breaking shaft 32 to rotate, the breaking shaft 32 drives the breaking blade 33 to rotate, the breaking blade 33 breaks the tea leaves on the upper surface of the first filter plate 12 into particles, and the broken tea leaves fall downwards through the first filter plate 12.

Starting the rolling motor 41, wherein the rolling motor 41 drives one rolling rotating shaft 43 and one rolling gear 42 to rotate, one rolling gear 42 drives the other rolling gear 42 to rotate, the other rolling gear 42 drives the other rolling rotating shaft 43 to rotate, and the two rolling rotating shafts 43 roll the tea leaves along the abutted positions of the two rolling rotating shafts; when tealeaves falls to pull board 51 on, start fan 52, fan 52 blows tealeaves to rolling component 4 top through circulation channel 53, and rolling component 4 rolls tealeaves once more, rolls to powdered time when tealeaves completely, closes fan 52, and staff cancels the lock state of pull catch 511, and pull board 51 passes pull mouth 13 and outwards pulls out, and the tea powder on the pull board 51 is floated downwards.

Tea powder drifts to second filter plate 16 upper surface, start vibrating motor 61, vibrating motor 61 drives second filter plate 16 vibration, second filter plate 16 passes through vibrating spring 63 and realizes elastic buffer, the tea powder of second filter plate 16 upper surface passes second filter plate 16 and drifts downwards, the tea powder is drifted to the household utensils that hold tea powder by the lower port that discharge gate 17 passed aggregate shell 18, impurity in the tea powder stays to second filter plate 16 upper surface, staff cancels the lock state of waste material catch 152, open waste material door 151 and collect the clearance to the impurity of second filter plate 16 upper surface, the automatic extraction of instant tea powder for the milk tea has been realized, the grinding homogeneity of tea powder has been improved simultaneously, and then the extraction efficiency of tea powder has been improved.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an extraction element of instant tea powder for milk tea which characterized in that: comprises an extraction box (1), a discharge hole (11) is arranged on the top surface of the extraction box (1), a chopping component (2) for chopping tea is arranged in the extraction box (1), a first filter plate (12) is fixedly arranged in the extraction box (1), the first filter plate (12) is positioned below the chopping component (2), a smashing component (3) for smashing tea is arranged on the first filter plate (12), a rolling component (4) for rolling the smashed tea to powder is arranged in the extraction box (1), the rolling component (4) is positioned below the first filter plate (12), a circulating component (5) for driving the rolled tea to return to the upper part of the rolling component (4) is arranged in the extraction box (1), the circulating component (5) is positioned below the rolling component (4), a waste hole (15) is arranged on the circumferential outer wall of the extraction box (1), and a waste gate (151) is hinged in the waste hole (15), draw and be equipped with second filter plate (16) in case (1), waste material mouth (15) are located between circulation subassembly (5) and second filter plate (16), are equipped with vibration subassembly (6) that are used for driving second filter plate (16) vibration between second filter plate (16) and draw case (1), draw the bottom of case (1) and be equipped with discharge gate (17).

2. The extraction device of instant tea powder for milk tea according to claim 1, characterized in that: the utility model discloses a case (1) is drawed to strand components (2) including strand motor (21), strand gear (22), strand pivot (23), strand blade (24), strand gear (22) all have two with strand pivot (23), two strand gears (22) meshing, two strand pivot (23) circumference inner wall looks butt, strand pivot (23) rotate to be connected in drawing case (1), strand gear (22) are coaxial to be set firmly on the circumference outer wall of strand pivot (23), strand blade (24) set firmly on the circumference lateral wall of strand pivot (23), strand motor (21) set firmly on the circumference outer wall of drawing case (1), the output shaft of strand motor (21) and one of them strand pivot (23) are coaxial to be linked firmly.

3. The extraction device of instant tea powder for milk tea according to claim 1, characterized in that: smash subassembly (3) including smashing motor (31), smashing axle (32), smashing blade (33), smash motor (31) and set firmly in the lower surface of first filter plate (12), smash axle (32) and vertically set up in the upper surface of first filter plate (12), smash axle (32) and pass first filter plate (12) and with smash the coaxial link connection of output shaft of motor (31), smash blade (33) and set firmly on the circumference lateral wall of smashing axle (32).

4. The extraction device of instant tea powder for milk tea according to claim 1, characterized in that: roll subassembly (4) including rolling motor (41), roll gear (42), roll pivot (43), roll gear (42) and roll pivot (43) and all have two, two roll gear (42) meshing, two roll pivot (43) circumference inner wall looks butt, roll pivot (43) and rotate to be connected in drawing case (1), roll gear (42) coaxial set firmly on the circumference outer wall that rolls pivot (43), roll motor (41) and set firmly on the circumference outer wall that draws case (1), the output shaft that rolls motor (41) and one of them roll pivot (43) coaxial link firmly.

5. The extraction device of instant tea powder for milk tea according to claim 1, characterized in that: draw and seted up pull mouth (13) on the circumference outer wall of case (1), pull mouth (13) are located rolling component (4) below, and circulation subassembly (5) are including pull board (51), fan (52), circulation channel (53), pull board (51) slide and connect in pull mouth (13), and the circumference lateral wall of pull board (51) offsets tightly with the circumference inner wall of drawing case (1), and fan (52) set firmly on the lateral wall of drawing case (1), and fan (52) set up with circulation channel (53) relatively, and the both ends of circulation channel (53) all are linked together with drawing case (1) inside, and the last port of circulation channel (53) is located between first filter plate (12) and rolling component (4), and the lower port of circulation channel (53) is located between rolling component (4) and pull board (51).

6. The extraction device of instant tea powder for milk tea according to claim 5, characterized in that: the drawing box is characterized in that a drawing locking block (14) is fixedly arranged on the circumferential outer wall of the drawing box (1), and a drawing locking ring (511) in interference fit with the drawing locking block (14) is hinged to the outer wall of the drawing plate (51).

7. The extraction device of instant tea powder for milk tea according to claim 1, characterized in that: vibration subassembly (6) are including vibrating motor (61), fixed plate (62), vibrating spring (63), fixed plate (62) have a plurality ofly, and vibrating spring (63) have a plurality ofly, vibrating motor (61) set firmly on second filter plate (16), and fixed plate (62) set firmly on the circumference inner wall of drawing case (1), and fixed plate (62) are located the below of second filter plate (16), and the top of vibrating spring (63) sets firmly on second filter plate (16), and the bottom of vibrating spring (63) sets firmly on fixed plate (62).

8. The extraction device of instant tea powder for milk tea according to claim 1, characterized in that: an aggregate shell (18) is fixedly arranged at a discharge port (17) of the extraction box (1), an upper opening and a lower opening of the aggregate shell (18) are arranged, and the lower opening of the aggregate shell (18) is smaller than the upper opening of the aggregate shell (18).

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