CN112167533A - Efficient high-capacity soybean milk machine - Google Patents

Abstract

The invention discloses an efficient high-capacity soybean milk machine, which belongs to the field of food processing equipment and solves the problem that the crushing efficiency and the crushing effect are influenced due to unreasonable diameter proportion of a filter cylinder and a stirring inner cavity, the technical scheme for solving the problem mainly comprises a stirring barrel, a crushing motor and a crushing blade, wherein the stirring barrel is provided with the stirring inner cavity, the crushing motor is positioned at the bottom of the stirring barrel, an output shaft of the crushing motor extends into the stirring inner cavity, the crushing blade is positioned in the stirring inner cavity and is arranged on the output shaft of the crushing motor, the filter cylinder is arranged in the stirring inner cavity, the bottom end of the filter cylinder is connected with the inner bottom surface of the stirring inner cavity, the crushing blade is positioned in the filter cylinder, the rated capacity of the stirring inner cavity is 40L-50L, the inner diameter of the filter cylinder is D2, the diameter of the rotation range of the crushing blade is D. The invention is mainly used for improving the crushing efficiency and effect.

Description

Efficient high-capacity soybean milk machine

Technical Field

The invention relates to food processing equipment, in particular to a high-capacity soybean milk machine.

Background

Present commercial soybean milk machine, including the agitator, crushing motor and crushing blade, the agitator has the stirring inner chamber, crushing motor is located the bottom of agitator, the output shaft of crushing motor stretches into the stirring inner chamber, crushing blade is arranged in the stirring inner chamber and installs on the output shaft of crushing motor, be equipped with the cartridge filter in the stirring inner chamber, the bottom of cartridge filter is connected with the interior bottom surface of stirring inner chamber, crushing blade is located the cartridge filter, because the cartridge filter separates into two parts with the stirring inner chamber, the influence of the diameter proportion of cartridge filter and stirring inner chamber to crushing efficiency and effect has not been deeply studied among the prior art.

Disclosure of Invention

The invention aims to provide a high-capacity soybean milk machine, which improves the crushing efficiency and effect.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a large capacity soybean milk machine, includes agitator, crushing motor and crushing blade, and the agitator has the stirring inner chamber, and the crushing motor is located the bottom of agitator, and the output shaft of crushing motor stretches into the stirring inner chamber, and the crushing blade is located the stirring inner chamber and installs on the output shaft of crushing motor, is equipped with the cartridge filter in the stirring inner chamber, and the bottom throat of cartridge filter, and the throat of cartridge filter and the interior bottom surface of stirring inner chamber are connected, cartridge filter upper portion is equipped with excessive thick liquid mouth, the interior bottom surface of stirring inner chamber is equipped with row thick liquid mouth, arranges the thick liquid mouth and is located the bottom throat outside of cartridge filter, and the crushing blade is located the bottom throat of cartridge filter, the rated capacity of stirring inner chamber is 40L ~ 50L, and the internal diameter of cartridge filter is D2, the diameter of the rotation range of crushing blade is D3, D3/D2= 0.2.

Further, the inner diameter D2=250 ~ 270mm of filter cartridge.

Furthermore, the diameter of the stirring inner cavity is D1, and D2/D1= 0.6-0.7.

Furthermore, the agitator includes inner tank body and outer tank body, inner tank body is located outer tank body, the stirring inner chamber is located inner tank body, the bottom of outer tank body is less than the bottom of inner tank body and forms the installation space of installation crushing motor, make the motor be convenient for install, the motor sets up in stirring inner chamber below simultaneously, the heat when having avoided the motor to suffer thick liquid or water to cook influences, the temperature rise is avoided too high, the environment of motor during operation has been guaranteed, staving below including the setting simultaneously, make the complete machine focus reduce, the stability of complete machine during operation has been guaranteed more, thereby make crushing effect stable.

Further, the top of outer staving links to each other with the top of interior staving, has thermal-insulated clearance between the lateral wall of outer staving inside wall and interior staving, has avoided the outside transmission of heat too fast for outer staving temperature can not be too high, takes place to scald because of the high temperature when having avoided client to use.

Furthermore, the bottom surface of the stirring inner cavity is provided with a slurry discharging port, the outer bottom surface of the inner barrel body is provided with a slurry discharging pipe, the outer side wall of the outer barrel body is provided with a slurry discharging tap, and the slurry discharging tap and the slurry discharging pipe are connected through a hose, so that the slurry is conveniently and smoothly discharged, the cleaning of the slurry discharging port, the slurry discharging pipe and the like is also facilitated, and the sanitation of the soybean milk maker is ensured.

Furthermore, the filter holes of the filter cartridge are arranged on the side wall of the filter cartridge and are higher than the crushing blades; or the bottom of the filter cartridge is provided with a conical surface section for guiding liquid to flow upwards along the inner side wall of the filter cartridge, the bottom end of the conical surface section is lower than the crushing blade, the top end of the conical surface section is higher than the crushing blade, and the conical surface section is provided with a filter hole. These two kinds of structural design make material and water concentrate on crushing blade in the filter vat on every side, and water can not discharge immediately, has guaranteed the circulation of the drive underdrain of crushing blade to make the material follow water and crushing blade motion, form the inside and outside thick liquid of effective cartridge filter and the circulation of water, just can make the material constantly smashed, the thick liquid constantly discharges.

Further, the inside wall of cartridge filter is equipped with the vortex muscle, and the size of vortex muscle on the direction of height is 90 ~ 100mm, has improved crushing efficiency.

Further, be equipped with the heating pipe in the stirring inner chamber, the heating pipe is located the cartridge filter outside, has guaranteed that the effect of decocting of thick liquid is better.

After the technical scheme is adopted, the invention has the following advantages:

1. the stirring inner cavity of the high-capacity soybean milk machine has the rated capacity of 40L-50L, the bottom end of a filter cylinder in the stirring inner cavity is provided with a necking, a crushing blade is positioned in a transition area of the filter cylinder and the necking at the bottom end, so that the stirring inner cavity is divided into two parts by the filter cylinder, materials are placed in the filter cylinder during crushing and are crushed intensively in the filter cylinder, the crushing efficiency is improved, meanwhile, the crushed slurry and water are mixed into slurry to be discharged from meshes of the filter cylinder to form circulation, the crushed material residues and the slurry are well separated, the bottom end of the filter cylinder is provided with the necking, the transition area is matched with the crushing blade to further form a small space, the materials positioned in the transition area are crushed into small particles, the crushed particles become light and are lifted above the transition area by the crushing blade, and the materials above the transition area continuously fall into the necking transition area to be crushed intensively, and then falls down by gravity, enters a necking and transition region, and then is reduced and ascended to be repeatedly circulated, so that the crushing efficiency is greatly improved, the balance and the trade-off are carried out in the two aspects of reducing the load of a crushing motor and avoiding the weakening influence of the material accumulation on the centrifugal force, all materials can be ensured to participate in the crushing circulation, the contact probability of the materials and the crushing blade is improved, and the crushing efficiency and the crushing effect of the high-capacity soybean milk machine are improved. And establish the internal diameter of cartridge filter into D2, the diameter of the rotation range of crushing blade is D3, and D3/D2=0.2 ~ 0.35 for the throat space size of crushing blade and cartridge filter matches rationally, has guaranteed that crushing blade can place in throat transition region, smashes regional cooperation with the throat and forms good crushing space, has promoted crushing efficiency greatly. When D3/D2 is less than 0.2, the rotating space of the crushing blade is too small relative to the space of the transition area of the filter cartridge, meanwhile, relatively speaking, the space of the transition area is too large, the materials are gathered too much, the rotating force of the crushing blade and the peripheral water flow is not enough, and the crushing effect is poor; when D3/D2 is larger than 035, the size of the crushing blade is too large relative to the transition area, so that the energy consumed by the crushing blade is also large, and the space for the material to move along with the crushing blade is relatively small when the crushing blade rotates, which is not beneficial to the stirring of the material and water, namely the circulation of the material, and the crushing effect is also poor, and the slurry discharging effect is also affected. The cartridge filter passes through the throat and is connected with the interior bottom surface of stirring inner chamber, simple to operate, cartridge filter upper portion is equipped with excessive thick liquid mouth, has guaranteed that the thick liquid of decocting in-process cartridge filter can in time overflow from the cartridge filter, flows into the stirring intracavity outside the cartridge filter to further decocting has avoided the thick liquid to have nowhere flowed, thereby has overflowed the risk outside the agitator. The interior bottom surface of stirring inner chamber is equipped with row's thick liquid mouth, arranges the thick liquid mouth and is located the bottom throat outside of cartridge filter, has made things convenient for the thick liquid that flows into in the agitator outside the cartridge filter to boil the back and directly discharge.

2. Because the capacity of the machine is large, and the rated capacity range of the stirring inner cavity is 40L to 50L, the diameter of the filter cylinder is set to be 250-270 mm, so that the stirring inner cavity is divided into two parts by the filter cylinder, the filter cylinder in the diameter range can better ensure the circulation and crushing of materials in the filter cylinder, if the size is smaller than 250, the diameter of the filter cylinder is too small, the diameter of a transition area is too small, the crushing blade drives the materials to overturn, the circulation space is insufficient, and the crushing efficiency is poor; if the fruit size is greater than 270mm, then the whole space of transition region will all be too big, then the material that is located around the region that transition region and cartridge filter are connected leaves crushing cutter too far away, also does not benefit to crushing, and the thick liquid circulation power also will reduce, also does not benefit to the thick liquid and discharges outside to the cartridge filter from the cartridge filter.

3. Because the diameter of stirring inner chamber is D1, and D2D 1=0.6 ~ 0.7, the setting of this size for the cartridge filter will stir the fine separation of inner chamber, both do benefit to crushing blade and smash the material, also do benefit to crushing blade and drive material and water or the thick liquid after smashing and the outer thick liquid of cartridge filter and the fine circulation of water, make things convenient for the mixture of thick liquid and the separation of thick liquid and material residue. When D2/D1 is less than 0.6, if D1 is too large, the circulation of the slurry is not facilitated, the circulation of the slurry in the stirring inner cavity at the periphery of the filter cartridge is insufficient, the balance between the circulation outside and inside the filter cartridge is broken, the slurry is not discharged, the circulation force is insufficient, and the crushing is not facilitated; when D2/D1 is less than 0.6, the diameter D1 of the stirring inner cavity is too small, the filter cylinder is relatively large, and under the condition that the crushing cutter is constant, the collision probability of the materials close to the cylinder wall in the filter cylinder and the crushing cutter is reduced, so that the crushing is not facilitated.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural diagram of a high-capacity soymilk machine of the invention;

fig. 2 is a schematic structural view of a filter cartridge according to the present invention.

FIG. 3 is an enlarged view taken at I in FIG. 1;

FIG. 4 is a diagram illustrating a second embodiment of the present invention;

fig. 5 is a schematic diagram (ii) of a second embodiment of the present invention.

Detailed Description

Example one

As shown in fig. 1, the present invention provides a high capacity soymilk machine, which comprises an agitator 1, a grinding motor 2 and a grinding blade 3, wherein the agitator 1 has a stirring inner cavity 100, the grinding motor 2 is located at the bottom of the agitator 1, the output shaft of the grinding motor 2 extends into the stirring inner cavity 100, the grinding blade 3 is located in the stirring inner cavity 100 and is mounted on the output shaft of the grinding motor 2, a filter cartridge 4 is arranged in the stirring inner cavity 100, the bottom end of the filter cartridge 4 is connected with the inner bottom surface of the stirring inner cavity 100, the grinding blade 3 is located in the filter cartridge 4, the rated capacity of the stirring inner cavity 100 is 40L-50L, the diameter of the stirring inner cavity 100 is D1, the inner diameter of the filter cartridge 4 is D2, the bottom end of the filter cartridge is provided with a necking 46, a transition region 47 is arranged between the filter cartridge 4 and the necking 46, because the rated capacity of the stirring inner cavity 100 is large, in order to ensure the grinding efficiency, the centrifugal force generated by the rotation of the crushing blade 3 can drive the liquid and the materials in the filter cylinder 4, and due to the obstruction of the filter cylinder 4, the liquid outside the filter cylinder 4 is basically not influenced by the centrifugal force, and the influence on the centrifugal force is reduced, so the diameter of the filter cylinder 4 is controlled to influence the load of the crushing motor 2, if D2 is too large, the liquid in the filter cylinder 4 is too much, the load of the crushing motor 2 is greatly increased, under the condition that the output power of the crushing motor 2 is not changed, the flow speed of the liquid under the action of the centrifugal force can be reduced, the probability of the contact of the materials and the crushing blade 3 is reduced, the crushing efficiency and the crushing effect can be reduced, when D2 is too small, the height of the materials accumulated in the filter cylinder 4 is increased, the liquid in the filter cylinder 4 is reduced, the materials near the crushing blade 3 can well participate in the crushing circulation, the liquid tension of the liquid is reduced, the influence and the existing gravity influence are exerted, the centrifugal force generated by rotation of the crushing blade 3 is weakened more seriously, the liquid at the lower position is difficult to rise to the higher position, the material at the higher position cannot sink to the position near the crushing blade 3 to participate in crushing circulation, the material is crushed unevenly, and the crushing efficiency and the crushing effect can be reduced naturally. According to the invention, the narrower range of D2/D1= 0.6-0.7 is selected, and balanced selection is carried out in two aspects of reducing the load of the grinding motor 2 and avoiding the weakening influence of the material accumulation on the centrifugal force, so that all materials can participate in the grinding circulation, the contact probability of the materials and the grinding blade 3 is improved, and the grinding efficiency and effect of the high-capacity soybean milk machine are improved. Both D1 and D2 were inside diameters.

Because the diameter of stirring inner chamber is D1, and D2D 1=0.6 ~ 0.7, the setting of this size for the cartridge filter will stir the fine separation of inner chamber, both do benefit to crushing blade and smash the material, also do benefit to crushing blade and drive material and water or the thick liquid after smashing and the outer thick liquid of cartridge filter and the fine circulation of water, make things convenient for the mixture of thick liquid and the separation of thick liquid and material residue. When D2/D1 is less than 0.6, if D1 is too large, the circulation of the slurry is not facilitated, the circulation of the slurry in the stirring inner cavity at the periphery of the filter cartridge is insufficient, the balance between the circulation outside and inside the filter cartridge is broken, the slurry is not discharged, the circulation force is insufficient, and the crushing is not facilitated; when D2/D1 is less than 0.6, the diameter D1 of the stirring inner cavity is too small, the filter cylinder is relatively large, and under the condition that the crushing cutter is constant, the collision probability of the materials close to the cylinder wall in the filter cylinder and the crushing cutter is reduced, so that the crushing is not facilitated.

The stirring inner cavity 100 of the high-capacity soybean milk machine has the rated capacity of 40L-50L, the necking 46 is arranged at the bottom end of the filter cylinder 4 in the stirring inner cavity 100, the crushing blade 3 is positioned in the transition area 47 of the filter cylinder 4 and the necking 46 at the bottom end, so that the stirring inner cavity 100 is divided into two parts by the filter cylinder 4, materials are placed in the filter cylinder 4 during crushing, the materials are intensively crushed in the filter cylinder 4, the crushing efficiency is improved, meanwhile, the crushed slurry and water are mixed into slurry, the slurry is discharged from meshes of the filter cylinder to form circulation, the crushed material residue and the slurry are well separated, the necking 46 is arranged at the bottom end of the filter cylinder 4, the transition area 47 is matched with the crushing blade 3 to further form a small space, the materials in the necking 46 and the transition area 47 are crushed into small particles, the crushed particles become light and are lifted above the transition area by the crushing blade, the material of transition region 47 top constantly falls into throat 46 and transition region 47 and concentrates crushing, rethread gravity falls, get into throat 42 and transition region 47, then diminish and rise just so recycling, the efficiency of smashing has been improved greatly, reduce crushing motor load and avoid the material to pile up the high balancing in these two aspects of the influence of weakening to centrifugal force and accept the trade off, ensure that all materials can participate in smashing the circulation, improve the contact probability of material and crushing blade, improve the crushing efficiency and the effect of large capacity soybean milk machine. And the internal diameter of cartridge filter is set to D2, the diameter of the rotation range of crushing blade is D3, D3/D2=0.2 ~ 0.35 for the throat space size of crushing blade and cartridge filter matches rationally, has guaranteed that crushing blade can place in the transition region 47 of throat 46 and cartridge filter, forms good crushing space with throat 46 and transition region 47 cooperation, has promoted crushing efficiency greatly. When D3/D2 is less than 0.2, the rotating space of the crushing blade 3 is too small relative to the space of the transition area of the filter cartridge 4, meanwhile, relatively speaking, the space of the transition area is too large, the materials are gathered too much, the rotating force of the crushing blade and the peripheral water flow is not enough, and the crushing effect is poor; when D3/D2 is larger than 035, the size of the crushing blade is too large relative to the transition area, so that the energy consumed by the crushing blade is also large, and the space for the material to move along with the crushing blade is relatively small when the crushing blade rotates, which is not beneficial to the stirring of the material and water, namely the circulation of the material, and the crushing effect is also poor, and the slurry discharging effect is also affected. The cartridge filter passes through the throat and is connected with the interior bottom surface of stirring inner chamber, simple to operate, cartridge filter upper portion is equipped with excessive thick liquid mouth, has guaranteed that the thick liquid of decocting in-process cartridge filter can in time overflow from the cartridge filter, flows into the stirring intracavity outside the cartridge filter to further decocting has avoided the thick liquid to have nowhere flowed, thereby has overflowed the risk outside the agitator. The interior bottom surface of stirring inner chamber is equipped with row's thick liquid mouth, arranges the thick liquid mouth and is located the bottom throat outside of cartridge filter, has made things convenient for the thick liquid that flows into in the agitator outside the cartridge filter to boil the back and directly discharge.

As a better embodiment, D2= 250-270 mm can be selected, and in general, when the rated capacity of the stirring inner cavity 100 is larger, D2 is correspondingly selected to be larger.

In selecting the size of the crushing blade 3, the influence on the load of the crushing motor 2 is also considered, the probability that the material contacts with the crushing blade 3 in the crushing cycle is also considered, the diameter of the rotating range of the crushing blade 3 is D3, D3 is determined according to the size of D2, and in the embodiment, D3/D2=0.25 is selected. Based on this, it was determined that D3 ranged from 62.5mm to 67.5mm, and this size was selected to be 65. The rotating range of the crushing blade 3 is a rotating space formed when the crushing blade 3 rotates, and materials enter the rotating space and are in contact with the crushing blade 3 to be crushed, so that the reasonable range of D3 is determined, and the crushing of large-volume materials by the small blade can be realized.

In this embodiment, for facilitating the installation and maintenance of the grinding motor 2, the stirring barrel 1 includes an inner barrel 11 and an outer barrel 12, the inner barrel 11 is located in the outer barrel 12, the stirring chamber 100 is located in the inner barrel 11, and the bottom end of the outer barrel 12 is lower than the bottom end of the inner barrel 11 and forms an installation space 101 for installing the grinding motor 2. The installation space 101 can realize a certain water-electricity separation effect, and ensure that the crushing motor 2 is in a relatively dry working environment.

As the large-capacity soymilk machine generates more heat by heating, in order to reduce the external temperature, the top end of the outer barrel body 12 can be connected with the top end of the inner barrel body 11, and a heat insulation gap 102 is arranged between the inner side wall of the outer barrel body 12 and the outer side wall of the inner barrel body 11. The insulating gap 102 may be filled with air or filled with an insulating material to improve the insulating effect.

The bottom surface of the stirring inner cavity 100 is provided with a pulp discharging port 103, the outer bottom surface of the inner barrel body 11 is provided with a pulp discharging pipe 13, and the soybean milk machine has large primary pulp making amount, so that the soybean milk can be generally retained in the stirring inner cavity 100, can preserve heat and can be connected at any time, therefore, the outer side wall of the outer barrel body 12 is provided with a pulp discharging tap 14, and the pulp discharging tap 14 is connected with the pulp discharging pipe 13 through a hose. Utilize the deformability of hose, can eliminate the influence that row's thick liquid mouth 103 and row's thick liquid tap 14 position error brought, because the centre has one section to bend, for avoiding the hose to buckle excessively to influence row's thick liquid, can adopt elbow and hose complex structure, elbow one end is passed through the hose and is connected with row's thick liquid mouth 103 promptly, the other end passes through the hose and is connected with row's thick liquid tap 14, and the hose need not buckle. To prevent the sludge from being discharged, the slurry outlet 103 is provided outside the filter cartridge 4.

Because the centrifugal force of the rotatory production of crushing blade 3 can be with liquid and the direct outside lateral wall that pushes away cartridge filter 4 of material, cartridge filter 4 is cylindricly, and the material velocity of motion of this position is very fast, if set up the filtration pore, the material probably directly blocks up the filtration pore, influences normal filtering capability, therefore the filtration pore that designs cartridge filter 4 locates the lateral wall of cartridge filter 4 and is higher than crushing blade 3. In addition, after the pulping is finished, the material residues sink to the periphery of the crushing blade 3, and occupy the space reserved by the pulp in an extruding mode, so that the pulp in the filter cylinder 4 is discharged to the outer side of the filter cylinder 4, the separation of the pulp and the material residues is facilitated, and the waste of the pulp is reduced. In addition, in order to promote the pulverizing circulation, the bottom of the filter cartridge 4 may be provided with a conical surface section 41 for guiding the liquid to flow upward along the inner side wall of the filter cartridge, where the conical surface section 41 is a transition region, and as shown in fig. 1 and 2, the bottom end of the conical surface section 41 is lower than the pulverizing blade 3, and the top end is higher than the pulverizing blade 3, and because the conical surface section 41 has a drainage effect, the material will climb upward along the conical surface section 41, so the conical surface section 41 may be provided with a filtering hole.

For further improving crushing effect, can be equipped with vortex muscle 42 at the inside wall of cartridge filter 4, vortex muscle 42 is 90 ~ 100mm in the ascending size H1 of direction of height. The turbulence ribs 42 are too high, which can affect the flow velocity of high-level materials and materials driven by centrifugal force, and is unfavorable for the materials participating in the grinding circulation. The turbulence rib 42 is too low, and the turbulence effect is reduced. The position that vortex muscle 42 set up also can not too far away from crushing blade 3, and the height distance H2 of vortex muscle 42 bottom to crushing blade 3 can be controlled within 150 mm.

In order to age the slurry, the user can directly take the slurry from the slurry tap 14 for drinking, a heating pipe 5 can be arranged in the stirring inner cavity 100, and the heating pipe 5 can be arranged outside the filter cylinder 4 in order to avoid slag from adhering to the heating pipe 5.

In order to reliably position the bottom end of the filter cartridge, a positioning support 43 may be disposed at the bottom of the filter cartridge 4, a positioning step 104 engaged with the positioning support 43 is disposed on the inner bottom surface of the stirring inner cavity, and the positioning support 43 has a first positioning surface 431 in the longitudinal direction and a second limiting surface 432 in the radial direction, which are respectively attached to the transverse surface and the longitudinal surface of the positioning step 104, so as to position the bottom end of the filter cartridge 4 in the axial direction and the radial direction.

Example two:

in addition to the positioning manner of the bottom of the filter cartridge in the embodiment, as shown in fig. 4 and 5, a mounting frame 5 is disposed on the bottom surface of the stirring cavity, the mounting frame 5 is provided with an axial positioning surface 51 and a radial limiting surface 52, the bottom end of the filter cartridge 4 is provided with a positioning convex rib 44, the positioning convex rib 44 is clamped below the axial positioning surface 51, and the radial limiting surface 52 is attached to the outer peripheral side surface of the filter cartridge 4. In order to clamp the positioning ribs 44 below the axial positioning surfaces 51, a rotary mounting mode can be adopted, the axial positioning surfaces 51 are of a segmented structure, clamping notches 53 for the positioning ribs 44 to pass through are arranged between the adjacent axial positioning surfaces 51, and then the filter cartridge 4 is rotated to clamp the positioning ribs 44 below the axial positioning surfaces 51 so as to axially position the bottom end of the filter cartridge 4. To prevent the filter cartridge 4 from rotating excessively, the positioning ribs 44 are engaged with the notches 53, and a stop rib 54 may be provided at one end of the axial positioning surface 51.

Reference may be made to embodiment one for details not described in this embodiment.

Other embodiments of the present invention than the preferred embodiments described above will be apparent to those skilled in the art from the present invention, and various changes and modifications can be made therein without departing from the spirit of the present invention as defined in the appended claims.

Claims (10)

1. The utility model provides an efficient large capacity soybean milk machine, includes agitator, crushing motor and crushing blade, and the agitator has the stirring inner chamber, and the crushing motor is located the bottom of agitator, and the output shaft of crushing motor stretches into the stirring inner chamber, and the crushing blade is located the stirring inner chamber and installs on the output shaft of crushing motor, is equipped with the cartridge filter in the stirring inner chamber, and the bottom of cartridge filter is equipped with the throat, and the cartridge filter passes through the throat and is connected with the interior bottom surface of stirring inner chamber, and its characterized in that, the interior bottom surface of stirring inner chamber is equipped with row's thick liquid mouth, arranges the thick liquid mouth and is located the stirring intracavity bottom surface outside the throat, and the crushing blade is located the transition region of cartridge filter and throat, the rated capacity of stirring inner chamber is 40L ~ 50L, and the internal diameter of cartridge filter is D2, the diameter of the rotation range of crushing blade is D3, D3/D36.

2. The high-capacity soymilk maker according to claim 1, wherein D2= 250-270 mm.

3. The high-capacity soymilk maker according to claim 1, wherein the diameter of the stirring inner cavity is D1, D2/D1= 0.6-0.7.

4. The high-capacity soymilk machine according to claim 1, wherein the stirring barrel comprises an inner barrel body and an outer barrel body, the inner barrel body is positioned in the outer barrel body, the stirring inner cavity is positioned in the inner barrel body, and the bottom end of the outer barrel body is lower than the bottom end of the inner barrel body and forms an installation space for installing the grinding motor.

5. The high-capacity soymilk machine according to claim 4, characterized in that the top end of the outer barrel body is connected with the top end of the inner barrel body, and a heat insulation gap is arranged between the inner side wall of the outer barrel body and the outer side wall of the inner barrel body.

6. The high-capacity soymilk maker according to claim 4, characterized in that the outer bottom surface of the inner barrel body is provided with a soymilk discharging pipe, the outer side wall of the outer barrel body is provided with a soymilk discharging tap, and the soymilk discharging tap is connected with the soymilk discharging pipe through a hose.

7. The high-capacity soymilk maker according to any one of claims 1 to 6, wherein the filter holes of the filter cartridge are arranged on the side wall of the filter cartridge and are higher than the crushing blade.

8. The high-capacity soymilk maker according to any one of claims 1 to 6, wherein the bottom of the filter cartridge is provided with a conical surface section which guides liquid to flow upwards along the inner side wall of the filter cartridge, the bottom end of the conical surface section is lower than the crushing blade, the top end of the conical surface section is higher than the crushing blade, and the conical surface section is provided with a filter hole.

9. The high-capacity soymilk maker according to any one of claims 1 to 6, wherein the inner side wall of the filter cylinder is provided with turbulence ribs, and the size of the turbulence ribs in the height direction is 90-100 mm.

10. The high-capacity soymilk maker according to any one of claims 1 to 6, characterized in that a heating pipe is arranged in the stirring inner cavity and is positioned outside the filter cartridge.

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