CN211357821U

CN211357821U - Celestial grass liquid extraction element

Info

Publication number: CN211357821U
Application number: CN201922243458.0U
Authority: CN
Inventors: 蔡锦祥; 蔡锦森; 蔡东孟
Original assignee: NANAN CITY GREEN BIOGAS TECHNOLOGY DEVELOPMENT AND RESEARCH INSTITUTE
Current assignee: NANAN CITY GREEN BIOGAS TECHNOLOGY DEVELOPMENT AND RESEARCH INSTITUTE
Priority date: 2019-12-12
Filing date: 2019-12-12
Publication date: 2020-08-28
Anticipated expiration: 2029-12-12

Abstract

The utility model discloses a celestial grass liquid extraction element, including urceolus, drive screw and water tank, drive screw locates the holding intracavity, and drive screw is equipped with first pay-off section, first dispersion section, second pay-off section, grinding section, third pay-off section, second dispersion section and discharge zone along self length direction in order; the water tank is annularly arranged on the outer peripheral wall of the outer barrel, and the water tank and the outer barrel jointly enclose a sealed water storage cavity; the perisporium ring of first dispersion section is equipped with the recess of stepping down, is equipped with many puddlers in the recess of stepping down, and the inner wall of urceolus is equipped with the guide ring, and the grinding section is equipped with first abrasive disc, and the inner wall of urceolus is equipped with the second abrasive disc parallel with first abrasive disc. The utility model discloses a screw rod is extruded and is drawed immortal grass liquid, and extraction rate is fast, and degree of automation is high, and the process is few, can the continuous operation, and energy utilization is high, and the large-scale industrial production of being convenient for is little to the active material harm in the immortal grass moreover, need not the concentration after drawing, is convenient for transport and uses after diluting to the consumption ground.

Description

Celestial grass liquid extraction element

Technical Field

The utility model belongs to the technical field of celestial grass processing equipment, specifically speaking relates to a celestial grass liquid extraction element.

Background

Mesona chinensis Benth, also known as Mesona chinensis Benth and Mesona chinensis Benth, is an annual herb in the genus of Mesona in the family of Labiatae, and is an important plant resource for both medicine and food. The whole Mesona chinensis Benth dried sample contains about 70% carbohydrate, small amount of protein, fat, pigment, etc., and also contains more mineral elements. The immortal grass medicine is wide, has the function of clearing summer heat, relieving fever and promoting diuresis, and related products in the current market are various, including: instant Mesona chinensis jelly powder, Mesona chinensis health tea, Mesona chinensis cola beverage, instant Mesona chinensis, coffee pigment extract, etc. In the traditional processing and production process, substances in the Mesona chinensis Benth are usually extracted by boiling, the processing time is long, the energy consumption is high, batch production is only available, filtering and concentration are needed after boiling, the production procedures are multiple, the automation degree and the capacity are low, the production cost is high, and the traditional processing and production process is not suitable for large-scale industrial production.

SUMMERY OF THE UTILITY MODEL

To foretell not enough among the prior art, the utility model provides a celestial grass liquid extraction element utilizes the screw rod to extrude the useful material that draws in the celestial grass, improves and draws equipment degree of automation, the large-scale industrial production of being convenient for.

In order to achieve the above object, the utility model discloses a solution is: a Mesona chinensis liquid extraction device comprises an outer barrel, a driving screw and a water tank, wherein the outer barrel is obliquely arranged, an accommodating cavity matched with the driving screw is formed in the outer barrel, a liquid discharge pipe communicated with the accommodating cavity is arranged at the lower part of the low end of the outer barrel, a feeding pipe communicated with the accommodating cavity is arranged at the top of the low end of the outer barrel, and a discharge port communicated with the accommodating cavity is formed in the high end of the outer barrel; the driving screw is arranged in the accommodating cavity, is rotatably connected with the outer barrel and can rotate around the central axis of the driving screw under the action of external force, and is sequentially provided with a first material conveying section, a first dispersing section, a second material conveying section, a grinding section, a third material conveying section, a second dispersing section and a discharging section along the length direction of the driving screw; the water tank is annularly arranged on the outer peripheral wall of the outer barrel, the water tank and the outer barrel jointly enclose a sealed water storage cavity, a water inlet pipe communicated with the water storage cavity is arranged at the low end of the water tank, a water inlet through hole corresponding to the second dispersion section is arranged at the top of the outer barrel peripheral wall, and the water storage cavity is communicated with the accommodating cavity through the water inlet through hole; the peripheral wall of the first dispersing section is annularly provided with a abdicating groove, the cross section of the abdicating groove is trapezoidal, the upper bottom side of the abdicating groove is close to the central axis of the driving screw, a plurality of stirring rods are arranged in the abdicating groove, the stirring rods are parallel to the length direction of the driving screw, the stirring rods are uniformly arranged along the circumferential direction of the driving screw, the inner wall of the outer barrel is provided with a guide ring corresponding to the abdicating groove, the cross section of the guide ring is trapezoidal, and the upper bottom side of the guide ring is close to the central axis of the driving screw; the grinding section is provided with a first grinding disc, the first grinding disc is perpendicular to the length direction of the driving screw rod, the inner wall of the outer barrel is provided with a second grinding disc parallel to the first grinding disc, the second grinding disc is annularly arranged around the driving screw rod, and the end face of the second grinding disc is close to the end face of the first grinding disc; the second dispersion section is provided with a plurality of groups of stirring blades, and the plurality of groups of stirring blades are arranged along the length direction of the driving screw.

Through above-mentioned scheme, adopt the screw rod to extrude and draw immortal grass liquid, extraction rate is fast, and degree of automation is high, and the process is few, can the continuous operation, the large-scale industrial production of being convenient for, and is little to the active material harm in the immortal grass moreover, need not the concentration after the extraction, is convenient for transport and uses after diluting to the consumption ground.

The cutting mechanism is arranged at the upstream end of the ultrasonic wall breaking mechanism and used for cutting Mesona chinensis Benth, and then the Mesona chinensis Benth enters the outer barrel after passing through the ultrasonic wall breaking mechanism; the ultrasonic wall breaking mechanism comprises a limiting seat, a wall breaking groove and a transfer mechanism, the transfer mechanism is cylindrical, the transfer mechanism rotates around the central axis of the transfer mechanism under the action of external force, a plurality of accommodating grooves are formed in the peripheral wall of the transfer mechanism, and the accommodating grooves are arranged along the circumferential direction of the transfer mechanism; the inner side of the wall breaking groove is provided with a first cambered surface matched with the peripheral wall of the transfer mechanism, an ultrasonic generator is arranged in the wall breaking groove and used for generating ultrasonic waves and breaking cell walls of Mesona Procumbens, a limiting seat is fixedly arranged at the top of the wall breaking groove, one side of the limiting seat close to the transfer mechanism is provided with a second cambered surface matched with the peripheral wall of the transfer mechanism, and the first cambered surface and the second cambered surface are both close to the peripheral wall of the transfer mechanism.

Through above-mentioned scheme, the celestial grass after the cutting is discharged into the storage tank at transport mechanism top, then gets into broken wall groove under transport mechanism drives, breaks the cell wall under the effect of ultrasonic wave, the useful material in the follow-up extrusion discharge cell of being convenient for like this, and the ultrasonic wave has the preheating action to celestial grass moreover, can promote celestial grass to soften.

Further, ultrasonic wave broken wall mechanism with be equipped with the conveyer belt between the urceolus, the conveyer belt is equipped with flexible flange, the conveyer belt slope sets up, and the high-order end of conveyer belt is close to ultrasonic wave broken wall mechanism, the low-order end of conveyer belt is close to the inlet pipe, follows ultrasonic wave broken wall mechanism exhaust celestial grass warp the conveyer belt falls into in the inlet tube, realize the transportation of material between ultrasonic wave broken wall mechanism and urceolus through the conveyer belt.

Furthermore, the outer wall of the water tank is attached with a heat insulation layer, heat is reduced through the heat insulation layer, the heat is dissipated from the outer side of the water tank and enters air, energy loss is reduced, and production cost is reduced.

Further, the retaining intracavity is filled with the metal ball, the metal ball with the urceolus butt, hot water flows in the clearance between the metal ball, and the metal ball has increased the area of contact between hot water and the urceolus on the one hand, improves the speed that the heat got into the holding chamber from the hot water conduction, and on the other hand, the metal ball can reduce the retaining volume in the retaining chamber, reduces the pressure that the urceolus received, avoids the urceolus pressurized to lead to warping, improve equipment structural strength and life.

Further, the pitch of the thread of the second feeding section is gradually increased along the material moving direction, so that the material can be accumulated at the upstream end of the grinding section, and the material is promoted to pass through the grinding section under extrusion.

Furthermore, be equipped with the exhaust groove on the screw thread of first pay-off section, be convenient for the gaseous of urceolus inner feeding section to discharge from the inlet pipe through setting up the recess, avoid gaseous accumulation to form high pressure in the low reaches of feeding section, reduce equipment failure rate, improve the operation smoothness degree.

The utility model has the advantages as follows:

(1) the chopped Mesona chinensis Benth is placed into the outer barrel, materials move from the feeding end to the discharging end under the action of the driving screw, and juice discharged by extrusion is wrapped by clear water and flows towards the feeding end, so that solid-liquid separation is realized;

(2) hot water is injected into the water storage cavity from the water inlet pipe, the outer barrel is heated by the hot water to heat materials, stem leaves of the sianchau are promoted to be softened, and further juice in the sianchau is promoted to be discharged under extrusion, so that the phenomenon that substances in the sianchau are denatured due to overhigh temperature can be avoided, the loss of useful substances can be reduced, harmful substances can be avoided, the product quality is improved, the hot water in the water storage cavity enters the accommodating cavity from the water inlet through hole, and therefore the waste heat in water flow can be further utilized, the heat dissipation is reduced, and the energy utilization rate is improved;

(3) the driving screw is provided with a first material conveying section, a first dispersing section, a second material conveying section, a grinding section, a third material conveying section and a second dispersing section in sequence along the length direction of the driving screw, when materials and water flow pass through the first dispersing section, the materials enter the abdication groove along the inclined plane of the side wall of the guide ring, the stirring rod in the abdication groove can stir the materials along the circumferential direction, so that the materials are contacted with the water flow alternately, the water flow can fully wash the juice in the solid gaps, simultaneously, the stirring also has the function of softening the stem leaves of the Mesona chinensis Benth, when the materials pass through the grinding section, the materials are pushed and squeezed into the gap between the first dispersion disc and the second dispersion disc, because the first dispersion disc rotates and the second dispersion disc is fixed, the materials are simultaneously sheared, extruded and rolled, the juice in the Mesona chinensis Benth is fully extruded after being heated and softened, and the juice extraction rate is high;

(4) the second dispersing section replaces a spiral with a stirring blade, so that on one hand, materials can be in full contact with water flow, the water flow can fully wash juice in solid gaps, on the other hand, solution carrying the juice is prevented from being pushed into the discharging section and discharged from the discharging opening, and the reliability of equipment is improved;

(5) the solid waste residue is extruded from the discharge port under the pushing of the discharge section, and the discharge section has an extrusion effect on the solid waste residue, so that the water in the solid waste residue is extruded and flows towards the feed end, the loss of useful substances is reduced, and the extraction effect is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the ultrasonic wall breaking mechanism of the present invention;

fig. 3 is a front view of the ultrasonic wall breaking mechanism of the present invention;

FIG. 4 is a schematic structural view of the outer cylinder and the driving screw of the present invention;

fig. 5 is a schematic structural view of the first feeding section of the present invention;

fig. 6 is a schematic structural view of a first dispersing section of the present invention;

fig. 7 is a schematic structural view of the grinding section of the present invention;

fig. 8 is a front view of a first abrasive disk of the present invention;

fig. 9 is a schematic structural view of a second dispersion section of the present invention;

fig. 10 is a front view of the stirring blade of the present invention;

in the drawings: 1-outer cylinder, 11-holding chamber, 12-liquid discharge pipe, 13-feed pipe, 14-discharge outlet, 15-water inlet through hole, 16-guide ring, 2-driving screw, 21-first material feeding section, 211-groove, 22-first dispersing section, 221-abdicating groove, 222-stirring rod, 23-second material feeding section, 24-grinding section, 241-first grinding disk, 242-second grinding disk, 25-third material feeding section, 26-second dispersing section, 261-stirring blade, 27-discharge section, 3-water tank, 31-water storage chamber, 32-water inlet pipe, 33-metal ball, 4-ultrasonic wall breaking mechanism, 41-limiting seat, 42-wall breaking groove, 43-transferring mechanism, 44-holding groove, 45-a first cambered surface, 46-an ultrasonic generator, 47-a second cambered surface, 5-a cutting mechanism, 6-a conveyor belt and 61-a flange.

Detailed Description

In order to further understand the structure, characteristics and other objects of the present invention, the following detailed description is given with reference to the accompanying preferred embodiments, which are only used to illustrate the technical solution of the present invention and are not intended to limit the present invention.

This embodiment provides a celestial grass liquid extraction element, as shown in fig. 1, including cutting mechanism 5, ultrasonic wave broken wall mechanism 4, conveyer belt 6, urceolus 1, driving screw 2 and water tank 3, cutting mechanism 5 locates the upstream end of ultrasonic wave broken wall mechanism 4, conveyer belt 6 locates between ultrasonic wave broken wall mechanism 4 and the urceolus 1, conveyer belt 6 is equipped with flexible flange 61, conveyer belt 6 slopes to set up, conveyer belt 6's high-order end is close to ultrasonic wave broken wall mechanism 4, conveyer belt 6's low-order end is close to inlet pipe 13. The cutting mechanism 5 is used for cutting celestial grass to in discharging the celestial grass after cutting into ultrasonic wave broken wall mechanism 4, the material is gone into in urceolus 1 behind ultrasonic wave broken wall mechanism 4 and conveyer belt 6.

In this embodiment, please refer to fig. 2 and 3, the ultrasonic wall breaking mechanism 4 includes a limiting seat 41, a wall breaking groove 42 and a transferring mechanism 43, the transferring mechanism 43 is cylindrical, the transferring mechanism 43 rotates around its central axis under the action of external force, a plurality of accommodating grooves 44 are formed in the peripheral wall of the transferring mechanism 43, and the accommodating grooves 44 are arranged along the circumferential direction of the transferring mechanism 43; the inboard of broken wall groove 42 is equipped with the first cambered surface 45 with transport mechanism 43 perisporium matched with, be equipped with supersonic generator 46 in the broken wall groove 42, supersonic generator 46 is used for producing the ultrasonic wave and breaks the cell wall of celestial grass, spacing seat 41 is fixed to be located the top of broken wall groove 42, one side that spacing seat 41 is close to transport mechanism 43 is equipped with the second cambered surface 47 with transport mechanism 43 perisporium matched with, first cambered surface 45 and second cambered surface 47 all are close to the perisporium of transport mechanism 43, first cambered surface 45 and second cambered surface 47 play the supporting role to the material in the storage tank 44.

When the equipment is operated, the transfer mechanism 43 rotates at the same angle every time and then stands for a period of time, so that different accommodating grooves 44 are sequentially positioned right above the ultrasonic generator 46, and the automatic wall breaking of the mesona chinensis benth in batches is realized. Can add a certain amount of clear water from the top to the storage tank 44 of transport mechanism 43 as required for when the storage tank 44 moved to the lowest end and faced ultrasonic generator 46, it has water to fill between ultrasonic generator 46 and the material in this storage tank 44, and the juice that the broken wall in-process produced and the water of adding can be wrapped up by the stem leaf and is being carried from the discharge stream in broken wall groove 42 to the conveyer belt 6 on.

Referring to fig. 4, the outer cylinder 1 is cylindrical, the outer cylinder 1 is disposed obliquely, an accommodating cavity 11 is disposed in the outer cylinder 1 and is matched with the driving screw 2, a liquid discharge pipe 12 is disposed at the lower portion of the lower end of the outer cylinder 1 and is communicated with the accommodating cavity 11, a feeding pipe 13 is disposed at the top of the lower end of the outer cylinder 1 and is communicated with the accommodating cavity 11, and a feeding screw can be disposed in the feeding pipe 13 to promote the material to enter the accommodating cavity 11. The high-level end of the outer cylinder 1 is provided with a discharge opening 14 communicated with the accommodating cavity 11, and the discharge opening 14 is usually a plurality of through holes arranged on an end plate at the high-level end of the outer cylinder 1; the driving screw 2 is arranged in the accommodating cavity 11, the inner wall of the outer barrel 1 is close to the driving screw 2, the driving screw 2 is rotatably connected with the outer barrel 1, the driving screw 2 can rotate around the central axis of the driving screw under the action of external force, and the driving screw 2 is sequentially provided with a first material conveying section 21, a first dispersing section 22, a second material conveying section 23, a grinding section 24, a third material conveying section 25, a second dispersing section 26 and a discharging section 27 along the length direction of the driving screw; the periphery wall of urceolus 1 is located to the water tank 3 ring, and water tank 3 encloses into sealed water storage chamber 31 with urceolus 1 jointly, and the low level end of water tank 3 is equipped with the inlet tube 32 with water storage chamber 31 intercommunication, and the top of the periphery wall of urceolus 1 is equipped with the inlet opening 15 that corresponds with second dispersion section 26, and water storage chamber 31 is through inlet opening 15 and holding chamber 11 intercommunication. The water storage cavity 31 usually has a certain water pressure, water flow is sprayed into the accommodating cavity 11 from the water inlet through hole, and materials in the accommodating cavity 11 cannot enter the water storage cavity 31.

In other embodiments, in order to reduce the heat dissipation from the outside of the water tank 3 into the air, reduce energy loss and reduce production cost, the outer wall of the water tank 3 is attached with a heat insulation layer (not shown), which can be made of a commercially available heat insulation material. The water storage cavity 31 is filled with the metal ball 33, the metal ball 33 is abutted to the outer barrel 1, hot water flows in a gap between the metal balls 33, the metal ball 33 increases the contact area between the hot water and the outer barrel 1 on one hand, the speed of heat conducted from the hot water to enter the accommodating cavity 11 is improved, on the other hand, the metal ball 33 can reduce the water storage amount in the water storage cavity 31, the pressure on the outer barrel 1 is reduced, the deformation caused by the compression of the outer barrel 1 is avoided, and the structural strength and the service life of the device are improved.

As shown in fig. 5, the screw thread of the first feeding section 21 is provided with an exhaust groove 211, and the groove 211 is arranged to facilitate the gas in the feeding section in the outer cylinder 1 to be exhausted from the feeding pipe 13, so as to avoid the gas accumulating at the downstream of the feeding section to form high pressure, reduce the failure rate of the equipment, and improve the operation smoothness.

Referring to fig. 6, the circumferential wall of the first dispersing section 22 is annularly provided with a relief groove 221, a cross section of the relief groove 221 is trapezoidal, an upper bottom side of the relief groove 221 is close to a central axis of the driving screw 2, a plurality of stirring rods 222 are arranged in the relief groove 221, the stirring rods 222 are parallel to a length direction of the driving screw 2, the plurality of stirring rods 222 are uniformly arranged along a circumferential direction of the driving screw 2, the inner wall of the outer barrel 1 is provided with a guide ring 16 corresponding to the relief groove 221, a cross section of the guide ring 16 is trapezoidal, and an upper bottom side of the guide ring 16 is close to the central axis of the driving screw 2.

The pitch of the threads of the second feed section 23 increases progressively in the direction of material movement, so that material is deposited at the upstream end of the grinding section 24 and is encouraged to pass through the grinding section 24 under extrusion.

As shown in fig. 7 and 8, the grinding section 24 is provided with a first grinding disk 241, the first grinding disk 241 is perpendicular to the length direction of the driving screw 2, the inner wall of the outer cylinder 1 is provided with a second grinding disk 242 parallel to the first grinding disk 241, the second grinding disk 242 is annularly provided around the driving screw 2, and the end surface of the second grinding disk 242 is close to the end surface of the first grinding disk 241. As shown in fig. 9 and 10, the second dispersing section 26 is provided with a plurality of sets of agitating blades 261, the plurality of sets of agitating blades 261 being arranged in the length direction of the driving screw 2.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims

1. The utility model provides a celestial grass liquid extraction element, characterized by: the device comprises an outer barrel (1), a driving screw rod (2) and a water tank (3), wherein the outer barrel (1) is obliquely arranged, an accommodating cavity (11) matched with the driving screw rod (2) is arranged in the outer barrel (1), a liquid discharge pipe (12) communicated with the accommodating cavity (11) is arranged at the lower part of the low end of the outer barrel (1), a feeding pipe (13) communicated with the accommodating cavity (11) is arranged at the top of the low end of the outer barrel (1), and a discharge port (14) communicated with the accommodating cavity (11) is arranged at the high end of the outer barrel (1); the driving screw (2) is arranged in the accommodating cavity (11), the driving screw (2) is rotatably connected with the outer barrel (1), the driving screw (2) can rotate around the central axis of the driving screw under the action of external force, and the driving screw (2) is sequentially provided with a first material conveying section (21), a first dispersing section (22), a second material conveying section (23), a grinding section (24), a third material conveying section (25), a second dispersing section (26) and a discharging section (27) along the length direction of the driving screw; the water tank (3) is arranged on the outer peripheral wall of the outer barrel (1) in a surrounding mode, the water tank (3) and the outer barrel (1) jointly enclose a sealed water storage cavity (31), a water inlet pipe (32) communicated with the water storage cavity (31) is arranged at the low-position end of the water tank (3), a water inlet through hole (15) corresponding to the second dispersion section (26) is formed in the top of the peripheral wall of the outer barrel (1), and the water storage cavity (31) is communicated with the accommodating cavity (11) through the water inlet through hole (15);

the peripheral wall of the first dispersing section (22) is annularly provided with a yielding groove (221), the cross section of the yielding groove (221) is trapezoidal, the upper bottom side of the yielding groove (221) is close to the central axis of the driving screw (2), a plurality of stirring rods (222) are arranged in the yielding groove (221), the stirring rods (222) are parallel to the length direction of the driving screw (2), the stirring rods (222) are uniformly arranged along the circumferential direction of the driving screw (2), the inner wall of the outer barrel (1) is provided with a guide ring (16) corresponding to the yielding groove (221), the cross section of the guide ring (16) is trapezoidal, and the upper bottom side of the guide ring (16) is close to the central axis of the driving screw (2);

the grinding section (24) is provided with a first grinding disc (241), the first grinding disc (241) is perpendicular to the length direction of the driving screw (2), the inner wall of the outer barrel (1) is provided with a second grinding disc (242) parallel to the first grinding disc (241), the second grinding disc (242) is annularly arranged around the driving screw (2), and the end face of the second grinding disc (242) is close to the end face of the first grinding disc (241); the second dispersing section (26) is provided with a plurality of groups of stirring blades (261), and the plurality of groups of stirring blades (261) are arranged along the length direction of the driving screw (2).

2. The immortal grass liquid extraction device according to claim 1, wherein: the ultrasonic wall breaking mechanism (4) is further included, and materials enter the outer barrel (1) after passing through the ultrasonic wall breaking mechanism (4);

the ultrasonic wall breaking mechanism (4) comprises a limiting seat (41), a wall breaking groove (42) and a transfer mechanism (43), the transfer mechanism (43) is cylindrical, the transfer mechanism (43) rotates around the central axis of the transfer mechanism under the action of external force, a plurality of accommodating grooves (44) are formed in the peripheral wall of the transfer mechanism (43), and the accommodating grooves (44) are arranged along the circumferential direction of the transfer mechanism (43); the inboard of broken wall groove (42) be equipped with transport mechanism (43) perisporium matched with first cambered surface (45), be equipped with supersonic generator (46) in broken wall groove (42), supersonic generator (46) are used for producing the cell wall of ultrasonic wave and broken celestial grass, spacing seat (41) are fixed to be located the top of broken wall groove (42), spacing seat (41) are close to one side of transport mechanism (43) be equipped with transport mechanism (43) perisporium matched with second cambered surface (47), first cambered surface (45) with second cambered surface (47) all are close to the perisporium of transport mechanism (43).

3. The celestial grass liquid extraction device of claim 2, wherein: still include cutting mechanism (5), cutting mechanism (5) are located the upstream end of ultrasonic wave broken wall mechanism (4), cutting mechanism (5) are used for cutting celestial grass to the celestial grass who will cut discharges into in storage tank (44) at transit mechanism (43) top.

4. The immortal grass liquid extraction device according to claim 2 or 3, wherein: ultrasonic wave broken wall mechanism (4) with be equipped with conveyer belt (6) between urceolus (1), conveyer belt (6) are equipped with flexible flange (61), conveyer belt (6) slope sets up, and the high-order end of conveyer belt (6) is close to ultrasonic wave broken wall mechanism (4), the low level end of conveyer belt (6) is close to inlet pipe (13), follows ultrasonic wave broken wall mechanism (4) exhaust celestial grass warp conveyer belt (6) fall into in inlet pipe (13).

5. The immortal grass liquid extraction device according to claim 1, wherein: and a heat insulation layer is attached to the outer wall of the water tank (3).

6. The immortal grass liquid extraction device according to claim 1, wherein: and a metal ball (33) is filled in the water storage cavity (31), and the metal ball (33) is abutted against the outer cylinder (1).

7. The immortal grass liquid extraction device according to claim 1, wherein: the thread pitch of the second feeding section (23) is gradually increased along the material moving direction.

8. The immortal grass liquid extraction device according to claim 1, wherein: and the thread of the first feeding section (21) is provided with an exhaust groove (211).