CN203815314U - Soybean milk machine with efficient grinding function - Google Patents

Abstract

The utility model relates to a soybean milk machine with an efficient grinding function. The soybean milk machine comprises a motor, a stationary cutter and a moving cutter, wherein the motor is arranged in a machine base and drives the moving cutter to rotate; the stationary cutter comprises a wing root and at least two shearing vanes which are positioned on the same plane and are connected with the wing root of the stationary cutter; the moving cutter comprises a wing root and at least one shearing wing which is parallel to the shearing vanes of the stationary cutter and is connected with the wing root of the moving cutter; each shearing wing of the moving cutter is positioned above or below the shearing vanes of the stationary cutter; the active face of each shearing wing of the moving cutter is far away from the shearing vanes of the stationary cutter; the motor drives each shearing wing of the moving cutter to rotate to interact with the shearing vanes of the stationary cutter so as to realize shearing and grinding. The soybean milk machine has the advantages that a conventional blade cutting type grinding mode is changed; the stationary cutter and the moving cutter form a shearing pair, so that large-particle materials or fine materials can be better sheared and ground.

Description

The soy bean milk making machine of efficient pulverizing

Technical field

The utility model relates to a kind of soy bean milk making machine, relates in particular to a kind of efficient pulverizing soy bean milk making machine.

Background technology

The grinding mode of existing soy bean milk making machine normally adopts crushing knife tool High Rotation Speed cutting beans material to realize pulverizing, near utilizing air deflector to realize material is directed to crushing knife tool, cuts pulverizing.In the time that beans material particle is larger, the crushing effect of crushing knife tool High Rotation Speed cutting beans material is better, but, when being crushed to certain degree, be that beans material is while being crushed to compared with granule, the crush efficiency of the grinding mode of crushing knife tool High Rotation Speed cutting will reduce greatly, and more difficult acquisition is without the soya-bean milk of cinder notch sense.

Utility model content

In view of this, be necessary the soy bean milk making machine that provides a kind of crush efficiency high.

The utility model is achieved through the following technical solutions:

A kind of soy bean milk making machine of efficient pulverizing, comprise support, cup and reducing mechanism, this cup buckles on support, described reducing mechanism comprises motor, stationary knife and moving knife, this motor is arranged in support, this driven by motor moving knife rotation, this stationary knife comprises wing root and at least two at grade and the shearing leaf being connected with stationary knife wing root, this moving knife comprises wing root and at least one and the stationary knife shearing leaf shearing wing parallel and that be connected with moving knife wing root, this moving knife is sheared the wing and is positioned at above or below stationary knife shearing leaf, the face of putting the first edge on a knife or a pair of scissors that this moving knife is sheared the wing deviates from stationary knife shearing leaf, this motor drives this moving knife shearing wing rotation to shear and pulverize with stationary knife shearing leaf interaction realization.

Described reducing mechanism also comprises the circulation member that material is circulated from the top down or circulate from bottom to top.

Described circulation member is wing, and this wing is connected with moving knife wing root; Or described circulation member is crushing knife, and this crushing knife comprises wing.

Described wing offers cutting edge, and this wing deviates from shears leaf bending.

Described circulation member is impeller, described driven by motor vane rotary.

Described wing reverses 5 to 60 degree.

Described reducing mechanism also comprises the connector that is fixed on bottom of cup, and this stationary knife is fixed on connector, in this connector, is provided with bearing block, in this bearing block, bearing is installed, and this moving knife comprises cutter shaft, and this cutter shaft is through bearing.

Described stationary knife comprises connector, and stationary knife is fixed in this connector one end, and the other end is removably fixed on bottom of cup, and this connector is the cover body with pod apertures; Or described connector is support.

Described stationary knife also comprises the reinforcing ring that connects shearing blade tip.

Described reinforcing ring is also provided with poly-material shirt rim up or down.

The beneficial effect that the utility model brings is:

Described reducing mechanism comprises motor, stationary knife and moving knife, this motor is arranged in support, this driven by motor moving knife rotation, this stationary knife comprises wing root and at least two at grade and the shearing leaf being connected with stationary knife wing root, this moving knife comprises wing root and at least one and the stationary knife shearing leaf shearing wing parallel and that be connected with moving knife wing root, this moving knife is sheared the wing and is positioned at above or below stationary knife shearing leaf, the face of putting the first edge on a knife or a pair of scissors that this moving knife is sheared the wing deviates from stationary knife shearing leaf, this motor drives this moving knife shearing wing rotation to shear and pulverize with stationary knife shearing leaf interaction realization, the utility model has changed traditional blade cut formula cutting and has pulverized, stationary knife and moving knife form shears pair, moving knife often rotates a circle and laterally at least twice shears material, material is repeatedly circulated to be sheared leaf and shears between the wing and realize several times to cutting pulverizing, no matter be oarse-grained material or tiny material, can be sheared preferably pulverizing, compared with pulverizing with traditional blade cut formula, greatly promote crush efficiency, especially the pulverizing to fine particle, so having realized " without slag " preferably pulverizes.

Described reducing mechanism also comprises the circulation member that material is circulated from the top down or circulate from bottom to top.In the time that circulation portions is consistent with the loop direction of shearing wing drive material, circulation portions has been strengthened ringing power, has promoted the circulation of material, can increase slurrying capacity on the one hand, also can further promote on the other hand crush efficiency; In the time that circulation portions is contrary with the loop direction of shearing wing drive material, this circulation portions and the Matter Transfer of shearing between the wing form convection current, thereby have strengthened turbulent effect, so, further material is gathered in and shears leaf and shear between the wing and shear pulverizing, improve crush efficiency.

Described circulation member is wing, and this wing is connected with moving knife wing root; Or described circulation member is crushing knife, and this crushing knife comprises wing.So, simple in structure and easily manufactured, cost is lower; Can also play certain crushing effect simultaneously.

Described wing offers cutting edge, and this wing deviates from shears leaf bending.So, processing simple in structure can realize circulation, and wing offers cutting edge in addition, also can pulverize material, thereby promote crushing effect.

Described wing reverses 5 to 60 degree, and wing can regulate according to the direction difference of reversing the loop direction of material.So, processing simple in structure can realize circulation, is less than 5 while spending when wing reverses, and its circulating effect is not too obvious, and when wing reverses, to be greater than 60 cyclic forces while spending excessive, easily causes splash.Therefore, wing reverses 5 to 60 degree, best results.

Described reducing mechanism also comprises the connector that is fixed on bottom of cup, this stationary knife is fixed on connector, and so, the fixed installation of stationary knife is stable and easy to operate, in this connector, be provided with bearing block, in this bearing block, bearing is installed, this moving knife comprises cutter shaft, and this cutter shaft is through bearing, so, moving knife is difficult for occurring deflection or play, and the gap between shearing leaf and the shearing wing is more stable, and therefore crushing effect also can keep relative stability.

Described stationary knife comprises connector, and stationary knife is fixed in this connector one end, and the other end is removably fixed on bottom of cup, and described connector is the cover body with pod apertures; Or described connector is support, simple in structure, easy to use.

Described stationary knife also comprises connecting shears the reinforcing ring of blade tip, so, makes the intensity of stationary knife larger, and stationary knife is not yielding, stablizes with the gap of shearing between the wing thereby guarantee to shear leaf, makes crushing effect more stable.

Described reinforcing ring is also provided with poly-material shirt rim up or down, so, material can be gathered in largely and shear leaf and shear between the wing and shear pulverizing, further improves crush efficiency.

Brief description of the drawings

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is the profile of efficient pulverizing soy bean milk making machine the first preferred embodiments described in the utility model;

Fig. 2 is the schematic diagram of reducing mechanism described in Fig. 1;

Fig. 3 is the schematic diagram of stationary knife described in Fig. 1;

Fig. 4 is the schematic diagram of moving knife described in Fig. 1;

Fig. 5 is the another kind of structural representation of described stationary knife;

Fig. 6 is another structural representation of described stationary knife;

Fig. 7 is the profile of efficient pulverizing soy bean milk making machine the second preferred embodiments described in the utility model;

Fig. 8 is the schematic diagram of stationary knife described in Fig. 7;

Fig. 9 is the another kind of structural representation of described connector.

The label that in figure, component names is corresponding is as follows:

10, efficient pulverizing soy bean milk making machine; 11, support; 12, cup; 13, reducing mechanism; 131, motor; 132, stationary knife; 1321, wing root; 1322, stationary knife is sheared leaf; 133, moving knife; 1331, wing root; 1332, moving knife is sheared the wing; 1333, cutter shaft; 1334, nut; 1335, cutting edge; 1336, wing; 14, connector; 141, Simmer ring; 142, bearing; 21, stationary knife; 211, stationary knife is sheared leaf; 212, reinforcing ring; 31, reinforcing ring; 311, poly-material shirt rim; 3111, flow-interfering bar; 312, stationary knife is sheared leaf; 41, stationary knife; 411, connector; 4111, pod apertures; 412, wing root; 413, shear leaf; 414, reinforcing ring; 42, moving knife is sheared the wing; 51, connector; 511, installation portion; 512, shear leaf; 513, connecting rod.

Detailed description of the invention

Below in conjunction with drawings and the embodiments, the utility model is described in further detail:

Embodiment one:

The first preferred embodiments that sees also the utility model efficient pulverizing soy bean milk making machine shown in Fig. 1 and Fig. 2, described efficient pulverizing soy bean milk making machine 10 comprises support 11, cup 12 and reducing mechanism 13, this cup 12 buckles on support 11.

Described reducing mechanism 13 comprises motor 131, stationary knife 132 and moving knife 133, and this motor 131 is arranged in support 11, and this motor 131 drives moving knife 133 to rotate.

See also Fig. 3, described stationary knife 132 comprises wing root 1321 and at least two at grade and the shearing leaf 1322 being connected with stationary knife wing root 1321, described cup 12 bottoms are also fixed with connector 14, in this connector 14, be provided with bearing block and Simmer ring 141, in this bearing block, be fixed with bearing 142, this stationary knife 132 is fixed on connector 14 by wing root 1321.In the present embodiment, described shearing leaf 1322 is in same level.

See also Fig. 4, described moving knife 133 comprises wing root 1331 and at least one and stationary knife shearing leaf 1322 moving knife shearing parallel and that be connected with wing root 1331 wing 1332 with installing hole, this moving knife is sheared the wing 1332 and is positioned at stationary knife shearing leaf 1322 tops, in the present embodiment, this moving knife 133 also comprises cutter shaft 1333, this cutter shaft 1333 is provided with screw thread, these cutter shaft 1333 one end are through the installing hole of wing root 1331, this moving knife 133 is removably fixed on one end of cutter shaft 1333 through nut 1334, these cutter shaft 1333 other ends are connected with the motor shaft of motor 131 through shaft coupling 143 through bearing 142, this cutter shaft 1333 seals through Simmer ring 142, this moving knife is sheared the wing 1332 and is offered cutting edge 1335, the face of putting the first edge on a knife or a pair of scissors that this moving knife is sheared the wing 1332 deviates from stationary knife shearing leaf 1322, i.e. putting the first edge on a knife or a pair of scissors facing to rim of a cup of this cutting edge 1335, this motor 131 drives this moving knife to shear in the wing 1332 rotations and takes out material, material circulates from top to bottom, this shearing wing 1332 interacts and shears comminuting matters with shearing leaf 1322.

In the present embodiment, described reducing mechanism 13 also comprises the circulation member that material is circulated from bottom to top, and this circulation member is wing 1336, and this wing 1336 is connected with moving knife wing root 1331, and this wing 1336 deviates from shearing leaf 1322 and bends.In the present embodiment, this wing 1336 offers cutting edge 1335 equally, and the face of putting the first edge on a knife or a pair of scissors of this cutting edge 1335 can be towards head, thereby the cyclic force from bottom to top of strength imparting material further promotes crushing effect.The face that puts the first edge on a knife or a pair of scissors of certain described cutting edge 1335 also can be towards bottom of cup, and material is circulated from the top down, and the loop direction between this wing 1336 and the shearing wing 1332 is contrary, thereby makes material shape become convection effects, also can promote crushing effect.

The quantity of described wing 1336 is less than the quantity of shearing the wing 1332, and described wing 1336 is odd number with the quantity sum of shearing the wing 1332, and the quantity of described shearing leaf 1322 is even number.In the present embodiment, described wing 1336 adjacent and continuously arrange, described shearing leaf 1322 is 8, the described shearing wing 1332 is 4, this wing 1336 is 3.

In the present embodiment, described shearing leaf 1322 and the gap of shearing between the wing 1332 are 0.05 to 2 millimeter, for example, 0.1 millimeter, 0.2 millimeter, 0.3 millimeter, 0.4 millimeter, 0.5 millimeter, 0.6 millimeter, 0.7 millimeter, 0.8 millimeter, 0.9 millimeter, 1 millimeter, 1.1 millimeters, 1.2 millimeters, 1.3 millimeters, 1.4 millimeters, 1.5 millimeters, 1.6 millimeters, 1.7 millimeters, 1.8 millimeters, 1.9 millimeters, 2 millimeters etc., in the time that the gap between shearing leaf 1322 and the shearing wing 1332 is less than 0.05 millimeter, the accuracy of manufacture requires larger, and cost is higher; In the time that the gap between shearing leaf 1322 and the shearing wing 1332 is greater than 2 millimeters, smashing fineness can reduce, and can not reach preferably the crushing effect without slag.

When comminuting matter, this motor 131 drives in moving knife 133 rotations and takes out material, and material circulates from the bottom up, shears pulverizing thereby this moving knife shearing wing 1332 rotates to interact to realize with stationary knife shearing leaf 1322.The present invention has changed traditional blade cut formula and has pulverized, stationary knife 132 and moving knife 133 form shears pair, moving knife 133 often rotates a circle and laterally repeatedly shears material, material is repeatedly circulated to be sheared leaf 1322 and shears between the wing 1332 and realize several times to cutting pulverizing, no matter be oarse-grained material or tiny material, can be sheared preferably pulverizing, compared with pulverizing with traditional blade cut formula, greatly promote crush efficiency, especially the pulverizing to fine particle, has so realized " without slag " preferably and has pulverized.

Be appreciated that described reducing mechanism also can comprise the circulation member that material is circulated from the top down, certainly.This circulation member cyclic force from the top down also can be greater than shears wing cyclic force from bottom to top, thereby makes material finally with the pulverizing that circulates from the top down.

Be appreciated that described circulation member can be also impeller, this impeller and moving knife can be that same cutter shaft drives, and this impeller can be positioned at the top of stationary knife and moving knife, also can be positioned at the below of stationary knife and moving knife; This impeller can not belong to same cutter shaft with moving knife yet in addition, and this impeller can be positioned at the top of stationary knife and moving knife, or can be positioned at the below of stationary knife and moving knife yet; Or also can be positioned at the side of stationary knife and moving knife.

Be appreciated that described wing also can reverse certain angle, the direction difference of torsion, it drives the direction of Matter Transfer also different, by the torsion of wing is further promoted to cyclic force, thereby promotes crushing effect, and described wing reverses 5 to 60 degree.So, processing simple in structure can realize circulation, is less than 5 while spending when wing reverses, and its circulating effect is not too obvious, and when wing reverses, to be greater than 60 cyclic forces while spending excessive, easily causes splash.Therefore, wing reverses 5 to 60 degree, best results.

Be appreciated that, described circulation member is crushing knife, this crushing knife comprises wing, this crushing knife and moving knife and stationary knife be independent setting respectively, this crushing knife can with the same cutter shaft of moving knife, also cutter shaft that can be different, this crushing knife can be positioned at moving knife and stationary knife above or below, also can be positioned at the side of moving knife and stationary knife.

Be appreciated that described moving knife is directly fixed on the motor shaft of motor.

Be appreciated that, the shearing Ye Shangye of described stationary knife offers cutting edge, putting the first edge on a knife or a pair of scissors facing to bottom of cup of this cutting edge, this edge direction is contrary with the edge direction of shearing the wing, so, shear leaf and just shear between the wing as scissors, continuous circulation shear material, shear leaf and also offer cutting edge, further improved crush efficiency.

Be appreciated that described wing and the quantity sum of shearing the wing are even number, the quantity of described shearing leaf is odd number, so, makes to shear the wing and wing and can not overlap with shearing leaf completely, pulverizes dead angle while avoiding coincidence status, further improves crush efficiency.

Be appreciated that, described wing can be symmetric with the shearing wing, the angle between adjacent wing is identical between two, shear being disposed between wing and wing of wing symmetry simultaneously, for example, wing is 2, when the shearing wing is 4, angle between two wings is 180 °, shears the wing being distributed between wing and wing symmetrically between two; When wing quantity is 3, shear the wing while being 3, the angle between adjacent two wings is 120 °, shears the wing respectively in the symmetrical interval that is arranged on wing and wing etc. for 3.

Be appreciated that, described wing can be also asymmetric distribution with shearing winged petiole, asymmetric between wing and wing, or shear the wing and shear between the wing asymmetric, or wing and wing are asymmetric to be sheared the wing simultaneously and shears between the wing also asymmetric, for example wing is 1, shears the wing and at least comprises 2; Wing is 2, shears 4, the wing, and wing and wing are adjacent and arrange continuously, or between wing and wing, is one on one side and shears the wing, and another side is 3 shearing wings etc.

Be appreciated that described cup also comprises bowl cover, lid is provided with flow-disturbing curved surface, and this flow-disturbing curved surface is positioned at 10 to 80 millimeters of reducing mechanism tops.

Be appreciated that described cup also comprises bowl cover, described stationary knife also can directly be fixed on bowl cover.

Refer to the another kind of structural representation of the stationary knife shown in Fig. 5, described stationary knife 21 also comprises the reinforcing ring 212 that connects shearing leaf 211 ends.So, make the intensity of stationary knife 21 larger, stationary knife 21 is not yielding, thereby guarantees to shear leaf 211 and shear gap between the wing stable, makes crushing effect more stable.

Refer to another structural representation of the stationary knife shown in Fig. 6, on described reinforcing ring 31, be also provided with poly-material shirt rim 311 upwards, this poly-material shirt rim 311 is provided with flow-interfering bar 3111, so, material can be gathered in largely and shear leaf 312 and shear between the wing and shear pulverizing, further improve crush efficiency.Certainly described poly-material shirt rim also can be set to poly-material shirt rim upwards, on this poly-material shirt rim, breach or hole also can be set.Certainly, described reinforcing ring also can be provided with downward poly-material shirt rim.

Embodiment two:

See also Fig. 7 and Fig. 8, shown in the second preferred embodiments of the utility model efficient pulverizing soy bean milk making machine, the soy bean milk making machine 20 of this efficient pulverizing is with the difference of the soy bean milk making machine 10 of efficient pulverizing: described stationary knife 41 comprises connector 411, wing root 412 and at least two at grade and the shearing leaf 413 being connected with wing root 412, in the present embodiment, described stationary knife 41 also comprises the reinforcing ring 414 that connects shearing leaf 413 ends, this connector 411 is connected with reinforcing ring 414, described connector 411 is cover body, offers pod apertures 4111 on this cover body.Described moving knife is sheared the wing 42 and is positioned at stationary knife shearing leaf 413 belows, and this moving knife is sheared wing 42 and offered cutting edge, and the face of putting the first edge on a knife or a pair of scissors of this cutting edge deviates from stationary knife shearing leaf 413 and arranges, i.e. putting the first edge on a knife or a pair of scissors facing to bottom of cup of the cutting edge of this moving knife shearing wing 42.

When comminuting matter, this motor 131 drives moving knife to shear the wing 42 rotating down pressing materials, and material circulates from top to bottom, shears pulverizing thereby this moving knife shearing wing 42 rotates to interact to realize with stationary knife shearing leaf 413.The present invention has changed traditional blade cut formula and has pulverized, stationary knife 41 and moving knife form shears pair, moving knife often rotates a circle and laterally repeatedly shears material, material is repeatedly circulated to be sheared leaf 413 and shears between the wing 42 and realize several times to cutting pulverizing, no matter be oarse-grained material or tiny material, can be sheared preferably pulverizing, compared with pulverizing with traditional blade cut formula, greatly promoted crush efficiency, the especially pulverizing to fine particle, has so realized " without slag " preferably and has pulverized.

Refer to another structural representation of connector described in Fig. 9, described connector is support 51, this support 51 comprises the installation portion 511 coordinating with bottom of cup and is connected and installed the connecting rod 513 of portion 511 and reinforcing ring 512, and certainly, described connecting rod also can directly be connected with shearing leaf.

Claims (10)

1. the soy bean milk making machine of an efficient pulverizing, comprise support, cup and reducing mechanism, this cup buckles on support, it is characterized in that: described reducing mechanism comprises motor, stationary knife and moving knife, this motor is arranged in support, this driven by motor moving knife rotation, this stationary knife comprises wing root and at least two at grade and the shearing leaf being connected with stationary knife wing root, this moving knife comprises wing root and at least one and the stationary knife shearing leaf shearing wing parallel and that be connected with moving knife wing root, this moving knife is sheared the wing and is positioned at above or below stationary knife shearing leaf, the face of putting the first edge on a knife or a pair of scissors that this moving knife is sheared the wing deviates from stationary knife shearing leaf, this motor drives this moving knife shearing wing rotation to shear and pulverize with stationary knife shearing leaf interaction realization.

2. the soy bean milk making machine of efficient pulverizing as claimed in claim 1, is characterized in that: described reducing mechanism also comprises the circulation member that material is circulated from the top down or circulate from bottom to top.

3. the soy bean milk making machine of efficient pulverizing as claimed in claim 2, is characterized in that: described circulation member is wing, and this wing is connected with moving knife wing root; Or described circulation member is crushing knife, and this crushing knife comprises wing.

4. the soy bean milk making machine of efficient pulverizing as claimed in claim 3, is characterized in that: described wing offers cutting edge, and this wing deviates from shears leaf bending.

5. the soy bean milk making machine of efficient pulverizing as claimed in claim 2, is characterized in that: described circulation member is impeller, described driven by motor vane rotary.

6. the soy bean milk making machine of the efficient pulverizing as described in claim 3 or 4, is characterized in that: described wing reverses 5 to 60 degree.

7. the soy bean milk making machine of efficient pulverizing as claimed in claim 1, it is characterized in that: described reducing mechanism also comprises the connector that is fixed on bottom of cup, this stationary knife is fixed on connector, in this connector, be provided with bearing block, in this bearing block, bearing is installed, this moving knife comprises cutter shaft, and this cutter shaft is through bearing.

8. the soy bean milk making machine of efficient pulverizing as claimed in claim 1, is characterized in that: described stationary knife comprises connector, and stationary knife is fixed in this connector one end, and the other end is removably fixed on bottom of cup, and this connector is the cover body with pod apertures; Or described connector is support.

9. the soy bean milk making machine of the efficient pulverizing as described in claim 1 to 8 any one, is characterized in that: described stationary knife also comprises the reinforcing ring that connects shearing blade tip.

10. the soy bean milk making machine of efficient pulverizing as claimed in claim 9, is characterized in that: described reinforcing ring is also provided with poly-material shirt rim up or down.