CN105249857B - The head of food processor - Google Patents
The head of food processor Download PDFInfo
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- CN105249857B CN105249857B CN201410857517.2A CN201410857517A CN105249857B CN 105249857 B CN105249857 B CN 105249857B CN 201410857517 A CN201410857517 A CN 201410857517A CN 105249857 B CN105249857 B CN 105249857B
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Abstract
The invention discloses a kind of heads of food processor, including:Head body;Rotary shaft;Motor, motor are located in head body, and motor is connected with the second end of rotary shaft;Mill, mill includes vessel, vessel is revolving body, vessel installation is on the rotary shaft and rotatable relative to head body and rotary shaft, vessel has side peripheral wall, roof and bottom wall, there is grinding chamber in vessel, grinding chamber has the first material mouth and the second material mouth, one in first material mouth and the second material mouth is feed inlet, another is discharge port, first material mouth is formed on bottom wall, and the second material mouth is formed in one of side peripheral wall and roof and above or from side peripheral wall extends to roof, and the gross area of the first material mouth is less than the area of bottom wall;Crushed piece, crushed piece are mounted on the first end of rotary shaft and in grinding chambers.The head of food processor according to the ... of the embodiment of the present invention, crushes and effects on slurry making is good, and operating noise is small, and pulping efficiency is high and low energy consumption.
Description
Technical field
The present invention relates to food Treatment Technology fields, and in particular, to a kind of head of food processor.
Background technology
Soy bean milk making machine, fruits and vegetables juicer etc. are common food processors.For example, soy bean milk making machine is made using motor in the related technology
For power part, the crushed piece high speed rotation in ladle body is driven, to realize the crushing to the food materials in ladle body.However, traditional beans
Noise is larger at work, effects on slurry making is poor, slurrying concentration is low for pulp grinder, high energy consumption, difficult cleaning of problem, moreover, in infusion
In be easy to be sticking, therefore there are improved needs.
Invention content
The application is made to problems with and true consciousness and discovery based on inventor.
The food processor of such as soy bean milk making machine generates big noise in operation, and reason is:Crushed piece such as crushes knife up
Speed is rotated and is mutually collided with food materials, noise is generated while crushing food materials, and high-speed rotating crushed piece drives food materials
It is rotated in ladle body, the inner wall of food materials and ladle body, which is mutually hit, generates noise, so that making an uproar of generating at work of soy bean milk making machine
Sound is very big.
Further, since crushed piece crushes food materials (such as bean or pea) in ladle body, the inner cavity of ladle body is big, therefore, the crushing of food materials
Efficiency and crushing effect are poor, and slurrying concentration is low, high energy consumption.
In addition, during infusion, slurries, which are easy to happen, to be sticking.Moreover, food processor in the related technology there is also
Difficult cleaning of problem.
Document 1-CN1613410A proposes a kind of Are Easy to Clean Multi-Soya-Bean Milk Machine, is led wherein being fixed on head lower cover
Stream cover, in order to clean.However, the soy bean milk making machine in document 1 is in operation, the food materials rotated in ladle body and it is fixed on head
Kuppe collision, increase the noise of soy bean milk making machine, and kuppe consumes the kinetic energy of food materials, leads to high energy consumption.Also, still
So there is a problem of crush efficiency and crushing effect difference.
Document 2-CN102018053 discloses a kind of soy bean milk making machine, which includes flow-disturbing frame and limited block, flow-disturbing frame set
It is located on motor output shaft, limited block is located on the position opposite with flow-disturbing frame, to stop flow-disturbing frame.When soy bean milk making machine operates,
Limited block stops that flow-disturbing frame is rotated with the food materials rotated in ladle body relative to ladle body and head body, in other words, when food materials exist
In ladle body when rotation, flow-disturbing frame is static under the blocking of limited block, to be stirred to the food materials of rotation.In document 2, due to disturbing
It is motionless relative to ladle body and head body to flow frame, as document 1, high-speed rotating food materials are collided with flow-disturbing frame in ladle body,
The noise of soy bean milk making machine is increased, and the flow-disturbing frame static relative to ladle body consumes the kinetic energy of food materials, leads to high energy consumption, and
And the crushing of food materials carries out still in ladle body, crush efficiency and crushing effect are poor, and slurrying concentration is low.
Document 3-CN201467923 discloses a kind of with the soy bean milk making machine for streaming spinning grinding fluid director, wherein water conservancy diversion
Device is rotatably installed in rotary shaft and includes multiple blades, when in use, under slurry stream movement effect caused by blade rotation,
Air deflector can have rotation, reinforce cycle, improve crushing effect, defoam simultaneously.But in document 3, on the one hand, air deflector
On the rotary shaft, since the rotating speed of rotary shaft is very high, rotating speed of the air deflector under the drive of slurry stream is low, therefore air deflector for installation
Speed discrepancy between rotary shaft is big, causes the abrasion of air deflector and rotary shaft big, reduces service life.On the other hand, it leads
Stream device includes the form of the blade on water conservancy diversion ontology, and therefore, slurrying carries out still in ladle body, and the process to slurrying is only
To the effect of stirring, however it remains noise is big, effects on slurry making and the problem that pulping efficiency is poor, slurrying concentration is low.
Present inventor has found and recognizes, the relevant technologies on the basis of above-mentioned document, by largely studying
In still have technical problems to be solved in this application, such as noise is big, effects on slurry making and pulping efficiency are poor, slurrying concentration
The problems such as low, high energy consumption.For this purpose, the application proposes a kind of mill, there is grinding chamber in the mill, by by mill phase
Ladle body and the rotary shaft mounted thereto relative to crushed piece are rotatably provided in the ladle body of soy bean milk making machine, i.e., in soya-bean milk
When machine is run, rotary shaft drives crushed piece rotation, to crush the food materials in ladle body and food materials driven to be rotated in ladle body, while bucket
Food materials in body drive mill rotation (i.e. food materials drive mill to be rotated relative to ladle body), simultaneously because the rotating speed of mill
Less than the rotating speed of rotary shaft, therefore mill is rotated also relative to rotary shaft.
In other words, rotary shaft drives crushed piece high speed rotation, high-speed rotating crushed piece that food materials is driven to be rotated in ladle body,
Under the drive of food materials, mill absorb food materials part kinetic energy and with food materials rotating Vortex, since mill is in the band of food materials
The speed discrepancy of dynamic lower rotating Vortex, mill and food materials becomes smaller, while the mill rotated can also smoothly stir food materials
It mixes, thus food materials being more evenly distributed in ladle body, the rotation of food materials is also more steady, and the flow-disturbing effect of mill is then more aobvious
It writes, while also reducing the noise that food materials are generated with mill because speed discrepancy is larger, be better achieved to soy bean milk making machine noise reduction
Purpose.
In addition, under the drive of food materials, mill absorbs the part kinetic energy of food materials with food materials rotating Vortex, and food materials exist
Under the action of mill, kinetic energy becomes smaller, and rotating speed reduces, and the speed discrepancy of food materials and crushed piece becomes larger, and is equivalent to crushed piece cutting speed
Degree becomes larger, and therefore, the effect of crushing can be more preferable.
Present inventor further study show that, due to mill have grinding chamber, rotary shaft drive crushed piece
When rotation, slurrying can carry out in grinding chamber, improve crushing effect and efficiency, improve slurrying concentration, reduce noise,
Especially, negative pressure can be formed when crushed piece is located in grinding chamber, in grinding chamber, and (pressure i.e. in grinding chamber is less than soy bean milk making machine
Ladle body in pressure), be inhaled into grinding chamber to food materials, food materials are crushed in grinding chamber, further reduced noise,
Crush efficiency and effect are improved, slurrying concentration improves.
Reduce compared with the volume of ladle body since the volume of grinding chamber is less than, in grinding chamber, crushed piece collision food
The probability of material increases, and then improves the crush efficiency and crushing effect of food materials, further improves slurrying concentration, simultaneously because
Relative to rotary shaft (thus relative to crushed piece) and ladle body under the drive of food materials of the mill with grinding chamber in ladle body
Relative rotation, therefore, food materials are further ground in the grinding chamber of mill, further improve food materials crushing effect and
Efficiency, and slurrying concentration greatly improves, and therefore, the mill in the application has grinding and the double action of flow-disturbing.
It in the description below the application, is described by taking soy bean milk making machine as an example, it is to be understood that referred in the application
Food processor is not limited to soy bean milk making machine, such as can be juicer, food disintegrating apparatus etc..Correspondingly, below the application
In description, food materials can be bean or pea, such as soya bean, can also refer to the mixture of " bean or pea and water ", for example, when description crushes food materials
When, food materials can refer to bean or pea, and when description food materials rotate in ladle body, food materials can refer to bean or pea, the bean or pea of crushing and water
Mixture, but the application is without being limited thereto, such as food materials can also be other mixtures, such as fruit or vegetables and water is mixed
Close object.Those skilled in the art is understood that.
For this purpose, the present invention proposes a kind of head of food processor, using the head, food processor is made an uproar at work
Sound is small, and pulping efficiency and effects on slurry making are good, slurrying concentration is high, low energy consumption, and are not easy to be sticking in infusion, easy cleaning.
The head of food processor according to the ... of the embodiment of the present invention, including:Head body;Rotary shaft, the rotary shaft tool
There is first end and second end;Motor, the motor are located in the head body, the second end of the motor and the rotary shaft
It is connected to drive the rotary shaft to rotate;Mill, the mill include vessel, and the vessel is revolving body,
The vessel is mounted in the rotary shaft and, the container rotatable relative to the head body and the rotary shaft
Ontology has side peripheral wall, roof and bottom wall, has grinding chamber in the vessel, and the grinding chamber has the first material mouth and the
Two material mouths, one in first material mouth and second material mouth is feed inlet, first material mouth and second material mouth
In another be discharge port, first material mouth is formed on the bottom wall, and second material mouth is formed in the side peripheral wall
Upper or extend to the roof from the side peripheral wall with one of the roof, the gross area of first material mouth is less than the bottom wall
Area;Crushed piece, the crushed piece are mounted on the first end of the rotary shaft and in the grinding chambers.
The head of food processor according to the ... of the embodiment of the present invention, head body is interior to be equipped with motor, and motor can drive rotation
Shaft rotation is dynamic, and due to having grinding chamber in vessel, rotary shaft first end stretches into grinding chamber and first end is equipped with and is located at
Crushed piece in grinding chamber can form negative pressure in grinding chamber, eat in use, motor driving rotary shaft drives crushed piece rotation
Material can from the throat-fed in the first material mouth and the second material mouth, after food materials are crushed in grinding chamber, from discharge hole for discharge,
Process of lapping is completed in grinding chamber, and operating noise is small, and pulping efficiency and effects on slurry making are good, slurrying concentration is high, low energy consumption;Together
When, when the gross area of the first material mouth is less than the area of bottom wall, then the bottom wall of grinding chamber can be formed as throat structure.This kind contracts
Mouth structure can make to limit a relatively closed grinding chamber in vessel, when crushed piece rotates, in grinding chamber
Portion preferably can form negative pressure, so as to preferably crush food materials in grinding chamber, good crushing effect.
In addition, the head of food processor according to the ... of the embodiment of the present invention, can also have following additional technical characteristic:
According to one embodiment of present invention, first material mouth is one, and second material mouth is multiple and along described
The circumferentially-spaced arrangement of vessel.
According to one embodiment of present invention, first material mouth is circular open and is formed in the center of the bottom wall,
Second material mouth is circular open and is formed on the side peripheral wall.
According to one embodiment of present invention, first material mouth is circular open and is formed in the center of the bottom wall,
Second material mouth is that the slot hole of the roof is extended to from the side peripheral wall.
According to one embodiment of present invention, the vessel includes top shell and bottom case, the top shell and the bottom case
It is detachably connected.
According to one embodiment of present invention, the roof and the bottom wall respectively with the side peripheral wall arc transition.
According to one embodiment of present invention, on the axial cross section of the vessel, the roof and the bottom wall
It is straight or arc for flat and described side peripheral wall.
According to one embodiment of present invention, the rotary shaft and the motor shaft of the motor for same axis or pass through transmission
The motor shaft of coupler and the motor is detachably connected.
According to one embodiment of present invention, the rotary shaft is equipped with backstop fastener, and the vessel passes through institute
Backstop fastener is stated to be rotatably installed in the rotary shaft.
According to one embodiment of present invention, the outer surface of the bottom wall is equipped with protrusion or blade.
The additional aspect and advantage of the present invention will be set forth in part in the description, and will partly become from the following description
Obviously, or practice through the invention is recognized.
Description of the drawings
The above-mentioned and/or additional aspect and advantage of the present invention will become in the description from combination following accompanying drawings to embodiment
Obviously and it is readily appreciated that, wherein:
Fig. 1 and Fig. 2 is the structural schematic diagram of the mill according to an embodiment of the invention for food processor;
Fig. 3 and Fig. 4 is the structural schematic diagram of the mill in accordance with another embodiment of the present invention for food processor;
Fig. 5 and Fig. 6 is the sectional view according to the mill for food processor of two kinds of embodiments of the invention;
Fig. 7 and Fig. 8 is the structural schematic diagram according to the mill for food processor of further embodiment of the present invention;
Fig. 9 and Figure 10 is the structural representation of the mill in accordance with another embodiment of the present invention for food processor
Figure;
Figure 11 to Figure 13 is the structural representation according to the mill for food processor of another embodiment of the invention
Figure;
Figure 14 and Figure 15 is the structural schematic diagram of the mill according to an embodiment of the invention for food processor;
Figure 16 to Figure 18 is the structural representation of the mill in accordance with another embodiment of the present invention for food processor
Figure;
Figure 19 and Figure 20 is the structural representation according to the mill for food processor of further embodiment of the present invention
Figure;
Figure 21 and Figure 22 is the structural representation of the mill in accordance with another embodiment of the present invention for food processor
Figure;
Figure 23 and Figure 24 is the structural representation according to the mill for food processor of another embodiment of the invention
Figure;
Figure 25 is the sectional view of the shredder assemblies according to an embodiment of the invention for food processor;
Figure 26 and Figure 27 is the structural representation of the shredder assemblies according to an embodiment of the invention for food processor
Figure;
Figure 28 and Figure 29 is that the structure of the shredder assemblies in accordance with another embodiment of the present invention for food processor is shown
It is intended to;
Figure 30 and Figure 31 is shown according to the structure of the shredder assemblies for food processor of another embodiment of the invention
It is intended to;
Figure 32 and Figure 33 is shown according to the structure of the shredder assemblies for food processor of further embodiment of the present invention
It is intended to;
Figure 34 and Figure 35 is that the structure of the shredder assemblies in accordance with another embodiment of the present invention for food processor is shown
It is intended to;
Figure 36 and Figure 37 is shown according to the structure of the shredder assemblies for food processor of another embodiment of the invention
It is intended to;
Figure 38 and Figure 39 is shown according to the structure of the shredder assemblies for food processor of further embodiment of the present invention
It is intended to;
Figure 40 is the sectional view of the head of food processor according to an embodiment of the invention;
Figure 41 is the sectional view of the head of food processor in accordance with another embodiment of the present invention;
Figure 42 is the sectional view of food processor according to an embodiment of the invention.
Reference numeral:
Mill 100;Shredder assemblies 200;Head 300;Food processor 400;
Vessel 10;Roof 101;Bottom wall 102;Side peripheral wall 103;Top shell 104;Bottom case 105;Prismatic structure 106;Protrusion
107;
Grinding chamber 11;First material mouth 12;Second material mouth 13;Axis hole 14;Recess 15;Groove 16;
Rotary shaft 20;First end 21;Second end 22;It is driven coupler 23;Backstop fastener 24;
Crushed piece 30;
Head body 40;Head lower cover 41;Card slot 42;Motor 50;Motor shaft 51;
Ladle body 60.
Specific implementation mode
The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end
Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached
The embodiment of figure description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.
First below the mill 100 according to the ... of the embodiment of the present invention for food processor is specifically described in conjunction with attached drawing.
As shown in Fig. 1 to Figure 24, the mill 100 according to the ... of the embodiment of the present invention for food processor includes container sheet
Body 10, vessel 10 is interior, and there is grinding chamber 11, grinding chamber 11 to have the first material mouth 12 and the second material mouth 13,12 He of the first material mouth
One in second material mouth 13 is feed inlet, another in the first material mouth 12 and the second material mouth 13 is discharge port.
In other words, mill 100 according to the ... of the embodiment of the present invention includes a vessel 10, is limited in vessel 10
There is grinding chamber 11, vessel 10 is equipped with the first material mouth 12 and the second material mouth 13 be connected with grinding chamber 11, wherein the first material mouth
12 can be feed inlet, or discharge port, the second material mouth 13 also not only can be feed inlet, but also can be discharge port.
Specifically, when the first material mouth 12 is feed inlet, then the second material mouth 13 is discharge port, when the first material mouth 12 is discharging
When mouth, then the second material mouth 13 is feed inlet.First material mouth 12 and the second material mouth 13 can be material mouth independently, or
The first material mouth 12 and the second material mouth 13 can be respectively set in the same material mouth on vessel 10, can also be by the first material mouth
12 and second material mouth 13 be set as the same material mouth, i.e., the material mouth both can be used as feed inlet, can also be used as discharge port.
Mill 100 according to the ... of the embodiment of the present invention for food processor as a result, due to having in vessel 10
Grinding chamber 11, in use, negative pressure can be formed in grinding chamber 11, food materials can from the first material mouth 12 and the second material mouth 13 into
Material mouth is fed, and after food materials are crushed in grinding chamber 11, from discharge hole for discharge, process of lapping is completed in grinding chamber 11, work
Noise is small, and pulping efficiency and effects on slurry making are good, slurrying concentration is high, low energy consumption.
According to one embodiment of present invention, vessel 10 have roof 101, bottom wall 102 and side peripheral wall 103, first
Material mouth 12 and the second material mouth 13 are same opening, are open single or multiple on bottom wall 102 to be formed in, the gross area of opening is small
In the area of bottom wall 102.
As depicted in figs. 1 and 2, vessel 10 is made of roof 101, bottom wall 102 and side peripheral wall 103, the first material mouth 12
It is set as the same material mouth with the second material mouth 13, which is located on bottom wall 102, can not only be used as feed inlet, but also can conduct
Discharge port.
Opening can be made of multiple apertures be connected with grinding chamber 11, can also be made of a macropore, opening it is total
Area is less than the area of bottom wall 102, and when opening is made of a macropore, then the opening be connected with grinding chamber 11 is in bottom wall 102
On be formed as throat structure, food materials enter grinding chamber 11 from the necking and are ground, and grinding is completed and then from the necking stream
Go out.
Mill 100 according to the ... of the embodiment of the present invention can be equipped with axis hole 14 at the center at the top of vessel 10, should
When in use, the rotary shaft of food processor can pass through axis hole 14, the crushed piece in rotary shaft to stretch into the mill 100 of structure
In grinding chamber 11, when rotary shaft drives crushed piece rotation, slurrying can carry out in grinding chamber 11.
When crushed piece is located in grinding chamber 11, crushed piece rotates, and negative pressure, i.e. grinding chamber 11 can be formed in grinding chamber 11
Interior pressure is less than the pressure in the ladle body of food processor, to which food materials can be inhaled from the necking of the lower section of vessel 10
Enter in grinding chamber 11, food materials are crushed in grinding chamber 11, are reduced noise, are improved crush efficiency and effect, slurrying concentration
It improves.
The throat structure of vessel 10 can make to limit a relatively closed grinding chamber in vessel 10
11, the vessel 10 of the structure can preferably form negative pressure, so as to more when crushed piece rotates in grinding chamber 11
Food materials are crushed in grinding chamber 11 well.It is discharged again from throat structure in addition, crushing the food materials completed, meeting pair in discharge process
Food materials into necking play the role of certain flow-disturbing, can also further increase crushing effect.
In other specific implementation modes of the present invention, vessel 10 has roof 101, bottom wall 102 and side peripheral wall
103, the first material mouth 12 is formed on bottom wall 102 and the gross area of the first material mouth 12 is less than the area of bottom wall 102, the second material mouth 13
It is formed in one of side peripheral wall 103 and roof 101 and above or from side peripheral wall 103 extends to roof 101.
As shown in Figures 3 to 8, in an embodiment of the present invention, the first material mouth 12 and the second material mouth 13 are that two difference are only
Vertical trepanning, wherein the first material mouth 12 is located on bottom wall 102, and is similarly formed as throat structure, and the second material mouth 13 then can be with
It is located on roof 101, can also be located on side peripheral wall 103, can also simultaneously be located on side peripheral wall 103 and roof 101.
Wherein, the first material mouth 12 being arranged on the bottom wall 102 in the embodiment of the present invention is throat structure, and the throat structure was both
It can be used as feed inlet, can also be used as discharge port.The throat structure is similar with the throat structure in above-described embodiment, therefore not
It is described in detail again.
Second material mouth 13 and the first material mouth 12 are mutual independent two material mouths, and the second material mouth 13 is located on vessel 10
Other positions other than the bottom wall 102 of the first material mouth 12 is arranged, i.e., can both be located on roof 101, can also be located at side
On peripheral wall 103, it can also be located in the two simultaneously.
Specifically, as shown in Figure 3 and Figure 4, in this embodiment, the second material mouth 13 includes multiple, multiple second material mouths 13
It is respectively separated and is opened on roof 101.As shown in Figure 5 and Figure 6, in this embodiment, the second material mouth 13 is then located at side peripheral wall 103
On.In Fig. 7 and embodiment shown in Fig. 8, the second material mouth 13 then extends to roof from the side peripheral wall 103 of vessel 10
On 101.
Mill 100 according to the ... of the embodiment of the present invention, when the first material mouth 12 is feed inlet, then the second material mouth 13 is discharging
Mouthful, when the first material mouth 12 is discharge port, then the second material mouth 13 can be used as feed inlet, the exchange between inlet port and outlet port
It can be adjusted by the rotation direction of crushed piece in rotary shaft, which is to those skilled in the art can be with
Understand and easy to implement, therefore is not described in detail.
When in use, no matter the first material mouth 12 is used as feed inlet or discharge port to the mill 100 of the structure, from feed inlet
The food materials of entrance and from discharge port flow out food materials between can distinguish, feed inlet can normally enter food materials, discharge port
Food materials can be normally flowed out, the two will not interfere with each other, so as to improve the repulping rate and pulping efficiency of food processor.
As shown in figure 5, according to one embodiment of present invention, roof 101, bottom wall 102 and the side peripheral wall of vessel 10
103 structures that can be formed as one, i.e., the structure that vessel 10 is formed as one, the vessel 10 is simple in structure, at
Type is convenient, and structural stability is strong, of low cost.
And as shown in fig. 6, in other specific implementation modes of the present invention, vessel 10 may be to assemble
Structure, vessel 10 may include top shell 104 and the bottom case being detachably connected with top shell 104 105, top shell 104 and bottom
Shell 105 can be connected through a screw thread.
Wherein, bottom case 105 can be formed as the tubbiness of open upper end, and the first material mouth 12 can be located at the bottom wall of bottom case 105
On, top shell 104 can be formed as the tubbiness of open at its lower end, and the second material mouth 13 can be located on the peripheral wall of top shell 104, and axis hole 14 is set
On the roof of top shell 104, bottom case 105 is threadedly coupled mutually with two open ends of top shell 104.
The vessel 10 of the structure can be formed by assembling as a result, and top shell 104 and bottom case 105 are using completion
After can dismantle, ensure it is simple in structure and easy to assembly on the basis of, convenient for vessel 10 is cleaned.
In other specific implementation modes of the present invention, vessel 10 has roof 101 and side peripheral wall 103, container
The bottom surface of ontology 10 is opened wide to constitute the first material mouth 12, the second material mouth 13 be formed in one of side peripheral wall 103 and roof 101 go up or from
Side peripheral wall 103 extends to roof 101.
In other words, as shown in Figure 14 to Figure 24, in the present embodiment, vessel 10 is not no bottom wall, only has side
The open bottom end of peripheral wall 103 and roof 101, vessel 10 forms the first material mouth 12, and side peripheral wall 103 and roof 101 are at least
One the second material mouth 13 of upper setting, axis hole 14 are then located on the roof 101 of vessel 10.
For the vessel 10 of the present embodiment for above-described embodiment, the bottom-open of vessel 10 forms first
The second material mouth 13 of at least one upper setting of material mouth 12, side peripheral wall 103 and roof 101, inlet port and outlet port are set independently of each other
It sets.
12 size of the first material mouth of the vessel 10 of the structure is larger, when as feed inlet or discharge port, food materials into
Go out speed, feed inlet is independent mutually with discharge port, and food materials disengaging not will produce interference, can improve food to a certain extent
The repulping rate and pulping efficiency of product cooking machine.
Specifically, according to one embodiment of present invention, vessel 10 is bowl-shape, and the cross section of side peripheral wall 103 is just
Polygon is joined end to end the annular constituted by multiple arcs line segment.
As shown in Figure 14 and Figure 15, in this embodiment, vessel 10 is bowl-shape, the open at its lower end shape of vessel 10
At the first material mouth 12, the first material mouth 12 is formed as being joined end to end the generally circular configuration constituted by multiple arcs line segment.
That is, 10 first material mouth 12 of vessel is not a regular circular configuration, the side week of vessel 10
Wall 103 be equipped with multiple prismatic structures 106 being recessed inwardly, the prismatic structure 106 food processor using when can be to grinding
Food materials in mill chamber 11 play the role of flow-disturbing, to further improve the crushing effect and efficiency of food materials, and slurrying concentration
It greatly improves.
In addition, since rotating Vortex, mill 100 and the speed discrepancy of food materials become smaller mill 100 under the drive of food materials,
The mill 100 of rotation can also smoothly stir food materials simultaneously, thus food materials being more evenly distributed in ladle body, food materials
Rotation it is also more steady, the flow-disturbing effect of mill 100 then significantly, while also reduce food materials and mill 100 due to
The noise that speed discrepancy is larger and generates, has been better achieved the purpose to food processor noise reduction.
As shown in Figure 16 to Figure 18, in this embodiment, the cross section of vessel 10 is formed as regular polygon, this is just more
The prismatic structure formed between the adjacent face of any two of side shape structure can equally play the role of to food materials flow-disturbing, to
Can equally improve the crushing effect and efficiency of food materials, structure can effect be not described in detail.
In other specific implementation modes of the present invention, vessel 10 is hemispherical, and the bottom surface of vessel 10 is spacious
It opens to constitute the first material mouth 12, the second material mouth 13 is formed on the wall of vessel 10, and the lower edge of vessel 10 is with more
A circumferentially spaced recess 15 along vessel 10, have in the outside wall surface of vessel 10 vertically extend and to
The groove 16 being recessed.
Specifically, as illustrated in figures 19 and 20, in this embodiment, vessel 10 is formed generally as hemispherical dome structure,
The open at its lower end of vessel 10 forms the first material mouth 12, and the lower edge of the vessel 10 is equipped with multiple along vessel 10
Circumferentially spaced recess 15, the recess 15 can also be used as the second material mouth 13 and fed or discharged, two neighboring recess
The wall of vessel 10 between 15 is equipped with the groove 16 being recessed to vessel 10.
Each groove 16 is recessed to the grinding chamber 11 of vessel 10 respectively, then is equivalent on the side wall of vessel 10
Equipped with multiple convex blocks outstanding into grinding chamber 11, these convex blocks equally can be in grinding chamber 11 when food processor uses
Food materials play the role of flow-disturbing, to also improve the crushing effect and efficiency of food materials, and slurrying concentration greatly improves.
According to one embodiment of present invention, vessel 10 is the straight-tube shape with roof 101 and side peripheral wall 103, is held
The bottom surface of device ontology 10 is opened wide to constitute the first material mouth 12, and the second material mouth 13 is formed on side peripheral wall 103, and axis hole 14 then may be provided in
On roof 101.Further, the lower end of vessel 10 is horn-like.
As shown in figure 21 and figure, vessel 10 is formed generally as the straight structure of open at its lower end, vessel 10
Open end be formed as the first material mouth 12, and the opening size of the first material mouth 12 is more than the radial dimension of vessel 10, the
Two material mouths 13 are then located on side peripheral wall 103.
As a result, the first material mouth 12 of the structure have bigger opening, as feed inlet in use, can be more convenient
Ground sucks food materials, improves charging rate.
In addition, in certain specific embodiments of the invention, the cross section of side peripheral wall can also be round, ellipse,
Regular polygon is joined end to end the annular constituted by multiple arcs line segment.
Specifically, as shown in Figure 9 and Figure 10, the first 12 of vessel 10 is throat structure, container in the embodiment
The section of ontology 10 is formed as ellipse.In the embodiment shown in Figure 11 to Figure 13, the first material mouth 12 of vessel 10 is same
Sample is throat structure, and the section of vessel 10 is then regular polygon, and whole container ontology 10 is formed as lantern-shaped.
In the embodiment shown in Figure 23 and Figure 24, the open at its lower end of vessel 10 forms the first material mouth 12, container sheet
The section of body 10 then forms ellipse.The vessel 10 of these structures can play the flow-disturbing to food materials to a certain extent
Effect, so as to play the effect for improving pulping efficiency.
Mill 100 according to the above embodiment of the present invention can be applied in the shredder assemblies 200 of food cooking.Specifically
For, as shown in Figure 25 to Figure 39, the shredder assemblies 200 according to the ... of the embodiment of the present invention for food processor include mill
100, rotary shaft 20 and crushed piece 30.Wherein, mill 100 is the mill 100 according to the above embodiment of the present invention.
Specifically, as shown in Fig. 1 to Figure 24, the mill 100 according to the ... of the embodiment of the present invention for food processor
Including vessel 10, there is grinding chamber 11, grinding chamber 11 to have the first material mouth 12 and the second material mouth 13 in vessel 10, the
One in one material mouth 12 and the second material mouth 13 is feed inlet, another in the first material mouth 12 and the second material mouth 13 is discharging
Mouthful.
There is rotary shaft 20 first end 21 and second end 22, the first end 21 of rotary shaft 20 to stretch into grinding chamber 11, rotate
The second end 22 of axis 20 stretches out grinding chamber 11, and rotary shaft 20 is rotatable relative to mill 100, and crushed piece 30 is mounted on rotary shaft
20 first end 21 and in the grinding chamber 11.
In other words, mill 100 according to the ... of the embodiment of the present invention includes a vessel 10, is limited in vessel 10
There is grinding chamber 11, vessel 10 is equipped with the first material mouth 12 and the second material mouth 13 be connected with grinding chamber 11, wherein the first material mouth
12 can be feed inlet, or discharge port, the second material mouth 13 also not only can be feed inlet, but also can be discharge port.
Specifically, when the first material mouth 12 is feed inlet, then the second material mouth 13 is discharge port, when the first material mouth 12 is discharging
When mouth, then the second material mouth 13 is feed inlet.First material mouth 12 and the second material mouth 13 can be material mouth independently, or
The first material mouth 12 and the second material mouth 13 can be respectively set in the same material mouth on vessel 10, can also be by the first material mouth
12 and second material mouth 13 be set as the same material mouth, i.e., the material mouth both can be used as feed inlet, can also be used as discharge port.
The first end 21 of rotary shaft 20 stretches into grinding chamber 11, and first end 21 is equipped with crushed piece 30, rotary shaft 20
It is rotatable relative to mill 100, so as to drive the rotation in grinding chamber 11 of crushed piece 30.Rotary shaft 20 drives crushed piece
30 high speed rotations when crushed piece 30 is located in grinding chamber 11, can form negative pressure, i.e. pressure in grinding chamber 11 in grinding chamber 11
Less than the pressure in the ladle body of food processor, to which food materials are inhaled into grinding chamber 11, food materials are crushed in grinding chamber 11,
Noise is reduced, crush efficiency and effect are improved, slurrying concentration improves.
In addition, high-speed rotating crushed piece 30 drives food materials to be rotated in ladle body, and under the drive of food materials, mill 100
Absorb the part kinetic energy of food materials and with food materials rotating Vortex, due to mill 100 under the drive of food materials rotating Vortex, mill
100 become smaller with the speed discrepancies of food materials, while the mill 100 rotated can also smoothly stir food materials, and thus food materials exist
The rotation of being more evenly distributed in ladle body, food materials is also more steady, and the flow-disturbing effect of mill 100 is then more notable, while also dropping
The noise that low food materials are generated with mill 100 since speed discrepancy is larger, has been better achieved to food processor noise reduction
Purpose.
In addition, under the drive of food materials, mill 100 absorbs the part kinetic energy of food materials with food materials rotating Vortex, eats
Under the action of mill 100, kinetic energy becomes smaller material, and rotating speed reduces, and food materials and the speed discrepancy of crushed piece 30 become larger, and are equivalent to crushing
30 cutting speed of part becomes larger, and therefore, the effect of crushing can be more preferable.
Since the volume of grinding chamber 11 reduces compared with the volume of ladle body, improves the crush efficiency of food materials and crush and imitate
Fruit further improves slurrying concentration, simultaneously because under the drive of food materials of the mill 100 with grinding chamber 11 in ladle body
Relative to rotary shaft 20 (thus relative to crushed piece 30) and ladle body relative rotation, therefore, grinding chamber of the food materials in mill 100
It is middle further to be ground, the crushing effect and efficiency of food materials are further improved, and slurrying concentration greatly improves, therefore, this
Mill 100 in application has grinding and the double action of flow-disturbing.
Shredder assemblies 200 according to the ... of the embodiment of the present invention for food processor as a result, due to tool in vessel 10
There is grinding chamber 11, in use, can form negative pressure in grinding chamber 11, food materials can be from the first material mouth 12 and the second material mouth 13
Throat-fed, after food materials are crushed in grinding chamber 11, from discharge hole for discharge, process of lapping is completed in grinding chamber 11, work
It is small to make noise, pulping efficiency and effects on slurry making are good, slurrying concentration is high, low energy consumption.
Wherein, when mill 100 is according to mill 100 shown in Fig. 5, structure such as Figure 25 of shredder assemblies 200
It is shown;When mill 100 is according to Fig. 7 and mill 100 shown in fig. 8, structure such as Figure 26 and figure of shredder assemblies 200
Shown in 27;When mill 100 is according to mill 100 shown in Fig. 9 and Figure 10, structure such as Figure 28 of shredder assemblies 200
Shown in Figure 29.
In addition, when mill 100 is according to mill 100 shown in Figure 11 to Figure 13, the structure of shredder assemblies 200
As shown in figures 30 and 31;When mill 100 is according to mill 100 shown in Figure 14 and Figure 15, shredder assemblies 200
Structure is as shown in Figure 32 and Figure 33;When mill 100 is according to mill 100 shown in Figure 16 to Figure 18, shredder assemblies
200 structure is as shown in figs. 34 and 35.
When mill 100 is according to Figure 21 and to mill 100 shown in Figure 22, the structure of shredder assemblies 200 is such as
Shown in Figure 36 and Figure 37;When mill 100 is according to Figure 23 and to mill 100 shown in Figure 24, shredder assemblies 200
Structure is as shown in Figure 38 and Figure 39.
According to one embodiment of present invention, the center at the top of vessel 10 is equipped with axis hole 14, and the of rotary shaft 20
One end 21 is stretched into across axis hole 14 in grinding chamber 11, and the second end 22 of rotary shaft 20 is equipped with transmission coupler 23, and vessel
10 bottom is equipped with protrusion 107 or blade.
Specifically, as shown in figure 25, the roof 101 of vessel 10 is equipped with axis hole 14, the lower end of rotary shaft 20, i.e., the
One end 21 is stretched into across axis hole 14 in grinding chamber 11, and crushed piece 30 is located in first end 21.The upper end of rotary shaft 20, i.e. second end
22 are equipped with transmission coupler 23, and transmission coupler 23 can be connected with the coupled structure of food processor to drive 20 turns of rotary shaft
It is dynamic.
As depicted in figs. 1 and 2, the first material mouth 12 of vessel 10 is formed by the bottom-open of vessel 10
, and it is created as the throat structure being located on bottom wall 102.It is then equipped on the lower surface of bottom wall 102 multiple along vessel 10
Circumferentially spaced arrangement protrusion 107 or blade construction.
Wherein, as shown in figure 5, the height h1 of protrusion 107 or blade in the up-down direction is 0.5-20 millimeters, and it is convex
Rise 107 or blade number between 1-24.Vessel 10 is in rotation as a result, the protrusion 107 on vessel 10
Or blade construction can then drive food materials to stir, and further increase flow-disturbing effect.
The head 300 of food processor according to the ... of the embodiment of the present invention is specifically described below in conjunction with the accompanying drawings.
As shown in Figure 40 and Figure 41, the head 300 of food processor according to the ... of the embodiment of the present invention include head body 40,
Motor 50, mill 100, rotary shaft 20 and crushed piece 30.Wherein, mill 100 is grinding according to the above embodiment of the present invention
Grinder 100.Mill 100, rotary shaft 20 and crushed piece 30 may be constructed shredder assemblies according to the above embodiment of the present invention
200。
Specifically, there is rotary shaft 20 first end 21 and second end 22, motor 50 to be located in head body 10, motor 50
It is connected with the second end 22 of rotary shaft 20 to drive rotary shaft 20 to rotate.Mill 100 includes vessel 10, vessel 10
It is in rotary shaft 20 and rotatable relative to head body 40 and rotary shaft 20.
As shown in figure 1 to figure 13, the vessel 10 according to the ... of the embodiment of the present invention for food processor is revolving body,
Vessel 10 has side peripheral wall 103, roof 101 and bottom wall 102.There is grinding chamber 11, grinding chamber 11 to have in vessel 10
There are the first material mouth 12 and the second material mouth 13, one in the first material mouth 12 and the second material mouth 13 is feed inlet, 12 He of the first material mouth
Another in second material mouth 13 is discharge port.
First material mouth 12 is formed on bottom wall 102 and the gross area of the first material mouth 12 is less than the area of bottom wall 102.Second material
Mouth 13 is formed in one of side peripheral wall 103 and roof 101 and above or from side peripheral wall 103 extends to roof 101.
The first end 21 of rotary shaft 20 stretches into grinding chamber 11, and the second end 22 of rotary shaft 20 stretches out grinding chamber 11 and motor
50 are connected, and crushed piece 30 is mounted on the first end 21 of rotary shaft 20 and in grinding chamber 11.
In other words, mill 100 according to the ... of the embodiment of the present invention includes a vessel 10, and vessel 10 is revolution
Body, vessel 10 have side peripheral wall 103, roof 101 and bottom wall 102.Grinding chamber 11, container sheet are defined in vessel 10
Body 10 is equipped with the first material mouth 12 and the second material mouth 13 be connected with grinding chamber 11, wherein the first material mouth 12 can be feed inlet,
Can be discharge port, the second material mouth 13 also not only can be feed inlet, but also can be discharge port.
Specifically, when the first material mouth 12 is feed inlet, then the second material mouth 13 is discharge port, when the first material mouth 12 is discharging
When mouth, then the second material mouth 13 is feed inlet.First material mouth 12 and the second material mouth 13 can be material mouth independently, i.e. container sheet
The first material mouth 12 and the second material mouth 13 can be respectively set on body 10.
First material mouth 12 is formed on bottom wall 102 and the gross area of the first material mouth 12 is less than the area of bottom wall 102.First material
Mouth 12 can be formed as the opening on bottom wall 102.Opening can be made of or one the single or multiple apertures on bottom wall 102
Macropore is constituted, and the gross area of opening is less than the area of bottom wall 102, i.e., single aperture or single macropore or multiple aperture areas it
With the area less than bottom wall 102.
When opening is made of a macropore, then the opening be connected with grinding chamber 11 is formed as necking knot on bottom wall 102
Structure.This kind of throat structure can make to limit a relatively closed grinding chamber 11, the appearance of the structure in vessel 10
Device ontology 10 can preferably form negative pressure, so as to which preferably food materials exist when crushed piece rotates in grinding chamber 11
It is crushed in grinding chamber 11.In addition, when the necking is formed as discharge port, crushing the food materials of completion can be discharged from throat structure, row
It can play the role of certain flow-disturbing to the food materials for entering necking during going out, crushing effect can also be further increased.
The first end 21 of rotary shaft 20 stretches into grinding chamber 11, and first end 21 is equipped with crushed piece 30, rotary shaft 20
Second end 22 be connected with the motor 50 in head body 40 and driven by motor 50.Rotary shaft 20 can relative to mill 100
Rotation, so as to drive the rotation in grinding chamber 11 of crushed piece 30.Rotary shaft 20 drives 30 high speed rotation of crushed piece, crushed piece
30 when being located in grinding chamber 11, negative pressure can be formed in grinding chamber 11, i.e., the pressure in grinding chamber 11 is less than food processor
Pressure in ladle body, to which food materials are inhaled into grinding chamber 11, food materials are crushed in grinding chamber 11, reduce noise, are improved
Crush efficiency and effect, slurrying concentration improve.
In addition, high-speed rotating crushed piece 30 drives food materials to be rotated in ladle body, and under the drive of food materials, mill 100
Absorb the part kinetic energy of food materials and with food materials rotating Vortex, due to mill 100 under the drive of food materials rotating Vortex, mill
100 become smaller with the speed discrepancies of food materials, while the mill 100 rotated can also smoothly stir food materials, and thus food materials exist
The rotation of being more evenly distributed in ladle body, food materials is also more steady, and the flow-disturbing effect of mill 100 is then more notable, while also dropping
The noise that low food materials are generated with mill 100 since speed discrepancy is larger, has been better achieved to food processor noise reduction
Purpose.
In addition, under the drive of food materials, mill 100 absorbs the part kinetic energy of food materials with food materials rotating Vortex, eats
Under the action of mill 100, kinetic energy becomes smaller material, and rotating speed reduces, and food materials and the speed discrepancy of crushed piece 30 become larger, and are equivalent to crushing
30 cutting speed of part becomes larger, and therefore, the effect of crushing can be more preferable.
Since the volume of grinding chamber 11 reduces compared with the volume of ladle body, improves the crush efficiency of food materials and crush and imitate
Fruit further improves slurrying concentration, simultaneously because under the drive of food materials of the mill 100 with grinding chamber 11 in ladle body
Relative to rotary shaft 20 (thus relative to crushed piece 30) and ladle body relative rotation, therefore, grinding chamber of the food materials in mill 100
It is middle further to be ground, the crushing effect and efficiency of food materials are further improved, and slurrying concentration greatly improves, therefore, this
Mill 100 in application has grinding and the double action of flow-disturbing.
The head 300 of food processor according to the ... of the embodiment of the present invention as a result, head body 40 is interior to be equipped with motor 50, electricity
Machine 50 can drive coupled rotary shaft 20 to rotate, due to having grinding chamber 11,20 first end of rotary shaft in vessel 10
21 stretch into grinding chamber 11 and first end 11 is equipped with the crushed piece 30 being located in grinding chamber 11, in use, motor 50 drives
Rotary shaft 20 drives crushed piece 30 to rotate, and can form negative pressure in grinding chamber 11, food materials can be from the first material mouth 12 and the second material
Throat-fed in mouth 13, after food materials are crushed in grinding chamber 11, from discharge hole for discharge, process of lapping is in grinding chamber 11
It completes, operating noise is small, and pulping efficiency and effects on slurry making are good, slurrying concentration is high, low energy consumption.
As shown in figure 40, according to some embodiments of the present invention, the first material mouth 12 is formed as one, the formation of the second material mouth 13
For circumferentially-spaced arrangement multiple and along vessel 10.The shape of first material mouth 12 and the second material mouth 13 is formed as more
Kind.For example, according to some embodiments of the present invention, the first material mouth 12 is formed as circular open, and is formed in bottom wall 102
Center.Second material mouth 12 can be formed as circular open and be formed on side peripheral wall 103.That is, 12 shape of the first material mouth
As a circular hole at 102 center of bottom wall is located at, the second material mouth 13 is formed as multiple upper circles for being spaced and being opened in side peripheral wall 103
Shape is open.
For another example in other embodiments of the present invention, the first material mouth 12 forms the circle at the center for being located at bottom wall 102
Opening.Second material mouth 13 is formed as extending to the slot hole of roof 101 from side peripheral wall 103.Slot hole may include multiple, and multiple slot holes can
It is evenly spaced apart setting along side peripheral wall 103.
As shown in figure 41, the roof 101 of vessel 10 and bottom wall 102 respectively with 103 arc transition of side peripheral wall.Namely
It says, upper end and 101 arc transition of roof of side peripheral wall 103, lower end and 102 arc transition of bottom wall of side peripheral wall 103.In container sheet
On the axial cross section of body 10, roof 101 and bottom wall 102 are formed as flat, and side peripheral wall 103 is formed as straight or arc.
With reference to shown in Fig. 6, vessel 10 includes top shell 104 and bottom case 105, and top shell 104 is with bottom case 105 with dismountable
Mode is connected together.As a result, when needing cleaning container ontology 10, top shell 104 and bottom case 105 can be dismantled, you can to holding
The inner surface of device ontology 10 is cleaned, and easy to clean and cleaning is more clean thorough.Wherein, when top shell 104 and bottom case 105 can
When dismounting is connected, the second material mouth 13, which can be made only in, to be either made only on bottom case 105 in top shell 104 or is formed as pushing up
Between shell 104 and bottom case 105.
According to one embodiment of present invention, the motor shaft 51 of rotary shaft 20 and motor 50 for same axis or passes through transmission coupling
Clutch 23 and the motor shaft 51 of motor 50 are detachably connected.
Specifically, as shown in figure 41, rotary shaft 20 is the motor shaft 51 of motor 50, and the first end 21 of rotary shaft 20 stretches into
In grinding chamber 11, the second end 22 of rotary shaft 20 stretches into 50 inside of motor and is driven by motor 50.The rotary shaft 20 of the structure with
Motor 50 is structure as a whole, simple in structure, easy to assembly.
In other specific implementation modes of the present invention, the motor shaft 51 of rotary shaft 20 and motor 50 be not it is integrated,
But be connected by being driven coupler 23.As shown in figure 41, motor 50 has the motor shaft 51 extended up and down, motor shaft 51
Lower end is equipped with transmission coupler 23, and the second end 22 of rotary shaft 20 also is provided with transmission coupler 23,20 energy of rotary shaft of the structure
Enough easily to be dismantled with motor 50, the integral demounting convenient for mill 100 and replacement are easy to clean.
According to some embodiments of the present invention, rotary shaft 20 is equipped with backstop fastener 24, and vessel 10 passes through backstop
Fastener 24 is rotatably installed in 20 in rotary shaft.As shown in figure 40, the roof 101 of vessel 10 is equipped with axis hole 14,
The lower end of rotary shaft 20, i.e. first end 21 are stretched into across axis hole 14 in grinding chamber 11, and crushed piece 30 is located in first end 21.Backstop
Fastener 24 is located at the junction of axis hole 14 and rotary shaft 20, and vessel 10 is fixed on rotary shaft 20 by backstop fastener 24
On.Axis hole 14 and 20 clearance fit of rotary shaft make vessel 10 be mounted in rotary shaft 20 and can relative to rotary shaft 20
Rotation.
The vessel 10 of the structure assembles simply with rotary shaft 20, and 40 structure of head, only need to be in rotary shaft without change
It is arranged vessel 10 on 20 and is fixed with backstop fastener 24, assembly is simple.
According to one embodiment of present invention, the outer surface of bottom wall 102 is equipped with protrusion 107 or blade.Referring to Fig.1 and scheme
Shown in 2, the first material mouth 12 of vessel 10 is to be formed as the throat structure being located on bottom wall 102.On the lower surface of bottom wall 102
Then it is equipped with the protrusion 107 or blade construction of multiple circumferentially spaced arrangements along vessel 10.
Wherein, referring to Figure 5, the height of protrusion 107 or blade in the up-down direction is 0.5-20 millimeters, and convex
Rise 107 or blade number between 1-24.Vessel 10 is in rotation as a result, the protrusion 107 on vessel 10
Or blade construction can then drive food materials to stir, and further increase flow-disturbing effect.
In addition, rotary shaft drives crushed piece high speed rotation, high-speed rotating crushed piece that food materials is driven to be rotated in ladle body,
Under the drive of food materials, mill 100 absorb food materials part kinetic energy and with food materials rotating Vortex, since vessel 10 is equipped with
Protrusion 107 or blade construction, the active force bigger that mill 100 is subject under the drive of food materials, the rotating speed phase of mill 100
It should improve, mill 100 and the speed discrepancy of food materials become smaller.
Meanwhile the mill 100 of rotation can also smoothly stir food materials, thus distribution of the food materials in ladle body be more
Uniformly, the rotation of food materials is also more steady, and the flow-disturbing effect of mill 100 is then more notable, while also reducing food materials and grinding
The noise that device 100 is generated since speed discrepancy is larger, has been better achieved the purpose to food processor noise reduction.
Further, protrusion 107 or blade are set on vessel 10, and under the drive of food materials, mill 100 can
More to absorb the part kinetic energy of food materials with food materials rotating Vortex, under the action of mill 100, kinetic energy becomes smaller food materials,
Rotating speed reduces, and the speed discrepancy of food materials and crushed piece becomes larger, and is equivalent to crushed piece cutting speed and becomes larger, therefore, the effect meeting of crushing
More preferably.
Head 300 according to the ... of the embodiment of the present invention can apply on food processor.As shown in figure 42, according to of the invention real
The food processor 400 for applying example includes head 300 and ladle body 60.Head 300 is detachably arranged on ladle body 60.Head 300 wraps
Include head body 40, motor 50, mill 100, rotary shaft 20 and crushed piece 30.Mill 100, rotary shaft 20 and crushed piece 30
Shredder assemblies 200 are may be constructed, which is located in ladle body 60, is crushed and is ground with the food materials to ladle body 60.
Wherein, head 300 is the head according to the above embodiment of the present invention, and mill 100 is according in the present invention
The mill 100 described in embodiment is stated, shredder assemblies 200 are the shredder assemblies 200 according to the above embodiment of the present invention.Cause
This, head, mill 100 and the shredder assemblies 200 of food processor 400 are not limited only to structure shown in Figure 42, can also
It is the combination of the head 300, mill 100 and shredder assemblies 200 and ladle body 60 described in preceding embodiment.Head 300 is ground
The structure of grinder 100 and shredder assemblies 200 can refer to the description of front, no longer describe herein.
Since head 300 according to the ... of the embodiment of the present invention has above-mentioned beneficial technique effect, according to of the invention real
The food processor 400 of example is applied, operating noise is small, and pulping efficiency and effects on slurry making are good, slurrying concentration is high, low energy consumption.
Food processor 400 according to the ... of the embodiment of the present invention is described with reference to specific embodiment.
As shown in figure 25, in an embodiment of the present invention, food processor 400 is soy bean milk making machine, and the first material mouth 12 is located at appearance
On the bottom wall 101 of device ontology 10, the second material mouth 13 is located on the side peripheral wall 103 of vessel 103.
In some specific embodiments of the present invention, the gross area S0 and the second material mouth of the first material mouth 12 of mill 100
The ratio of 13 gross area S1 is 0.02-55, and the volume V0 of grinding chamber 11 and the ratio of the gross area S0 of the first material mouth 12 are
The ratio of 0.001-1.500, the gross area S0 of the first material mouth 12 and the rotational speed omega 1 of vessel 10 is 0.04-11000, first
The ratio of difference in height h between the gross area S0 of material mouth 12 and the first material mouth 12 and the second material mouth 13 is 2-11000, grinding chamber 11
Volume V0 and the second material mouth 13 gross area S1 ratio be 0.001-1.500, the gross area S1 and container of the second material mouth 13
The ratio of the rotational speed omega 1 of ontology 10 is 0.04-11000, the gross area S1 of the second material mouth 13 and the first material mouth 12 and the second material mouth
The ratio of difference in height h between 13 is 2-11000.
Ratio between the volume V0 of grinding chamber 11 and the rotational speed omega 1 of vessel 10 is 0.001-300, vessel 10
Rotational speed omega 1 and the ratio of maximum radial dimension d of the first material mouth 12 be 0.01-500, the rotational speed omega 1 of vessel 10 and the
The ratio of difference in height h between one material mouth 12 and the second material mouth 13 is 0.01-5000, rotational speed omega 1 and the protrusion of vessel 10
107 or the ratio of height dimension h1 of blade be 0.05-10000, the rotational speed omega 1 of vessel 10 and protrusion 107 or blade
The ratio of number n1 is 0.04-5000, the maximum radial dimension d of the maximum inner diameter dimension D of vessel 10 and the first material mouth 12
Ratio be 1.2-20.
Heating power P is 0.5-4000, heating power P and protrusion with the ratio of protrusion 107 or the height dimension h1 of blade
107 or blade number n1 ratio 0.417-2000, the rotational speed omega 1 of vessel 10 and the rotational speed omega 1 of vessel 10
Ratio is 1.5-8000, and the ratio of the rotational speed omega 1 of vessel 10 and the blade number n2 of crushing knife are 0.167-2500, container
The ratio of the rotational speed omega 1 of ontology 10 and the diameter d2 of crushing knife are 0.013-200, the specified slurrying capacity of food processor 400
The ratio of the V1 and volume V0 of grinding chamber 11 is 1-333, upper between the diameter d2 and crushing knife of crushing knife and the first material mouth 12
The ratio for the distance h2 that lower section is spaced upwards is 0.31-160, the maximum inner diameter dimension D of vessel 10 and the diameter of crushing knife
The ratio of d2 is 1.2-8.
Can be specifically:The gross area S0 of first material mouth 12 of mill 100 is 200-11000 square millimeters, the second material
The gross area S1 of mouth 13 is 200-11000 square millimeters, and the difference in height h between the first material mouth 12 and the second material mouth 13 is 1-100
The maximum radial dimension d of millimeter, the first material mouth 12 is 10-150 millimeters, and the maximum inner diameter dimension D of vessel 10 is 12-200
Millimeter.The volume V0 of grinding chamber 11 is 6-300 milliliters, and the rotational speed omega 1 of vessel 10 is 1-5000 revs/min, vessel 10
The protrusion 107 of lower end or the height dimension h1 of blade be 0.5-20 millimeter, the number n1 of protrusion 107 or blade 1-24 it is a it
Between, the heating power P of food processor 400 is 10-2000 watts, and crushed piece 30 can be crushing knife, and the rotational speed omega 2 of crushing knife is
1000-20000 revs/min, the blade number n2 of crushing knife is between 2-6, and the diameter d2 of crushing knife is 35-80 millimeters, food
The specified slurrying capacity V1 of cooking machine 400 be 150-2000 milliliters, between crushing knife and the first material mouth 12 in the up-down direction between
Every distance h2 be 0.5-80 millimeters.
Further, as follows the present invention provides the specific embodiment of a soy bean milk making machine:
In a specific embodiment of the present invention, the gross area S0 of the first material mouth 12 of mill 100 and the second material mouth 13
The ratio of gross area S1 is 0.11-9, and the ratio of the gross area S0 of the volume V0 of grinding chamber 11 and the first material mouth 12 is 0.004-
The ratio of 0.236, the gross area S0 of the first material mouth 12 and the rotational speed omega 1 of vessel 10 is 0.7-640, the first material mouth 12 it is total
The ratio of difference in height h between area S0 and the first material mouth 12 and the second material mouth 13 be 12-1280, the volume V0 of grinding chamber 11 with
The ratio of the gross area S1 of second material mouth 13 is 0.004-0.236, the gross area S1 of the second material mouth 13 and turning for vessel 10
The ratio of fast ω 1 is 0.70-640, the height between the gross area S1 of the second material mouth 13 and the first material mouth 12 and the second material mouth 13
The ratio of poor h is 12-1280.
Ratio between the volume V0 of grinding chamber 11 and the rotational speed omega 1 of vessel 10 is 0.024-16.500, container sheet
The ratio of the maximum radial dimension d of the rotational speed omega 1 of body 10 and the first material mouth 12 be 0.17-33, the rotational speed omega 1 of vessel 10 with
The ratio of difference in height h between first material mouth 12 and the second material mouth 13 is 0.17-200, rotational speed omega 1 and the protrusion of vessel 10
107 or the ratio of height dimension h1 of blade be 1-1000, the rotational speed omega 1 of vessel 10 and protrusion 107 or the number of blade
The ratio of n1 is 0.8-500, the ratio of the maximum inner diameter dimension D of vessel 10 and the maximum radial dimension d of the first material mouth 12
For 1.2-5.
Heating power P is 10.0-1000, heating power P and protrusion with the ratio of protrusion 107 or the height dimension h1 of blade
107 or blade number n1 ratio 8.333-500, the ratio of the rotational speed omega 1 of vessel 10 and the rotational speed omega 1 of vessel 10
It is 2-1200 to be worth, and the ratio of the rotational speed omega 1 of vessel 10 and the blade number n2 of crushing knife are 2-500, vessel 10
The ratio of the rotational speed omega 1 and diameter d2 of crushing knife is 0.14-33, the specified slurrying capacity V1 and grinding chamber of food processor 400
The ratio of 11 volume V0 be 3.6-71, between the diameter d2 and crushing knife of crushing knife and the first material mouth 12 in the up-down direction between
Every the ratio of distance h2 be 0.75-35, the ratio of the maximum inner diameter dimension D of vessel 10 and the diameter d2 of crushing knife are
1.5-2.3。
Can be specifically:The gross area S0 of first material mouth 12 of mill 100 is 700-6400 square millimeters, the second material mouth
13 gross area S1 is 700-6400 square millimeters, and the difference in height h between the first material mouth 12 and the second material mouth 13 is 5-60 millimeters,
The maximum radial dimension d of first material mouth 12 is 30-60 millimeters, and the maximum inner diameter dimension D of vessel 10 is 32-70 millimeters.It grinds
The volume V0 of mill chamber 11 is 24-165 milliliters, and the rotational speed omega 1 of vessel 10 is 10-1000 revs/min, the lower end of vessel 10
Protrusion 107 or the height dimension h1 of blade be 1-10 millimeter, the number n1 of protrusion 107 or blade is between 2-12 is a, food
The heating power P of cooking machine 400 is 100-1000 watts, and crushed piece 30 can be crushing knife, and the rotational speed omega 2 of crushing knife is 1000-
12000 revs/min, the blade number n2 of crushing knife is between 2-5, and the diameter d2 of crushing knife is 30-70 millimeters, food processor
400 specified slurrying capacity V1 be 600-1700 milliliters, be spaced in the up-down direction between crushing knife and the first material mouth 12 away from
It it is 2-40 millimeters from h2.
Further, as follows the present invention also provides the specific embodiment of a soy bean milk making machine:
In a specific embodiment of the present invention, the gross area S0 of the first material mouth 12 of mill 100 and the second material mouth 13
The ratio of gross area S1 is 0.67-2, and the ratio of the gross area S0 of the volume V0 of grinding chamber 11 and the first material mouth 12 is 0.031-
0.078, the gross area S0 of the first material mouth 12 and the ratio of the rotational speed omega 1 of vessel 10 are 6-60, total face of the first material mouth 12
The ratio of difference in height h between product S0 and the first material mouth 12 and the second material mouth 13 is 40-180, the volume V0 of grinding chamber 11 and the
The ratio of the gross area S1 of two material mouths 13 is 0.031-0.078, the rotating speed of the gross area S1 and vessel 10 of the second material mouth 13
The ratio of ω 1 is 6.00-60, the difference in height h between the gross area S1 of the second material mouth 13 and the first material mouth 12 and the second material mouth 13
Ratio be 40-180.
Ratio between the volume V0 of grinding chamber 11 and the rotational speed omega 1 of vessel 10 is 0.280-3.133, vessel
The ratio of the maximum radial dimension d of 10 rotational speed omega 1 and the first material mouth 12 is 0.67-6, the rotational speed omega 1 of vessel 10 and the
The ratio of difference in height h between one material mouth 12 and the second material mouth 13 is 1-20, the rotational speed omega 1 of vessel 10 and protrusion 107 or
The ratio of the height dimension h1 of blade is 5-100, rotational speed omega 1 and protrusion 107 or the ratio of the number n1 of blade of vessel 10
It is 5-100 to be worth, and the ratio of the maximum inner diameter dimension D of vessel 10 and the maximum radial dimension d of the first material mouth 12 are 1.2-2.
Heating power P is 33.3-400, heating power P and protrusion with the ratio of protrusion 107 or the height dimension h1 of blade
107 or blade number n1 ratio 33.333-400, the rotational speed omega 1 of vessel 10 and the rotational speed omega 1 of vessel 10
Ratio is 5-267, and the ratio of the rotational speed omega 1 of vessel 10 and the blade number n2 of crushing knife are 7.5-100, vessel 10
The ratio of diameter d2 of rotational speed omega 1 and crushing knife be 0.6-5.7, specified slurrying capacity V1 and the grinding of food processor 400
The ratio of the volume V0 of chamber 11 is 8.5-27, between the diameter d2 and crushing knife of crushing knife and the first material mouth 12 in the up-down direction
The ratio of the distance h2 at interval is 1.75-25, and the ratio of the maximum inner diameter dimension D of vessel 10 and the diameter d2 of crushing knife are
1.5-2。
Can be specifically:The gross area S0 of first material mouth 12 of mill 100 is 1200-1800 square millimeters, the second material
The gross area S1 of mouth 13 is 1200-1800 square millimeters, and the difference in height h between the first material mouth 12 and the second material mouth 13 is 10-30
The maximum radial dimension d of millimeter, the first material mouth 12 is 35-45 millimeters, and the maximum inner diameter dimension D of vessel 10 is 40-60 millis
Rice.The volume V0 of grinding chamber 11 is 56-94 milliliters, and the rotational speed omega 1 of vessel 10 is 30-200 revs/min, vessel 10
The protrusion 107 of lower end or the height dimension h1 of blade are 2-6 millimeters, and the number n1 of protrusion 107 or blade is between 2-6, food
The heating power P of product cooking machine 400 is 200-800 watts, and crushed piece 30 can be crushing knife, and the rotational speed omega 2 of crushing knife is 1000-
8000 revs/min, the blade number n2 of crushing knife is between 2-5, and the diameter d2 of crushing knife is 30-50 millimeters, food processor
400 specified slurrying capacity V1 be 800-1500 milliliters, be spaced in the up-down direction between crushing knife and the first material mouth 12 away from
It it is 2-20 millimeters from h2.
Food processor 400 made of data using the embodiment, compared with soy bean milk making machine in the related technology, not only powder
Broken effect is more preferable, and anti-paste effect is more preferable.Specific experiment data are as follows:
Single parameter value range is as follows:
Multiple parameters ratio relation range is as follows:
Crushing effect experimental result determinating reference is as follows:
It is anti-that to be charred effect experiment result judgement benchmark as follows:
Single parameter experiment table is as follows:
Multiple parameters relationship test card is as follows:
It can be seen that by above-mentioned test data by the way that mill 100 is arranged on food processor 400, it can be effective
The crushing effect of food processor 400 is improved, and by the way that protrusion 107 or blade construction are arranged on vessel 10, it can
To effectively prevent food processor 400 to occur being charred phenomenon in pulping process.
Food processor 400 according to the ... of the embodiment of the present invention as a result, since high-speed rotating crushed piece 30 drives food materials to exist
Rotation in ladle body, under the drive of food materials, mill 100 absorb the part kinetic energy of food materials and with food materials rotating Vortex, due to grinding
The rotating Vortex under the drive of food materials of grinder 100, mill 100 and the speed discrepancy of food materials become smaller, while the mill 100 rotated
Also food materials can smoothly be stirred, thus food materials being more evenly distributed in ladle body 60, the rotation of food materials is also more steady,
The flow-disturbing effect of mill 100 then significantly, while also reducing food materials and mill 100 and being generated since speed discrepancy is larger
The purpose to food processor noise reduction has been better achieved in noise.
In addition, under the drive of food materials, mill 100 absorbs the part kinetic energy of food materials with food materials rotating Vortex, eats
Under the action of mill 100, kinetic energy becomes smaller material, and rotating speed reduces, and food materials and the speed discrepancy of crushed piece 30 become larger, and are equivalent to crushing
30 cutting speed of part becomes larger, and therefore, the effect of crushing can be more preferable.
Since the volume of grinding chamber 11 reduces compared with the volume of ladle body 60, improves the crush efficiency of food materials and crush and imitate
Fruit further improves slurrying concentration, simultaneously because the drive of food materials of the mill 100 with grinding chamber 11 in ladle body 60
Under relative to 60 relative rotation of rotary shaft 20 (thus relative to crushed piece 30) and ladle body, therefore, food materials are ground mill 100
It is further ground in mill chamber, further improves the crushing effect and efficiency of food materials, and slurrying concentration greatly improves, because
This, the mill 100 in the application has grinding and the double action of flow-disturbing.
In conclusion food processor 400 according to the ... of the embodiment of the present invention, head body 40 is interior to be equipped with motor 50, motor
50 can drive coupled rotary shaft 20 to rotate, due to having grinding chamber 11,20 first end 21 of rotary shaft in vessel 10
It stretches into grinding chamber 11 and first end 11 is equipped with the crushed piece 30 being located in grinding chamber 11, in use, the driving rotation of motor 50
Shaft 20 drives crushed piece 30 to rotate, and can form negative pressure in grinding chamber 11, food materials can be from the first material mouth 12 and the second material mouth
Throat-fed in 13, after food materials are crushed in grinding chamber 11, from discharge hole for discharge, process of lapping is complete in grinding chamber 11
At operating noise is small, and pulping efficiency and effects on slurry making are good, slurrying concentration is high, low energy consumption.
Other of food processor 400 according to the ... of the embodiment of the present invention are constituted and are operated for ordinary skill people
All it is known for member, is not detailed herein.
In the description of the present invention, it is to be understood that, term "center", " longitudinal direction ", " transverse direction ", " length ", " width ",
" thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time
The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of
The description present invention and simplified description, do not indicate or imply the indicated device or element must have a particular orientation, with spy
Fixed azimuth configuration and operation, therefore be not considered as limiting the invention.
In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance
Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include one or more this feature.In the description of the present invention, the meaning of " plurality " is two or more,
Unless otherwise specifically defined.
In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc.
Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected;It can be machine
Tool connects, and can also be electrical connection;It can be directly connected, can also can be indirectly connected through an intermediary two members
Connection inside part.For the ordinary skill in the art, above-mentioned term can be understood in this hair as the case may be
Concrete meaning in bright.
In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or "lower"
It may include that the first and second features are in direct contact, can also not be to be in direct contact but pass through it including the first and second features
Between other characterisation contact.Moreover, fisrt feature second feature " on ", " top " and " above " include first special
Sign is right over second feature and oblique upper, or is merely representative of fisrt feature level height and is higher than second feature.Fisrt feature exists
Second feature " under ", " lower section " and " following " include fisrt feature right over second feature and oblique upper, or be merely representative of
Fisrt feature level height is less than second feature.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example
Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not
Centainly refer to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be any
One or more embodiments or example in can be combined in any suitable manner.
Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example
Property, it is not considered as limiting the invention, those skilled in the art are not departing from the principle of the present invention and objective
In the case of can make changes, modifications, alterations, and variations to the above described embodiments within the scope of the invention.
Claims (10)
1. a kind of head of food processor, which is characterized in that including:
Head body;
Rotary shaft, the rotary shaft have a first end and a second end;
Motor, the motor are located in the head body, and the motor is connected with the second end of the rotary shaft to drive
State rotary shaft rotation;
Mill, the mill include vessel, and the vessel is revolving body, and the vessel is mounted on described
It is in rotary shaft and rotatable relative to the head body and the rotary shaft, the vessel have side peripheral wall, roof and
Bottom wall, has grinding chamber in the vessel, and the grinding chamber has the first material mouth and the second material mouth, first material mouth and
One in second material mouth is feed inlet, another in first material mouth and second material mouth is discharge port, institute
It states the first material mouth to be formed on the bottom wall, it is upper or from institute that second material mouth is formed in one of the side peripheral wall and described roof
It states side peripheral wall and extends to the roof, the gross area of first material mouth is less than the area of the bottom wall;
Crushed piece, the crushed piece are mounted on the first end of the rotary shaft and in the grinding chambers, the vessel
10 rotating speed and the ratio of the maximum radial dimension of first material mouth are 0.17-33.
2. the head of food processor according to claim 1, which is characterized in that first material mouth is one, described
Second material mouth is multiple and along the vessel circumferentially-spaced arrangements.
3. the head of food processor according to claim 2, which is characterized in that first material mouth be circular open and
It is formed in the center of the bottom wall, second material mouth is circular open and is formed on the side peripheral wall.
4. the head of food processor according to claim 2, which is characterized in that first material mouth be circular open and
It is formed in the center of the bottom wall, second material mouth is that the slot hole of the roof is extended to from the side peripheral wall.
5. the head of food processor according to claim 1, which is characterized in that the vessel includes top shell and bottom
Shell, the top shell are detachably connected with the bottom case.
6. the head of food processor according to claim 1, which is characterized in that the roof and the bottom wall respectively with
The side peripheral wall arc transition.
7. the head of food processor according to claim 1, which is characterized in that in the axial cross section of the vessel
On, it is straight or arc that the roof and the bottom wall, which are flat and described side peripheral wall,.
8. the head of food processor according to claim 1, which is characterized in that the electricity of the rotary shaft and the motor
Arbor is that same axis or the motor shaft by being driven coupler and the motor are detachably connected.
9. the head of food processor according to claim 1, which is characterized in that the rotary shaft is fastened equipped with backstop
Part, the vessel are rotatably installed in by the backstop fastener in the rotary shaft.
10. the head of the food processor according to any one of claim 1-9, which is characterized in that outside the bottom wall
Surface is equipped with protrusion or blade.
Priority Applications (1)
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CN201410857517.2A CN105249857B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
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CN201410857517.2A CN105249857B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
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CN105249857A CN105249857A (en) | 2016-01-20 |
CN105249857B true CN105249857B (en) | 2018-09-11 |
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CN201420872833.2U Active CN204378906U (en) | 2014-06-21 | 2014-12-31 | The head of soy bean milk making machine |
CN201410857552.4A Pending CN105266595A (en) | 2014-06-21 | 2014-12-31 | Headpiece of soybean milk maker |
CN201420873620.1U Active CN204520332U (en) | 2014-06-21 | 2014-12-31 | The head of soy bean milk making machine |
CN201420871929.7U Active CN204378901U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410857035.7A Active CN105310508B (en) | 2014-06-21 | 2014-12-31 | Dismembyator for food processor |
CN201420873347.2U Active CN204378908U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420873276.6U Withdrawn - After Issue CN204379051U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410857495.XA Active CN105167656B (en) | 2014-06-21 | 2014-12-31 | Mill for food processor |
CN201410857522.3A Active CN105266591B (en) | 2014-06-21 | 2014-12-31 | food processor |
CN201420872953.2U Active CN204427714U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410857517.2A Active CN105249857B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201420872305.7U Active CN204379048U (en) | 2014-06-21 | 2014-12-31 | For the mill of food processor |
CN201420872511.8U Active CN204378904U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410857039.5A Active CN105286635B (en) | 2014-06-21 | 2014-12-31 | food processor |
CN201410857258.3A Active CN105249856B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201420873619.9U Active CN204378942U (en) | 2014-06-21 | 2014-12-31 | The head of soy bean milk making machine |
CN201410856957.6A Active CN105286634B (en) | 2014-06-21 | 2014-12-31 | food processor |
CN201420872510.3U Active CN204378903U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872299.5U Active CN204378931U (en) | 2014-06-21 | 2014-12-31 | For the mill of food processor |
CN201410856390.2A Active CN105266590B (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201410857602.9A Active CN105310501B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410857053.5A Active CN105286636B (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872522.6U Active CN204378905U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872643.0U Active CN204427834U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201420872989.0U Active CN204378941U (en) | 2014-06-21 | 2014-12-31 | For the mill of food processor |
CN201410857599.0A Active CN105193308B (en) | 2014-06-21 | 2014-12-31 | Mill for food processor |
CN201410856796.0A Active CN105193260B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410856438.XA Pending CN105167617A (en) | 2014-06-21 | 2014-12-31 | Machine head of soybean milk maker |
CN201410857282.7A Active CN105310543B (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872998.XU Active CN204379050U (en) | 2014-06-21 | 2014-12-31 | For the mill of food processor |
CN201410856389.XA Active CN105167616B (en) | 2014-06-21 | 2014-12-31 | Mill for food processor |
CN201410857606.7A Pending CN105310502A (en) | 2014-06-21 | 2014-12-31 | Head of soybean milk maker |
CN201420873385.8U Active CN204378909U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201410857045.0A Active CN105193307B (en) | 2014-06-21 | 2014-12-31 | food processor |
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CN201420872489.7U Active CN204378902U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872990.3U Active CN204378907U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872563.5U Withdrawn - After Issue CN204427690U (en) | 2014-06-21 | 2014-12-31 | Food processor |
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CN201420872833.2U Active CN204378906U (en) | 2014-06-21 | 2014-12-31 | The head of soy bean milk making machine |
CN201410857552.4A Pending CN105266595A (en) | 2014-06-21 | 2014-12-31 | Headpiece of soybean milk maker |
CN201420873620.1U Active CN204520332U (en) | 2014-06-21 | 2014-12-31 | The head of soy bean milk making machine |
CN201420871929.7U Active CN204378901U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410857035.7A Active CN105310508B (en) | 2014-06-21 | 2014-12-31 | Dismembyator for food processor |
CN201420873347.2U Active CN204378908U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420873276.6U Withdrawn - After Issue CN204379051U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410857495.XA Active CN105167656B (en) | 2014-06-21 | 2014-12-31 | Mill for food processor |
CN201410857522.3A Active CN105266591B (en) | 2014-06-21 | 2014-12-31 | food processor |
CN201420872953.2U Active CN204427714U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
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CN201420872305.7U Active CN204379048U (en) | 2014-06-21 | 2014-12-31 | For the mill of food processor |
CN201420872511.8U Active CN204378904U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410857039.5A Active CN105286635B (en) | 2014-06-21 | 2014-12-31 | food processor |
CN201410857258.3A Active CN105249856B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201420873619.9U Active CN204378942U (en) | 2014-06-21 | 2014-12-31 | The head of soy bean milk making machine |
CN201410856957.6A Active CN105286634B (en) | 2014-06-21 | 2014-12-31 | food processor |
CN201420872510.3U Active CN204378903U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872299.5U Active CN204378931U (en) | 2014-06-21 | 2014-12-31 | For the mill of food processor |
CN201410856390.2A Active CN105266590B (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201410857602.9A Active CN105310501B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410857053.5A Active CN105286636B (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872522.6U Active CN204378905U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872643.0U Active CN204427834U (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201420872989.0U Active CN204378941U (en) | 2014-06-21 | 2014-12-31 | For the mill of food processor |
CN201410857599.0A Active CN105193308B (en) | 2014-06-21 | 2014-12-31 | Mill for food processor |
CN201410856796.0A Active CN105193260B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
CN201410856438.XA Pending CN105167617A (en) | 2014-06-21 | 2014-12-31 | Machine head of soybean milk maker |
CN201410857282.7A Active CN105310543B (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872998.XU Active CN204379050U (en) | 2014-06-21 | 2014-12-31 | For the mill of food processor |
CN201410856389.XA Active CN105167616B (en) | 2014-06-21 | 2014-12-31 | Mill for food processor |
CN201410857606.7A Pending CN105310502A (en) | 2014-06-21 | 2014-12-31 | Head of soybean milk maker |
CN201420873385.8U Active CN204378909U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201410857045.0A Active CN105193307B (en) | 2014-06-21 | 2014-12-31 | food processor |
CN201410856788.6A Active CN105286665B (en) | 2014-06-21 | 2014-12-31 | The head of food processor |
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CN201420872990.3U Active CN204378907U (en) | 2014-06-21 | 2014-12-31 | Food processor |
CN201420872563.5U Withdrawn - After Issue CN204427690U (en) | 2014-06-21 | 2014-12-31 | Food processor |
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