CN110448198A

CN110448198A - Food processor with material residue drying functions

Info

Publication number: CN110448198A
Application number: CN201910652246.XA
Authority: CN
Inventors: 王晓东
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-07-18
Filing date: 2019-07-18
Publication date: 2019-11-15
Anticipated expiration: 2039-07-18
Also published as: CN110448198B

Abstract

The present invention relates to a kind of food processor with material residue drying functions, interior magnetic part is set in swingle, outer magnetic part is set outside swingle.Interior magnetic part is the component for stacking setting or the spaced electromagnet component constituted or permanent magnet composition, and outer magnetic part is the component that permanent magnet, ferromagnet or electromagnet are constituted.Rotation section is vertically movable in the middle part of swingle or when upper section rotates, and the liquid in the material residue in rotation section can be preferably dried.It is not threadedly engaged between cutter and swingle, residue (i.e. material residue) is not easy to be detained, and it is vertically movable to will not influence cutter in addition swingle surfacing；In entire treatment process, the structure in it is closed by swingle, is integrally readily disassembled, is readily cleaned；Finally the electromagnetic force effect between interior magnetic part and outer magnetic part is controllable, and a variety of different vertically movable modes may be implemented, and the vertically movable of outer magnetic part steadily will not generate violent shock to staving, reduces the harm such as vibration, noise.

Description

Food processor with material residue drying functions

Technical field

The invention belongs to food processing technology fields, are related to a kind of food processor, especially a kind of to have material residue drying The food processor of function.

Background technique

Food processor is to be driven by a motor cutter, the process equipment crushed to food materials.It separates and gets rid of with scum juice The working speed of the food processor of dry function can break the cell of cell in food materials generally at 16000-30000 revs/min Vitamin, minerals, plant element, protein and moisture etc. in cell is adequately released, can be used for processing beans by wall Slurry, fruit juice, thick soup, rice paste, various grains gruel, sauce, fish soup, Sorbet, Chinese medicine etc. are modern household health care, health household appliances.

Positive displacement food processor with staving can also be with for the extraction of nutritional ingredient after the crushing of beans, decoction Broken rear sap extraction for water fruits and vegetables.The structure of the food processor of the type is: including power unit (with motor For core), cutter shaft, cutter, staving, body and electric control gear, body can be base or head.Base is arranged under staving Side, the output shaft of motor are arranged upward and connect with the cutter shaft of staving bottom, and cutter is installed on cutter shaft；Staving is arranged in head Top, the output shaft of motor are arranged downward and install cutter in lower end；There are also a kind of situation, a position is arranged in base one end Extension in staving side, the extension is interior to be arranged motor, and motor is located at the cutter shaft below staving by transmission mechanism driving On cutter, either which kind of structure, the foodstuff (food) placed in staving can crush or be located at by the rotation of cutter It is foodstuff liquid that foodstuff in staving in water, which crushes,.Electric control gear is responsible for whole control.

In above structure, after the intracorporal food of bucket crushes, liquid and smashed solid content (i.e. material residue) are blended in In staving, although solid particle is very tiny, people's mouthfeel when edible is still poor, such as: the bean dregs in soya-bean milk are micro- Pericarp particle etc. in grain, fruit juice, people can pour out the intracorporal solidliquid mixture of bucket, be carried out by structures such as filter screens Filter, but the complexity become is operated, and filter effect is bad.

By retrieval, two patents are found, specifically:

1. the patent of invention that open number is TW201238540 discloses a kind of scum juice separator, set in container 2 It sets rotation axis 12 and slag body collection receives component 3, receive component in slag body collection and set from setting central siphon 33 and rotating member 34, rotating member 34 It is equipped with blade part 342, central siphon has internal screw thread 331 and engages with the threaded portion of rotation axis 14.

When the axial direction rotation of rotation, slag body collection is received component and is moved downward, when rotating member and 15 knot of drive portion After conjunction, slag body collection is received the food in component and crushed by blade part high speed rotation.

When rotating axial another direction rotation, slag body collection is received component and is moved upwards, when withstanding on lid 22 or base 1 Afterwards, slag body collection receives component and continues to rotate, and internal liquid is thrown away, and slag body stays in slag body collection and receives in component.

2. notification number is that the patent of invention of CN103976630 discloses a kind of scum juice separator, in above-mentioned patent On the basis of improved, 13 outer rim of sleeve be arranged blade 14.

When the axial direction rotation of rotation, slag body collection is received component and is combined with seat 25 is held, band of the sleeve in driving section 122 Dynamic lower rotation, receives the food in component for slag body collection and crushes.

When rotating axial another direction rotation, slag body collection is received component and is moved upwards, when moving to rotation axis upper end It is rotated synchronously by the structures such as the second engaging section 33 or open slot 36 and rotation axis, internal liquid is thrown away, and slag body stays in Slag body collection is received in component.

There are some problems for above-mentioned patent, specifically:

1. the blade part of patent 1 is limited in the bottom that slag body collection receives component, the upper end has embedding with slag body collection receipts component Dress relationship, when being rotated under the rotating member portion of being driven drives, it may appear that because rotating member and the receipts component friction of slag body collection are excessive And the problem of making the synchronous rotation of slag body collection receipts component and rotating member, the crushing effect of blade part is deteriorated at this time.

2. the blade part position of patent 1 is lower and the blade of patent 2 is limited by sleeve height, the two can not be Slag body collection receives the relative displacement that vertical direction is done in component, and crush efficiency is to be improved.

3. holding at the gap for the combination that the sleeve inner of patent 1 and 2, the rotating member of patent 1 and slag body collection receive component Solid content is easily penetrated into, resistance when not only resulting in rotation sharply increases, and is easy putrid and deteriorated, generation pathogenic bacteria.

4. the rotation axis of patent 1 and 2 all has external screw thread, since revolving speed is very high, external screw thread needs to have biggish depth Degree and the lesser lift angle for reducing sleeve lifting speed, it means that externally threaded effective length can be long, interior to be easy It adheres to solid content (material residue etc.), is not only not easily cleaned, can be due to putrid and deteriorated generation pathogenic bacteria, and will cause the outer spiral shell of rotation axis Abrasion of line and internal thread of sleeve or both mutually engagement in rotation cooperation retardance, finally occur noise become larger, cooperate in shake Dynamic problem.

5. the rotation axis velocity of rotation of patent 1 and 2 is higher, and the fast speed that the sleeve being arranged thereon rises or falls, Can other structures be generated with biggish shock when sleeve runs to rotation axis upper end or lower end with other structures thereon, it is unfavorable In trouble free service, and biggish noise and complete machine oscillation can be generated, also can for the mechanical strength of the other structures on sleeve It has an impact, leads to the reduction of service life.

Summary of the invention

It is an object of the invention to overcome the deficiencies of the prior art and provide it is a kind of it is structurally reasonable, be convenient to clean, work safety The reliable food processor with material residue drying functions.

The technical solution adopted by the present invention is that:

A kind of food processor with material residue drying functions, including power unit, control unit, cutter and staving, It is characterized in that: further including swingle and rotation section, the rotary rod portions are located in staving or are entirely located in staving, described dynamic Power unit drives swingle rotation, and rotation section is set on swingle by overlap aperture set thereon, has in rotation section and uses In the cavity for placing food to be processed, rotation section surface is provided with the through-hole of connection rotation section internal cavity and staving internal cavity, The cutter has a cutter holes, and cutter is arranged in rotation section and on the swingle that is set in rotation section by cutter holes, institute Stating cutter can be used to crush the food to be processed；

Rotation section can be vertically movable along swingle, and rotation section can rotate under swingle drive, preferably rotation section bottom Portion can rotate when being located at the swingle any position of swingle lower section or more under swingle drive, be further preferred that rotation Portion bottom can rotate synchronously when being located at the swingle any position of swingle lower section or more under swingle drive；

The swingle is hollow structure, interior magnetic part is arranged inside, interior magnetic part, cutter and rotation section are along rotation The vertically movable relationship of bar selected from it is following (1), (2) or (3) in any one:

(1) the cutter includes outer magnetic part；

When cutter rises along swingle: control unit control under, the different parts of interior magnetic part from the bottom to top with The electromagnetic force effect generated between outer magnetic part can make cutter vertically raised along swingle；

When cutter declines along swingle:

Under control unit control, the electromagnetism magnetic that is generated between interior magnetic part different parts from top to bottom and outer magnetic part Power effect can be such that cutter vertically declines along swingle；

Or, cutter can vertically decline along swingle under the effect of gravity；

Or, under control unit control, the electricity that is generated between interior magnetic part different parts from top to bottom and outer magnetic part The gravity of magnetic magneticaction and cutter itself declines cutter vertically along swingle jointly；

Cutter is vertically movable along swingle along the dynamic rotation section of vertically movable energy band of swingle；

(2) the rotation section includes outer magnetic part；

When rotation section rises along swingle: under control unit control, the different parts of interior magnetic part from the bottom to top The electromagnetic force effect generated between outer magnetic part can make rotation section vertically raised along swingle；

When rotation section declines along swingle:

Under control unit control, the electromagnetism magnetic that is generated between interior magnetic part different parts from top to bottom and outer magnetic part Power effect can be such that rotation section vertically declines along swingle；

Or, rotation section can vertically decline along swingle under the effect of gravity；

Or, under control unit control, the electricity that is generated between interior magnetic part different parts from top to bottom and outer magnetic part Magnetic magneticaction and the gravity of rotation section itself decline rotation section vertically along swingle；

Rotation section is vertically movable along swingle along the vertically movable energy band cutter of swingle；

(3) the cutter and rotation section include outer magnetic part；

When cutter and/or rotation section rise along swingle: under control unit control, interior magnetic part is from the bottom to top The electromagnetic force effect generated between different parts and outer magnetic part keeps cutter and/or rotation section vertically raised along swingle；

When cutter and/or rotation section decline along swingle:

Under control unit control, the electromagnetism magnetic that is generated between interior magnetic part different parts from top to bottom and outer magnetic part Power effect declines cutter and/or rotation section vertically along swingle,

Or, cutter and/or rotation section can vertically decline along swingle under the effect of gravity；

Or, under control unit control, the electricity that is generated between interior magnetic part different parts from top to bottom and outer magnetic part Magnetic magneticaction and cutter and/or the gravity of rotation section itself, make the cutter and/or rotation section along swingle jointly Vertical decline；

The rotation relation of the swingle and cutter is: swingle is able to drive cutter rotation, and preferably swingle passes through Cutter holes are rotated with cutter and/or swingle is turned by the magneticaction band cutter between interior magnetic part and outer magnetic part It is dynamic；It is further preferred that swingle passes through interior magnetic part and outer magnetic part by cutter holes band cutter rotation and/or swingle Between magnetic force attract band cutter rotate；

The magneticaction is magnetic force attraction and/or magnetic repellence.

Further more, interior magnetic part includes the portion that the component that vertically arranged multiple permanent magnets are constituted or multiple electromagnet are constituted Part, outer magnetic part at least part are selected from the component of electromagnet composition or the component that permanent magnet is constituted or the component that ferromagnet is constituted In any one or any two or all three kinds, generate electricity under control unit control between interior magnetic part and outer magnetic part Magnetic magneticaction；

Or, outer magnetic part at least part is electromagnetism when interior magnetic part at least part is the component that electromagnet is constituted The component that iron is constituted；Or when interior magnetic part at least part is the component that electromagnet is constituted, outer magnetic part at least part is The component that permanent magnet is constituted；Or when interior magnetic part at least part is the component that electromagnet is constituted, outer magnetic part at least one The component constituted for ferromagnet；Or when interior magnetic part at least part is the component that permanent magnet is constituted, outer magnetic part at least one Portion is the component that electromagnet is constituted；

Or, the swingle is closed hollow structure.

Further more, the cutter includes outer magnetic part, (1), (2), (3), (4), (5), (6), (7) the relationship of rotation section and cutter is selected from Or (8) in any one:

(1) when the upper end of rotation section has opening and opening is provided with upper cover, the upper cover and the opening are detachable Connection:

The cutter can withstand upper cover when rising along swingle and drive rotation section rising or the cutter along rotation Bar can withstand rotation section rising when rising；

The cutter can be withstood when declining along swingle rotation section decline or the rotation section under the effect of gravity along Swingle decline or the cutter and rotation section decline along swingle under the effect of gravity；Or,

(2) when the upper end of rotation section or side wall have opening:

The cutter is provided with the clamping portion that can block rotation section bottom plate；

The clamping portion can hold rotation section rising when rising along swingle；

The cutter can withstand rotation section decline or clamping portion and decline Shi Nengding along swingle when declining along swingle Firmly rotation section decline or the rotation section are under the effect of gravity along swingle decline or the cutter and rotation section in gravity Decline under effect along swingle；Or,

(3) when the upper end of rotation section or side wall have opening:

The cutter is provided with the clamping portion that can block rotation section inner sidewall；

(4) when the upper end of rotation section or side wall have opening:

The cutter is provided with gland or press strip, and the bottom surface of gland or press strip position opposite with the opening rotation section of side is set It sets；

The cutter is provided with the clamping portion that can block rotation section bottom plate or inner sidewall；

The gland or press strip can withstand rotation section decline when declining along swingle or clamping portion declines along swingle When can withstand rotation section decline or the rotation section under the effect of gravity along swingle decline or the cutter and rotation section Decline under the effect of gravity along swingle；Or,

(5) when the upper end of rotation section or side wall have opening:

The rotation section opening has inside bending edges or bending rib；

The cutter can withstand bending edges or bending rib and rotation section is driven to rise when rising along swingle；

(6) when the upper end of rotation section or side wall have opening:

The rotation section inner edge has inside protrusive board, convex block or bulge loop；

The cutter can withstand protrusive board, convex block or bulge loop and rotation section is driven to rise when rising along swingle；

(7) when the upper end of rotation section or side wall have opening:

The rotation section inner edge has inside protrusive board, convex block or bulge loop, and the cutter, which is provided with, can block rotation section bottom The clamping portion of plate or inner sidewall；

The clamping portion can withstand rotation section decline or the rotation section edge under the effect of gravity when declining along swingle Swingle decline or the cutter and rotation section decline under the effect of gravity along swingle；Or,

(8) when the upper end of rotation section or side wall have opening:

The rotation section has the beam-shaped structure of enclosure portion opening；

The cutter can withstand beam-shaped structure and rotation section is driven to rise when rising along swingle；

The cutter can be withstood when declining along swingle rotation section decline or the rotation section under the effect of gravity along Swingle decline or the cutter and rotation section decline along swingle under the effect of gravity.

Further more, the rotation section includes outer magnetic part, the relationship of rotation section and cutter be selected from (1), (2), (3), (4), (5), (6), (7) any one in or (8):

Energy band cutter rises when the rotation section rises along swingle；

The rotation section can withstand cutter decline or the cutter under the effect of gravity along rotation when declining along swingle Bull stick decline or the rotation section and cutter decline along swingle under the effect of gravity；Or,

(2) when the upper end of rotation section or side wall have opening:

Energy band cutter rises when the rotation section rises along swingle；

The cutter under the effect of gravity along swingle decline or the rotation section and cutter under the effect of gravity along Swingle decline；Or,

(3) when the upper end of rotation section or side wall have opening:

The rotation section can be risen by clamping portion band cutter when rising along swingle or the rotation section is along rotation Energy band cutter rises when bull stick rises；

The rotation section can be withstood cutter decline or the cutter by clamping portion and be made in gravity when declining along swingle Decline under the effect of gravity along swingle under along swingle decline or the rotation section and cutter；Or,

(4) when the upper end of rotation section or side wall have opening:

The rotation section can be by gland when rising along swingle or press strip band cutter rises or the rotation section edge Swingle energy band cutter rises when rising or the rotation section can be by clamping portion band cutter when rising along swingle Rise；

(5) when the upper end of rotation section or side wall have opening:

The rotation section opening has inside bending edges or bending rib；

Energy band cutter rises when the rotation section rises along swingle；

The rotation section can withstand cutter decline or the cutter by bending edges or bending rib when declining along swingle Decline under the effect of gravity along swingle or the rotation section and cutter decline along swingle under the effect of gravity；Or,

(6) when the upper end of rotation section or side wall have opening:

Energy band cutter rises when the rotation section rises along swingle；

The rotation section can withstand cutter decline or the knife by protrusive board, convex block or bulge loop when declining along swingle Tool declines along swingle under the effect of gravity or the rotation section and cutter decline along swingle under the effect of gravity；Or,

(7) when the upper end of rotation section or side wall have opening:

When the rising of energy band cutter or the rotation section rise along swingle when the rotation section rises along swingle It can be risen by clamping portion band cutter；

When the decline of energy band cutter or the rotation section decline along swingle when the clamping portion declines along swingle It can withstand that cutter declines or the cutter declines along swingle or described under the effect of gravity by protrusive board, convex block or bulge loop Rotation section and cutter decline along swingle under the effect of gravity；Or,

(8) when the upper end of rotation section or side wall have opening:

Energy band cutter rises when the rotation section rises along swingle；

The beam-shaped structure can be withstood when declining along swingle cutter decline or the cutter under the effect of gravity along Swingle decline or the rotation section and cutter decline along swingle under the effect of gravity.

Further more, any one of the structure of the interior magnetic part in (1), (2), (3) or (4):

(1) the interior magnetic part is the component that the multiple electromagnet being arranged from the bottom to top in swingle are constituted, preferably interior magnetic Suction portion is the component for the multiple electromagnet composition for stacking setting in swingle from the bottom to top or is to be spaced from the bottom to top in swingle The component that multiple electromagnet are constituted is set, and described outer magnetic part at least part is the component that electromagnet is constituted；

Preferably, under control unit control, the different electromagnet of interior magnetic part can be power on/off in any order And electromagnetic field position is made to change, outer magnetic part, which can be powered, generates electromagnetic field, between interior magnetic part and outer magnetic part Generate electromagnetic force effect；

The electromagnet of preferably interior magnetic part can be such that electromagnetic field position becomes according to adjacent sequential is successively power on/off Change, outer magnetic part, which can be powered, generates electromagnetic field, and electromagnetic force effect is generated between interior magnetic part and outer magnetic part；Further The electromagnet of preferably outer magnetic part changes magnetic pole according to the polarity of the electromagnet of the interior magnetic part of contraposition, to realize interior magnetic Electromagnetic force effect between portion and outer magnetic part；Or,

(2) the interior magnetic part is the component that the multiple electromagnet being arranged from the bottom to top in swingle are constituted, preferably interior magnetic Suction portion is the component for the multiple electromagnet composition for stacking setting in swingle from the bottom to top or is to be spaced from the bottom to top in swingle The component that multiple electromagnet are constituted is set, and described outer magnetic part at least part is the component that permanent magnet is constituted；

Preferably, under control unit control, the different electromagnet of interior magnetic part can be powered in any order/break Electricity makes electromagnetic field position change, and preferably multiple electromagnet can make electromagnetism according to adjacent sequential is successively power on/off Magnetic field position changes, and is acted on the electromagnetic force realized between interior magnetic part and outer magnetic part；Or,

(3) the interior magnetic part is the component that the multiple electromagnet being arranged from the bottom to top in swingle are constituted, preferably interior magnetic Suction portion is the component for the multiple electromagnet composition for stacking setting in swingle from the bottom to top or is to be spaced from the bottom to top in swingle The component that multiple electromagnet are constituted is set, and described outer magnetic part at least part is the component that ferromagnet is constituted；

Preferably, under control unit control, the different electromagnet of interior magnetic part can be powered in any order/break Electricity makes electromagnetic field position change, and preferably multiple electromagnet can make electromagnetism according to adjacent sequential is successively power on/off Magnetic field position changes, and is attracted with the electromagnetic force realized between interior magnetic part and outer magnetic part；Or,

(4) the interior magnetic part is the component that the multiple permanent magnets being arranged from the bottom to top in swingle are constituted, preferably interior magnetic Suction portion is the component for the multiple permanent magnets composition for stacking setting in swingle from the bottom to top or is to be spaced from the bottom to top in swingle The component that multiple permanent magnets are constituted is set, and described outer magnetic part at least part is the component that electromagnet is constituted；

Preferably, under control unit control, the electromagnet can change magnetic pole according to the polarity of the permanent magnet of contraposition It is acted on the electromagnetic force realized between interior magnetic part and outer magnetic part.

Further more, the outer shape of the swingle is selected from any one (1), (2), (3), (4), (5) or in (6):

(1) some or all of swingle outer rim is provided with key block, and on cutter or cutter holes contraposition is provided with and key block matches The keyway of conjunction, swingle can be rotated by the key block band cutter；Or,

(2) some or all of swingle outer rim is provided with keyway, and on cutter or cutter holes contraposition is provided with and keyway matches The key block of conjunction, swingle can be rotated by the keyway band cutter；Or,

(3) the shape of the transversal cross-section of rotary rod portions or whole is non-circular shape, and cutter is set in rotation by cutter holes On bar, swingle can be rotated by the non-circular shape band cutter；Or,

(4) the shape of the transversal cross-section of rotary rod portions or whole is circle, and cutter is set in swingle by cutter holes On, swingle can be rotated by the circular strip cutter；Or,

(5) the shape of the transversal cross-section of rotary rod portions or whole is round or non-circular shape, and cutter passes through cutter holes set It is located on swingle, swingle attracts band cutter to rotate by the magnetic force of interior magnetic part and outer magnetic part；Or,

(6) some or all of swingle outer rim is provided with rotary position limiting structure, and on cutter or cutter holes contraposition is provided with phase The rotary position limiting structure of shape is adapted to, swingle can be rotated by the rotary position limiting structure band cutter.

Further more, any one of the structure of outer magnetic part in (1), (2), (3), (4), (5), (6), (7) or (8):

(1) tool parts or all ferromagnets are made and are formed as outer magnetic part；Or,

(2) cutter holes inner edge is provided with ferromagnet or permanent magnet or electromagnet and is formed as outer magnetic part；Or,

(3) cutter upper surface or bottom surface are provided with ferromagnet or permanent magnet or electromagnet and are formed as outer magnetic part；Or,

(4) tool parts or all permanent magnets and outer magnetic part is formed as；Or,

(5) rotation section is partly or entirely that ferromagnet is made and is formed as outer magnetic part；Or,

(6) the overlap aperture inner edge of rotation section is provided with ferromagnet or permanent magnet or electromagnet and is formed as outer magnetic part；Or,

(7) rotation section upper end, lower end, side wall or bottom plate are provided with ferromagnet or permanent magnet or electromagnet and are formed as outer magnetic Suction portion；Or,

(8) rotation section is partly or entirely permanent magnet and is formed as outer magnetic part.

Further more, in vertical direction rotation section kept on swingle height and position structure be selected from (1), (2), (3), (4), (5), (6) any one in or (7):

(1) the rotation section keeps height and position by embedding structure on swingle；Or,

(2) the rotation section keeps height and position by clamping structure on swingle；Or,

(3) the rotation section keeps height and position by engaging structure on swingle；Or,

(4) the magnetic force of the outer magnetic part on cutter and interior magnetic part attraction makes cutter keep height and position, knife on swingle Tool makes rotation section keep height and position on swingle again；Or,

(5) rotation section keeps rotation section on swingle by the magnetic force attraction of outer magnetic part and interior magnetic part thereon Height and position；Or,

(6) ratchet structure or barb structure are provided between the rotation section and swingle, preferably vertical ratchet structure or Vertical barb structure, the ratchet structure or barb structure make rotation section keep height and position on swingle；

(7) the height that swingle middle part or upper section are provided with that permanent magnet, electromagnet or ferromagnet are formed keeps magnetic part, turns There are permanent magnet, electromagnet or ferromagnet in dynamic portion, when rotation section, which is close to or up to the height on swingle, keeps magnetic part, The mutual magnetic force attraction of the two makes rotation section keep height and position；

Alternatively, when the permanent magnet on rotation section, electromagnet position are higher than the height holding magnetic part on swingle It waits, the mutual magnetic repellence of the two makes rotation section keep height and position.

Further more, the swingle drives the structure of rotation section rotation any one in (1), (2), (3), (4), (5) or (6) Kind:

At least one in the upper end of the rotation section, lower end or side wall at swingle in the middle part of or upper section between be provided with tenon Slot structure；Or,

At least one in the upper end of the rotation section, lower end or side wall at swingle in the middle part of or upper section between be provided with it is embedding At least one of assembling structure, clamping structure or engaging structure；Or,

(3) the swingle middle part or upper section are provided with the rotation for being adapted shape with rotation section upper end, lower end or side wall and limit Bit architecture；Or,

(4) the shape of the overlap aperture of rotation section matches with the shape at swingle at least one, and swingle drives rotation section to turn It is dynamic；Or,

(5) swingle is attracted by the magnetic force of interior magnetic part and outer magnetic part drives rotation section rotation；Or,

(6) swingle band cutter rotates, and rotation section links together with cutter, and rotation section and cutter rotate synchronously.

Further more, by the limit of rotary position limiting structure or in free shape when the rotation section is moved to lower end in staving State, any one of the rotary position limiting structure in (1), (2), (3), (4) or (5):

(1) be provided between the bottom of rotation section at least one in staving bottom or staving bottom side of the wall plug-in mounting structure or Clamping structure；Or,

(2) be provided between the side wall of rotation section at least one in staving bottom or staving bottom side of the wall plug-in mounting structure or Clamping structure；Or,

(3) engaging structure is provided between the bottom of rotation section at least one in staving bottom or staving bottom side of the wall； Or,

(4) engaging structure is provided between the side wall of rotation section at least one in staving bottom or staving bottom side of the wall； Or,

(5) staving lower inner side wall is the shape being adapted with rotation section side wall lower ends, which can stop rotation section Rotation.

The advantages and positive effects of the present invention are:

It is provided with interior magnetic part in the present invention, in swingle, outer magnetic part is provided with outside swingle.Interior magnetic part is to stack It is arranged or the component of the component of spaced electromagnet composition or permanent magnet composition, outer magnetic part is permanent magnet, ferromagnet (energy Enough ferrimagnets attracted by permanent magnet or electromagnet.Such as iron, nickel, cobalt, and the ferrite that can be attracted by permanent magnet Stainless steel etc.) or electromagnet constitute component.Under control unit control, the electromagnet of interior magnetic part or outer magnetic part is powered Electromagnetic field is generated, and using the change in location of electromagnetic field or Strength Changes or pole change, generates inside and outside magnetic part Electromagnetic force acts on and keeps outer magnetic part (together with cutter, rotation section etc.) vertically movable along swingle.When cutter is in rotation section Interior comminuted food products generate the foodstuff liquid for having material residue, and rotation section is vertically movable in the middle part of swingle or when upper section rotates, can be The liquid in material residue in rotation section preferably dries.Since there are vertical relative displacement, cutters between cutter and rotation section More efficient the food to be processed placed in rotation section can be crushed；Secondly it is not threadedly engaged between cutter and swingle, Residue (i.e. material residue) is not easy to be detained, be not in the prior art because residue corruption caused by germ mass propagation the phenomenon that； In addition swingle surfacing, be not in the prior art because of germ mass propagation caused by external screw thread residue corruption and Influence the vertically movable problem of cutter；Have in entire treatment process again, the structure in it is closed by swingle, is integrally easy to It dismantles, be readily cleaned；Electromagnetic force effect in last between magnetic part and outer magnetic part be it is controllable, can according to it is a variety of not Same program makes outer magnetic part realize a variety of different vertically movable modes, and outer magnetic part is vertically movable relatively steady, no Violent shock can be generated to staving, reduce the harm such as vibration, noise.

Detailed description of the invention

Fig. 1 is main view of the invention；

Fig. 2 is the enlarged drawing of the first embodiment of the rotary position limiting structure of staving setting；

Fig. 3 is the enlarged drawing of second of embodiment of the rotary position limiting structure of staving setting；

Fig. 4 is the enlarged drawing of the third embodiment of the rotary position limiting structure of staving setting；

Fig. 5 is the enlarged drawing that state is freely rotated in rotation section；

Fig. 6 is the enlarged drawing of the 4th kind of embodiment of the rotary position limiting structure of staving setting；

Fig. 7 is the enlarged drawing of the component of swingle upper end setting wedge-type shape；

Fig. 8 is the enlarged drawing that cutter has clamping portion；

Fig. 9 is the enlarged drawing in the clamping portion that cutter has another structure；

Figure 10 is the enlarged drawing that rotation section has bending edges；

Figure 11 is the enlarged drawing that rotation section has protrusive board；

Figure 12 is the enlarged drawing set on power unit；

Figure 13 is the enlarged drawing that swingle lower end is extend out to below staving；

Figure 14 is that the interior magnetic part in swingle is the enlarged drawing for stacking setting；

Figure 15 is that the interior magnetic part in swingle is spaced enlarged drawing；

Figure 16 is that swingle cross-sectional shape is elliptical enlarged drawing；

Figure 17 is the enlarged drawing of swingle setting key block；

Figure 18 is the enlarged drawing of aid tool；

Figure 19 is the enlarged drawing that outer magnetic part is arranged in rotation section；

Figure 20 is that interior magnetic part is the schematic diagram for stacking multiple electromagnet of setting；

Figure 21 is the schematic diagram that interior magnetic part is spaced multiple permanent magnets.

Specific embodiment

Below with reference to embodiment, the present invention is further described, following embodiments be it is illustrative, be not restrictive, It cannot be limited the scope of protection of the present invention with following embodiments.

Cutter described in the present invention is the general name for referring to the crushing knife tool device or grinding device of food processor comprising Collision type crushing knife tool, shear type pulverizing cutter, grinding mechanism of sound bistrique cooperation etc..It can be by the dynamic of food processor Power unit drives rotation or rotates and then crush foodstuff.

Wherein particularly, shear type pulverizing cutter includes main cutter and aid tool, in shear type pulverizing cutter, operator Tool is major part, and main cutter is arranged on swingle and is driven by swingle, and aid tool is arranged in rotation section inner edge, works as master Cutter and aid tool, which have when speed difference, generates shearing pulverization (but when too far at a distance from the two to foodstuff It waits, the shearing pulverization generated is weaker).So being primarily upon the work shape of its main cutter for shear type pulverizing cutter State, without removing description aid tool.For example, when being related to cutter rotation in the present invention, if being related to shear type pulverizing cutter What the statement illustrated is the state of main cutter rotation, and the description of aid tool is omitted.

The grinding mechanism of sound bistrique cooperation includes rotary bistrique and quiet bistrique, and rotary bistrique is that major part is in the present invention Described " cutter ", quiet bistrique is that is, " aid tool ".Rotary bistrique is set on swingle and is driven by swingle, quiet mill Head is arranged in rotation section inner edge.So the working condition of its rotary bistrique is primarily upon for the grinding mechanism of sound bistrique cooperation, Without going to describe quiet bistrique.

Power unit drives swingle rotation, has both included that power unit directly drives swingle rotation, has also included passing through it Its transmission device drives swingle rotation.

A kind of food processor with material residue drying functions, as shown in Fig. 1~21, including power unit 17,7 and of cutter Staving 5, power unit are provided with output shaft 16, base are arranged in the food processor of the lower section of staving, including staving and Base is that split settings (such as Fig. 1) and staving and base are structure as a whole.It is as shown in Figure 1 seperated for staving and base It is arranged, the upper end position of output shaft is equipped with half a coupler 14, in addition the end position below swingle lower section also is provided with Half a coupler, described two half a couplers 14 are connected with each other, and output shaft can drive swingle to rotate.For staving and base It is structure as a whole, output shaft can directly be connect with swingle or output shaft is structure as a whole with swingle.

It is provided with end cap 2 on staving, handle 1 is provided on staving lateral wall, innovation of the invention is: further including Swingle 4 and rotation section 21, rotary rod portions are located in staving or are entirely located in staving, and power unit drives swingle to turn Dynamic, rotation section is set on swingle by overlap aperture 6 set thereon, is had in rotation section for placing food 10 to be processed Cavity 8, rotation section surface be provided with connection rotation section internal cavity and staving internal cavity through-hole 9, cutter have cutter holes 47, cutter is arranged in rotation section and on the swingle that is set in rotation section by cutter holes, and cutter can be used to crush described Food to be processed.

Rotation section can be moved along swingle vertical direction as shown in the figure, and rotation section can rotate under swingle drive, It can be rotated under swingle drive when preferably rotation section bottom is located at the swingle any position of swingle lower section or more, into One step is preferably can be synchronous under swingle drive when rotation section bottom is located at the swingle any position of swingle lower section or more Rotation.

Lower section, middle part and the upper section of swingle refer to: swingle is located at the intracorporal part of bucket and is vertically divided into 20 sections, First segment close to staving bottom is defined as the lower section of swingle, the 20th section of upper section for being defined as swingle, under swingle Rest part between section and upper section is the middle part of swingle.

Material residue drying in the restriction of " lower section, middle part and the upper section of swingle " mentioned above mainly description rotation section Act the approximate location occurred.In the present invention, cutter comminuted food products in rotation section, when containing liquid in food to be comminuted The foodstuff liquid (such as watermelon is crushed as watermelon juice in rotation section) for having material residue is generated, or (is passed through after food crushes " through-hole ") with the intracorporal water of bucket be mixed into the foodstuff liquid with material residue (such as dry soya bean in rotation section be crushed after again with bucket Intracorporal water is mixed into soya-bean milk).When rotation section rotates, the material residue in the foodstuff liquid is blocked in rotation section greater than through-hole Interior, the liquid in foodstuff liquid is thrown out of in the staving outside rotation section；When rotation section is in the middle part of swingle or upper section rotates (at this point, usual state rotation section is located in liquid level or more unless liquid is filled with other than state in staving), in foodstuff liquid The effect that liquid is dried is more preferable.

In short, the purpose for rotating rotation section is in order to which the material residue in rotation section is dried.Rotation section is entirely located in staving The effect dried when interior ullage is more preferable, and it is poor to dry effect when rotation section part is located in the intracorporal foodstuff liquid of bucket, turns It is worst that effect is dried when dynamic portion is entirely located in the intracorporal foodstuff liquid of bucket.

Swingle is hollow structure, and interior magnetic part 41, interior magnetic part, cutter and rotation section are provided in inner space 39 Along the vertically movable relationship of swingle selected from it is following (1), (2) or (3) in any one:

(1) what cutter was as shown in figure 15 includes outer magnetic part 45

When cutter rises along swingle: control unit control under, the different parts of interior magnetic part from the bottom to top with The electromagnetic force effect generated between outer magnetic part can make cutter vertically raised along swingle.

When cutter declines along swingle:

Or,

Cutter can vertically decline along swingle under the effect of gravity；

Or,

Under control unit control, the electromagnetism magnetic that is generated between interior magnetic part different parts from top to bottom and outer magnetic part The gravity of power effect and cutter itself declines cutter vertically along swingle.

Cutter is vertically movable along swingle along the dynamic rotation section of vertically movable energy band of swingle.

(2) what rotation section was as shown in figure 19 includes outer magnetic part 45

When rotation section rises along swingle: under control unit control, the different parts of interior magnetic part from the bottom to top The electromagnetic force effect generated between outer magnetic part can make rotation section vertically raised along swingle.

When rotation section declines along swingle:

Or,

Rotation section can vertically decline along swingle under the effect of gravity；

Or,

Under control unit control, the electromagnetism magnetic that is generated between interior magnetic part different parts from top to bottom and outer magnetic part The gravity of power effect and rotation section itself declines rotation section vertically along swingle.

Rotation section is vertically movable along swingle along the vertically movable energy band cutter of swingle.

(3) cutter and rotation section include outer magnetic part

When cutter and/or rotation section rise along swingle: under control unit control, interior magnetic part is from the bottom to top The electromagnetic force effect generated between different parts and outer magnetic part keeps cutter and/or rotation section vertically raised along swingle.

When cutter and/or rotation section decline along swingle:

Or,

Cutter and/or rotation section can vertically decline along swingle under the effect of gravity；

Or

Under control unit control, the electromagnetism magnetic that is generated between interior magnetic part different parts from top to bottom and outer magnetic part Power effect and cutter and/or the gravity of rotation section itself, make the cutter and/or rotation section vertical along swingle jointly Decline.

The rotation relation of swingle and cutter is: swingle is able to drive cutter rotation, and preferably swingle passes through cutter The rotation of pore area cutter and/or swingle are rotated by the magneticaction band cutter between interior magnetic part and outer magnetic part；Into One step is preferably swingle and is passed through between interior magnetic part and outer magnetic part by cutter holes with cutter rotation and/or swingle Magnetic force attracts band cutter to rotate；

Above-mentioned magneticaction includes three kinds of effects: 1. magnetic force attract；2. magnetic repellence；3. magnetic force attracts, magnetic repellence is total Same-action.

Electromagnetic force effect definition is: under the control of the control unit, electromagnet generates electromagnetic field, the position of electromagnetic field Variation or Strength Changes or pole change are set, makes to generate magneticaction between outer magnetic part and interior magnetic part.

Swingle in the present invention for ease of understanding, is described as follows: " cutter shaft " in existing food processor is equivalent to this The part of functions and effect of swingle in invention.It is usually that cutter is fixed on cutter shaft in existing food processor, And comminuted food products are used for by cutter shaft driving.The effect of swingle in the present invention is: 1, cutter is set in the rotation in rotation section On bar, and swingle band cutter comminuted food products；2, cutter can be vertically movable along swingle (rising or falling)；3, it rotates Portion is set on swingle；4, rotation section is vertically movable (rising or falling) along swingle；5, rotation section is driven by swingle Rotation (realizes drying).

Vertical direction is as shown in the picture: having inclined direction etc. including vertical direction and relative to vertical direction.Laterally Direction is also as shown in the picture: having inclined direction etc. including horizontal direction and relative to horizontal direction.Longitudinal direction such as attached drawing It is shown: to indicate there is inclined direction etc. perpendicular to the direction of plane where attached drawing and relative to vertical direction.

Power unit can be located in the pedestal 18 below staving, the top positioned at staving being also shown in Fig.12, In the former structure, the lower end 37 of staving is embedded in pedestal upper end 38 (shown in Figure 13), is provided in the bottom plate 15 of staving Rotatable support structure 36 (bearing), rotatable support structure can be ball bearing, micropore oiliness bearing or can support high speed The other kinds of bearing of rotation.

Rotation shank portion, which is located in staving, to be referred to: swingle is integral, can be as shown in Fig. 2~10, swingle End position 12 below lower section is slidingly sealed through staving bottom and connects one half a coupler 14, the half a coupler with it is defeated The half a coupler 14 at shaft upper end position forms complete " shaft coupling " after being connected with each other, and the output shaft of power unit passes through connection Axis device drives swingle rotation.

Swingle can be from top to bottom the structure (as shown in Fig. 1,11,12,13) of equal outer diameters, be also possible to as Fig. 2~ Outer diameter lesser structure in underlying end position shown in 10, the biggish structure of certain underlying end position outer diameter It is also possible.

Swingle, which is entirely located in staving, to be referred to: swingle is integral, and is shown in Fig.12, and power unit setting exists Above staving or in staving, swingle is set below, which is integrally located in staving.

The structure of above-mentioned interior magnetic part and outer magnetic part is: interior magnetic part includes vertically arranged multiple permanent magnet (permanent magnetism Material is made) component that constitutes of the component that constitutes or multiple electromagnet, outer magnetic part at least part is selected from electromagnet composition It is any in the component that the component or ferromagnet (ferromagnetic material is made) that component or permanent magnet (permanent-magnet material is made) are constituted are constituted A kind of or any two or all three kinds generate electromagnetic force under control unit control between interior magnetic part and outer magnetic part and make With.

Or,

When interior magnetic part at least part is the component that electromagnet is constituted, outer magnetic part at least part is electromagnet structure At component；Or when interior magnetic part at least part is the component that electromagnet is constituted, outer magnetic part at least part is permanent magnetism The component that body is constituted；Or when interior magnetic part at least part is the component that electromagnet is constituted, outer magnetic part at least one is iron The component that magnet is constituted；Or when interior magnetic part at least part is the component that permanent magnet is constituted, outer magnetic part at least one is The component that electromagnet is constituted.

Ferromagnet described herein are as follows: the ferrimagnet that can be attracted by permanent magnet or electromagnet.Such as iron, nickel, cobalt, with And the ferritic stainless steel etc. that can be attracted by permanent magnet.

Or, swingle is closed hollow structure.

Any one of the structure of outer magnetic part in (1), (2), (3), (4), (5), (6), (7) or (8):

(1) tool parts or all ferromagnets are made and are formed as outer magnetic part, the part or all of energy of interior magnetic part and knife Tool partly or entirely generates electromagnetic force effect.

(2) cutter holes inner edge is provided with ferromagnet or permanent magnet or electromagnet and is formed as outer magnetic part, interior magnetic part part Or electromagnetic force effect can be all generated with cutter holes inner edge.

(3) cutter upper surface or bottom surface are provided with ferromagnet or permanent magnet or electromagnet and are formed as outer magnetic part, interior magnetic Portion partly or entirely can generate electromagnetic force effect with cutter upper surface or bottom surface.

(4) tool parts or all permanent magnets are made and are formed as outer magnetic part, the part or all of energy of interior magnetic part and knife Tool partly or entirely generates electromagnetic force effect.

(5) rotation section is partly or entirely that ferromagnet is made and is formed as outer magnetic part, and interior magnetic part partly or entirely can be with Rotation section partly or entirely generates electromagnetic force effect.

(6) the overlap aperture inner edge of rotation section is provided with ferromagnet or permanent magnet or electromagnet and is formed as outer magnetic part, interior magnetic Suction portion can partly or entirely generate electromagnetic force effect with rotation section inner edge.

(7) rotation section upper end, lower end, side wall or bottom plate are provided with ferromagnet or permanent magnet or electromagnet and are formed as outer magnetic Suction portion, interior magnetic part can partly or entirely generate electromagnetic force effect with rotation section upper end, lower end, side wall or bottom plate.

Rotation section be partly or entirely permanent magnet system at and be formed as outer magnetic part, the interior part or all of energy of magnetic part Electromagnetic force effect is partly or entirely generated with rotation section.

Electromagnetic force effect is generated under control unit control, between interior magnetic part and outer magnetic part, specific implementation has more Kind mode, it is described below.Swingle is preferably hollow closed structure, (1), (2), (3) or (4) the structure of interior magnetic part is selected from In any one:

(1) the interior magnetic part is the component that the multiple electromagnet being arranged from the bottom to top in swingle are constituted, preferably interior magnetic Suction portion is to stack the component or be in swingle that multiple electromagnet (Figure 14,20 shown in) of setting are constituted in swingle from the bottom to top The component that multiple electromagnet (Figure 15,21 shown in) are constituted is arranged in interval from the bottom to top, and outer magnetic part at least part is electromagnet The component of composition.

Preferably, under control unit control, the different electromagnet of interior magnetic part can be powered in any order/break Electricity makes electromagnetic field position change, and outer magnetic part can be powered and generate electromagnetic field, make interior magnetic part and outer magnetic part it Between generate electromagnetic force effect；

The electromagnet of preferably interior magnetic part can be such that electromagnetic field position becomes according to adjacent sequential is successively power on/off Change, outer magnetic part can be powered and generate electromagnetic field, make to generate electromagnetic force effect between interior magnetic part and outer magnetic part；Into one The electromagnet of step preferably outer magnetic part changes magnetic pole according to the polarity of the electromagnet of the interior magnetic part of contraposition, to realize interior magnetic Electromagnetic force effect between suction portion and outer magnetic part.Or,

(2) the interior magnetic part is the component that the multiple electromagnet being arranged from the bottom to top in swingle are constituted, preferably interior magnetic Suction portion is the component for the multiple electromagnet composition for stacking setting in swingle from the bottom to top or is to be spaced from the bottom to top in swingle The component that multiple electromagnet are constituted is set, and outer magnetic part at least part is the component that permanent magnet is constituted.

Preferably, under control unit control, the different electromagnet of interior magnetic part can be powered in any order/break Electricity makes electromagnetic field position change, and preferably multiple electromagnet can make electromagnetism according to adjacent sequential is successively power on/off Magnetic field position changes, and is acted on the electromagnetic force realized between interior magnetic part and outer magnetic part.Or,

(3) the interior magnetic part is the component that the multiple electromagnet being arranged from the bottom to top in swingle are constituted, preferably interior magnetic Suction portion is the component for the multiple electromagnet composition for stacking setting in swingle from the bottom to top or is to be spaced from the bottom to top in swingle The component that multiple electromagnet are constituted is set, and outer magnetic part at least part is the component that ferromagnet is constituted.

Preferably, under control unit control, the different electromagnet of interior magnetic part can be powered in any order/break Electricity makes electromagnetic field position change, and preferably multiple electromagnet can make electromagnetism according to adjacent sequential is successively power on/off Magnetic field position changes, and is attracted with the electromagnetic force realized between interior magnetic part and outer magnetic part.Or,

(4) the interior magnetic part is the component that the multiple permanent magnets being arranged from the bottom to top in swingle are constituted, preferably interior magnetic Suction portion is the component for stacking multiple permanent magnets of setting in swingle from the bottom to top and constituting, or to be spaced from the bottom to top in swingle The component that multiple permanent magnets are constituted is set, and outer magnetic part at least part is the component that electromagnet is constituted.

Preferably, under control unit control, the electromagnet can change magnetic pole according to the polarity of the permanent magnet of contraposition To realize the magneticaction between interior magnetic part and outer magnetic part.

No matter interior magnetic part and outer magnetic part selection it is any, wherein at least one is electromagnet, in the control of control unit Under system, the change in location or Strength Changes or pole change for the electromagnetic field that electromagnet generates make outer magnetic part and interior magnetic Electromagnetic force effect is generated between portion, electromagnetic force effect makes outer magnetic part (together with cutter, rotation section etc.) along swingle It is vertically movable.

Interior magnetic part and outer magnetic part the electromagnetic force mode of action can there are several types of implementations:

A. as shown in figure 20, interior magnetic part is vertically to stack multiple electromagnet 49 (a~i), and outer magnetic part 45 is inlaid in knife It is made (assuming that the pole permanent magnet N is downward, the pole S is upward) in the annular groove of 47 inner edge of cutter holes of tool 7 and for permanent magnet, Figure 20 acceptance of the bid The electromagnet of number b~i is successively power on/off, and specifically: cutter 7 is located at the height of electromagnet a (dotted line expression), and b is first powered (downward, the pole S is upward for the pole N) attracts outer magnetic part to rise, and c is powered and continues to attract in outer magnetic part while then b is powered off It rises ... ... until cutter rises at electromagnet i.The above process may also is that b is powered and outer magnetic part attracted to rise, and then b is disconnected Electricity and c is powered and continues to attract outer magnetic part to rise, b can flow through reversed electric current at this time, make the b electromagnet (pole N upward, the pole S Externally magnetic part generates repulsive force so that it accelerates downward).

B. as shown in figure 20, interior magnetic part is vertically to stack multiple electromagnet 49 (a~i), and outer magnetic part 45 is Figure 20 institute The electromagnet shown.When cutter is located at electromagnet a height (dotted line expression), b electromagnet is powered as (the pole N downward, the pole S court On), outer magnetic part is powered (downward, the pole S is upward for the pole N), and b electromagnet attracts outer magnetic part to rise, while a electromagnet energization (pole N Upward, the pole S is downward), a electromagnet repels outer magnetic part, makes outer magnetic part rapid increase.Then, when cutter rises to b electromagnet When place, c electromagnet is powered (downward, the pole S is upward for the pole N), and outer magnetic part is attracted to rise；When cutter rises towards C electromagnet, B electromagnetism Tie Tong reverse current (upward, the pole S is downward for the pole N) repels outer magnetic part, and power-assisted rises.Pass through the magnetic pole of a~i electromagnet Continuous variation and the magnetic pole of outer magnetic part constant increase with cutter along swingle outer magnetic part.Certainly, Figure 20 Outer magnetic part can also constantly convert magnetic pole (following the principle that magnetic force attracts and repels), attract and magnetic repellence in magnetic force Constantly rise under effect along swingle.

C. as shown in figure 19, ferromagnet (iron hoop, iron are embedded in the annular groove of the inner edge of the overlap aperture 6 of rotation section bottom Block etc.) outer magnetic part 45 is formed, the power on/off circulation of interior magnetic part structure as shown in figure 20, interior magnetic part makes outer magnetic Suction portion drives rotation section to rise along swingle.

D. the inner edge of the cutter holes of cutter 7 two electromagnet 51 and 52 is arranged in the axial direction (two electromagnet is formed Outer magnetic part), interior magnetic part it is as shown in figure 21 multiple permanent magnets 50 (a~j) are arranged with 44 interval of fixed interval (FI).When cutter position When at permanent magnet a height (dotted line expression), top electromagnet 51, which is powered, generates electromagnetic field and polarity of the magnetic field and (in swingle) Top position permanent magnet attracts on the contrary, generating magnetic force, increase outer magnetic part；Then, lower section electromagnet is powered (polarity of the magnetic field) Generation magnetic repellence identical as (in swingle) lower section permanent magnet polarity, thus outer magnetic part band cutter rises；When top electricity When magnet rises to the height and position of label C, top electromagnet changes current direction (changing polarity of the magnetic field direction) and continues and (rotation In bull stick) top permanent magnet keeps attracting, and lower section electromagnet changes current direction (change polarity of the magnetic field direction) and continues and (rotation In bar) lower section permanent magnet holding magnetic repellence.The principle that magnetic force attracts and repels is followed, outer magnetic part constantly attracts in magnetic force Rise under the collective effect of magnetic repellence along swingle 4.

When cutter includes outer magnetic part, the relationship of rotation section and cutter is in (1), (2), (3), (4), (5), (6), (7) or (8) Any one:

(1) when the upper end of rotation section has opening 32 and opening is provided with upper cover 20, upper cover detachably connects with opening Connect: as shown in Fig. 2,3,4,5,7, overlap aperture is arranged in upper cover and rotation section bottom, and swingle is passed through from two overlap apertures.

If be open it is smaller and be located at rotation section upper end keep to the side position when (structure similar to Figure 6), overlap aperture setting In rotation section bottom and rotation section upper end, swingle is passed through from two overlap apertures, and upper cover be only used for open when be put into Closing opening when handling food or closing.

Cutter can withstand upper cover when rising along swingle and drive rotation section rise (require at this time upper cover and rotation section it Between be removably attachable to together.For example, there is buckle, lock etc. interconnection technique structure between upper cover and rotation section, When withstanding cutter when upper cover rises, upper cover energy band is moved rotation section and is risen) or cutter can withstand when rising along swingle Rotation section rises；Cutter can withstand rotation section decline or rotation section under the effect of gravity along rotation when declining along swingle Bar decline or cutter and rotation section decline along swingle under the effect of gravity.

(2) when the upper end of rotation section or side wall have opening: as shown in figure 8, if opening is not provided in the structure Lid, overlap aperture are arranged in rotation section bottom, and swingle is passed through from an overlap aperture and is pierced by from opening；If it is smaller to be open And be located at rotation section upper end and keep to the side or when the position of side wall, overlap aperture can also be arranged in the bottom and rotation section of rotation section Upper end (upper cover 20 of dismantling in the structure of similar Fig. 9), swingle is passed through from two overlap apertures.If opening in the structure Be arranged upper cover the structure of Fig. 2 (similar), an overlap aperture setting in rotation section bottom, another overlap aperture can on upper lid, Swingle is passed through from two overlap apertures；If being open smaller and being located at rotation section upper end and keep to the side or (the class when position of side wall Like the structure of Fig. 9), the bottom of rotation section and the upper end of rotation section is arranged in overlap aperture, and swingle is worn from two overlap apertures It crosses.

Cutter is provided with the clamping portion that can block rotation section bottom plate；Clamping portion can hold rotation section when rising along swingle Rise；Cutter can withstand rotation section decline or clamping portion when declining along swingle can withstand rotation when declining along swingle Subordinate's drop or rotation section are under the effect of gravity along swingle decline or cutter and rotation section under the effect of gravity along rotation Bar decline.

(3) when the upper end of rotation section or side wall have opening: as shown in figure 8, if opening is not provided in the structure Lid, overlap aperture are arranged in rotation section bottom, and swingle is passed through from an overlap aperture and is pierced by from opening；If it is smaller to be open And be located at rotation section upper end and keep to the side or when the position of side wall, overlap aperture can also be arranged in the bottom and rotation section of rotation section Upper end (upper cover 20 of dismantling in the structure of similar Fig. 9), swingle is passed through from two overlap apertures.If opening in the structure Be arranged upper cover the structure of Fig. 2 (similar), an overlap aperture setting in rotation section bottom, another overlap aperture can on upper lid, Swingle is passed through from two overlap apertures；If being open smaller and being located at rotation section upper end and keep to the side or (the class when position of side wall Like the structure of Fig. 9), the bottom of rotation section and the upper end of rotation section is arranged in overlap aperture, and swingle is worn from two overlap apertures It crosses.

Cutter is provided with the clamping portion that can block rotation section inner sidewall；Clamping portion can hold rotation when rising along swingle Portion rises；Cutter can withstand rotation section decline or clamping portion and can withstand when declining along swingle and turn when declining along swingle Dynamic subordinate's drop or rotation section are under the effect of gravity along swingle decline or cutter and rotation section under the effect of gravity along rotation Bull stick decline.

Above-mentioned the (2), (3) in the structure in clamping portion be: what clamping portion can be as shown in Figure 8 include be located in rotation section with The upper end for 33 outer rim of sleeve being arranged below cutter is arranged in two clamping portions 34 below rotation section, two clamping portions And lower end, cutter bottom or side wall directly can also be set up directly on by the structure of bending.Two clamping portions can be in cutter Rotation section is held when rising or falling respectively and rises or withstand rotation section decline.Clamping portion can also include as shown in Figures 9 and 10 The lower end for 33 outer rim of sleeve being arranged below cutter is arranged in a clamping portion below rotation section, a clamping portion, Cutter bottom or side wall directly can also be set up directly on by the structure of bending.One clamping portion can be dragged when cutter rises Firmly rotation section rises, and the decline of rotation section is withstood rotation section by cutter and declined.

(4) when the upper end of rotation section or side wall have opening: if opening is not provided with upper cover, overlap aperture in the structure It is arranged in rotation section bottom, swingle is passed through from an overlap aperture and is pierced by from opening；If be open it is smaller and be located at turn Dynamic portion upper end keeps to the side or when the position of side wall, and overlap aperture can also be arranged in the bottom of rotation section and the upper end (class of rotation section Dismantle in structure like Fig. 9 upper cover 20), swingle is passed through from two overlap apertures.In the structure if in opening setting Lid (structure of similar Fig. 2), an overlap aperture is arranged in rotation section bottom, another overlap aperture can be on upper lid, swingle It is passed through from two overlap apertures；If be open it is smaller and be located at rotation section upper end keep to the side or when the position of side wall (similar Fig. 9's Structure), the bottom of rotation section and the upper end of rotation section is arranged in overlap aperture, and swingle is passed through from two overlap apertures.

Cutter is provided with gland or press strip, and (energy is arranged in the bottom surface of gland or press strip position opposite with the opening rotation section of side It enough contacts with each other and forms the movement pushed down)；Cutter is provided with the clamping portion that can block rotation section bottom plate or inner sidewall；Clamping portion Rotation section rising can be held when rising along swingle；Gland or press strip can be withstood when declining along swingle rotation section decline, Or clamping portion can withstand when declining along swingle rotation section decline or rotation section under the effect of gravity along swingle decline, Or cutter and rotation section decline along swingle under the effect of gravity.

In gland or press strip by taking press strip as an example: cutter has the sleeve 33 upwardly extended, stretches out the upper of rotation section in sleeve The press strip extended to rotation section upper surface is provided at end, when cutter decline, press strip can be pressed in rotation section upper surface and make (sleeve extend out to overthe openings or sleeve and stretches out from the overlap aperture set by the rotation section upper end of side that is open at this time for rotation section decline To above rotation section) or press strip can be pressed in upper cover upper surface and make rotation section decline (sleeve turns from opening side at this time Overlap aperture set by dynamic portion upper end is extend out to above rotation section or sleeve overlap aperture set by the upper cover is extend out to above upper cover).

(5) when the upper end of rotation section or side wall have opening: as shown in Figure 10, rotation section opening has inside folding Crimp or bending rib 35.

If opening is not provided with upper cover in the structure, overlap aperture setting is covered in rotation section bottom, swingle from this It passes through and is open in apertured and be pierced by；It, can also will if being open smaller and being located at rotation section upper end and keep to the side or when the position of side wall Overlap aperture is arranged in the bottom of rotation section and bending edges or overlap aperture is arranged on the bottom and bending rib of rotation section, swingle It is passed through from two overlap apertures.If upper cover is arranged in opening in the structure, an overlap aperture is arranged in rotation section bottom, separately One overlap aperture can be on upper lid, and swingle is passed through from two overlap apertures；If being open smaller and being located on rotation section End is kept to the side or (structure of similar Figure 10) when the position of side wall, and overlap aperture is arranged in the bottom of rotation section and bending edges or will be arranged Hole is arranged on the bottom and bending rib of rotation section, and swingle is passed through from two overlap apertures.

Cutter can withstand bending edges or bending rib and rotation section is driven to rise when rising along swingle；Cutter is along rotation Bar can withstand rotation section decline or rotation section and exist under the effect of gravity along swingle decline or cutter and rotation section when declining Decline under gravity along swingle；Or

(6) when the upper end of rotation section or side wall have opening: as shown in figure 11, rotation section inner edge have inside protrusive board, Convex block or bulge loop 42.

Cutter can push up when rising along swingle by the upper surface of its own or by sleeve upper surface set thereon Firmly protrusive board, convex block or bulge loop and rotation section is driven to rise；Cutter can withstand rotation section decline or rotation when declining along swingle Portion declines along swingle along swingle decline or cutter and rotation section under the effect of gravity under the effect of gravity.

(7) when the upper end of rotation section or side wall are with opening: rotation section inner edge has inside protrusive board, convex block or bulge loop, Cutter is provided with the clamping portion that can block rotation section bottom plate or inner sidewall.

Cutter can push up when rising along swingle by the upper surface of its own or by sleeve upper surface set thereon Firmly protrusive board, convex block or bulge loop and rotation section is driven to rise；Clamping portion can withstand rotation section decline or turn when declining along swingle Dynamic portion declines along swingle along swingle decline or cutter and rotation section under the effect of gravity under the effect of gravity.

Clamping portion at this is that clamping portion shown in Fig. 8 only retains a clamping portion (top label being located in rotation section 34), without being located at another clamping portion (lower section label 34) below rotation section.

(8) when the upper end of rotation section or side wall are with opening: rotation section has the beam-shaped structure of enclosure portion opening.

Cutter can withstand beam-shaped structure and rotation section is driven to rise when rising along swingle；Cutter declines along swingle When can withstand rotation section decline or rotation section and make under the effect of gravity along swingle decline or cutter and rotation section in gravity Decline under along swingle.

Beam-shaped structure can be the beam of the shapes such as the "-" type positioned at opening, cross, triangle, which turns Dynamic portion upper end is to be open.

Above-mentioned rotation section refers to along swingle decline under the effect of gravity: when cutter decrease speed is slower, rotation section Decline under the effect of gravity, rather than cutter withstands rotation section decline.Above-mentioned cutter and rotation section are under the effect of gravity along rotation Bull stick decline refers to: when interior magnetic part comes band cutter and/or rotation section decline not over magnetic force attraction, cutter and rotation Portion can decline under the effect of gravity.

When rotation section includes outer magnetic part, the relationship of rotation section and cutter is in (1), (2), (3), (4), (5), (6), (7) or (8) Any one:

(1) when the upper end of rotation section has opening and opening is provided with upper cover, upper cover is detachably connected with opening.On Overlap aperture is arranged in lid and rotation section bottom, and swingle is passed through from two overlap apertures.If being open smaller and being located at rotation section When the position that upper end is kept to the side (structure similar to Figure 6), overlap aperture setting in rotation section bottom and rotation section upper end, swingle from It is passed through in two overlap apertures, and upper cover is only used for being put into food to be processed when opening or closes opening when closing.

Energy band cutter rises when rotation section rises along swingle；Rotation section can withstand cutter when declining along swingle Decline or cutter are under the effect of gravity along swingle decline or rotation section and cutter under the effect of gravity along under swingle Drop.

Energy band cutter rises when rotation section rises along swingle；Cutter under the effect of gravity along swingle decline, Or rotation section and cutter decline along swingle under the effect of gravity.

Cutter is provided with the clamping portion that can block rotation section bottom plate or inner sidewall；Rotation section rises Shi Nengtong along swingle Cross energy band cutter rising when clamping portion rises with cutter rising or rotation section along swingle；Rotation section is along swingle Cutter decline or cutter can be withstood when decline by clamping portion under the effect of gravity along swingle decline or rotation section and knife Tool declines along swingle under the effect of gravity.

The structure in above-mentioned clamping portion is: what clamping portion can be as shown in Figure 8 includes being located in rotation section and being located at rotation section The top and bottom for 33 outer rim of sleeve being arranged below cutter are arranged in two clamping portions 34 of lower section, two clamping portions, Cutter bottom or side wall directly can be set up directly on by the structure of bending.Two clamping portions can rise or fall in cutter When hold respectively rotation section rise or withstand rotation section decline.Clamping portion can also include being located at rotation section as shown in Figures 9 and 10 The lower end for 33 outer rim of sleeve being arranged below cutter is arranged in one clamping portion of lower section, a clamping portion, can also be direct Cutter bottom or side wall are set up directly on by the structure of bending.One clamping portion can be held on rotation section when cutter rises It rises, and the decline of rotation section is withstood rotation section by cutter and is declined.

Cutter is provided with gland or press strip, and the bottom surface of gland or press strip position opposite with the opening rotation section of side is arranged；Knife Tool is provided with the clamping portion that can block rotation section bottom plate or inner sidewall；It rotation section can be by gland or pressure when rising along swingle Energy band cutter rises when band cutter rises or rotation section rises along swingle or rotation section rises along swingle When can pass through clamping portion band cutter rise；Rotation section can be withstood by clamping portion when declining along swingle cutter decline or Cutter declines along swingle along swingle decline or rotation section and cutter under the effect of gravity under the effect of gravity.

(5) when the upper end of rotation section or side wall are with opening: rotation section opening has inside bending edges or bending Rib.

Energy band cutter rises when rotation section rises along swingle；Rotation section can pass through bending when declining along swingle Side or bending rib withstand cutter decline or cutter declines under the effect of gravity along swingle or rotation section and cutter are in gravity Decline under effect along swingle.

(6) when the upper end of rotation section or side wall are with opening: rotation section inner edge has inside protrusive board, convex block or bulge loop.

Energy band cutter rises when rotation section rises along swingle；It rotation section can be by convex when declining along swingle Plate, convex block or bulge loop withstand cutter decline or cutter declines under the effect of gravity along swingle or rotation section and cutter are in weight Decline under power effect along swingle.

Card can be passed through when the rising of energy band cutter or rotation section rise along swingle when rotation section rises along swingle Dress portion band cutter rises；The decline of energy band cutter or rotation section decline along swingle when clamping portion declines along swingle When can be withstood by protrusive board, convex block or bulge loop cutter decline or cutter declines under the effect of gravity along swingle or rotation section Decline under the effect of gravity along swingle with cutter.

(8) when the upper end of rotation section or side wall have opening:

Rotation section has the beam-shaped structure of enclosure portion opening；

Energy band cutter rises when rotation section rises along swingle；

Beam-shaped structure can withstand cutter decline or cutter under the effect of gravity along under swingle when declining along swingle Drop or rotation section and cutter decline along swingle under the effect of gravity.

Above-mentioned cutter refers to along swingle decline under the effect of gravity: when rotation section decrease speed is slower, cutter exists Decline under gravity, rather than rotation section decline is withstood in rotation section.Above-mentioned cutter and rotation section are under the effect of gravity along rotation Bull stick decline refers to: when interior magnetic part comes band cutter and/or rotation section decline not over magnetic force attraction, cutter and rotation Portion can decline under the effect of gravity.

The rotation of cutter is driven by swingle, is specifically realized by the outer shape of swingle, which is selected from (1), (2), (3), (4), (5) or (6) in any one:

(1) some or all of swingle outer rim is provided with key block 40 as shown in Figure 14~15,17, on cutter or cutter Hole contraposition is provided with the keyway 46 matched with key block, and swingle can be rotated by key block band cutter.

Key block can be provided only in the outer rim of swingle lower section, and the outer rim at swingle lower section and middle part can also be arranged in On, it can also be arranged in the middle part of swingle and the outer of swingle upper section, middle part and lower section in the outer rim of upper section, can also be set On edge.Former three, which represents swingle vertical direction top and sets up separately, sets key block, the last one is all sets in swingle vertical direction Set key block.

(2) some or all of swingle outer rim is provided with keyway, and on cutter or cutter holes contraposition is provided with and keyway matches The key block of conjunction, swingle can be rotated by the keyway band cutter.

Keyway can be provided only in the outer rim of swingle lower section, and the outer rim at swingle lower section and middle part can also be arranged in On, it can also be arranged in the middle part of swingle and the outer of swingle upper section, middle part and lower section in the outer rim of upper section, can also be set On edge.Former three, which represents swingle vertical direction top and sets up separately, sets keyway, the last one is all sets in swingle vertical direction Set keyway.

(3) the shape of the transversal cross-section of rotary rod portions or whole is non-circular shape as shown in figure 16, and cutter passes through cutter Hole is set on swingle, and swingle can be rotated by the non-circular shape band cutter.Cutter holes can be and swingle cross Shape that is identical to section but being slightly larger than transversal cross-section, for example in Figure 16, match both for ellipse, but therebetween for gap It closes, i.e., there is certain gap, so that cutter can be moved along swingle between swingle outer rim and cutter holes inner edge.Certainly Swingle transversal cross-section is polygon, and cutter holes are that identical but bigger polygon is also possible or swingle is lateral Section is ellipse, and cutter holes are that bigger polygon is also possible.Generally speaking, if swingle transversal cross-section it is outer Portion's shape can be collided or be contacted with the inner edge of cutter holes in rotation and rotate with cutter.

(4) the shape of the transversal cross-section of rotary rod portions or whole is circle, and cutter is set in swingle by cutter holes On, swingle can be rotated by the circular strip cutter.In the structure, cutter holes are also possible to round or polygon, rotation By the CONTACT WITH FRICTION with cutter holes, collision, also energy band cutter rotates bar.Such as if removing key block and keyway in Figure 17, Transversal cross-section is circle, and the cutter holes 47 of cutter are also circle, since swingle revolving speed is very high, is connect in the friction with cutter holes Also energy band cutter rotates when touching, collision, only revolving speed of the revolving speed of cutter possibly lower than swingle.

(5) the shape of the transversal cross-section of rotary rod portions or whole is round or non-circular shape, and cutter passes through cutter holes set It is located on swingle, swingle attracts band cutter to rotate by the magnetic force of interior magnetic part and outer magnetic part.In the structure, rotation The outer shape of bar transversal cross-section and the shape of cutter holes are not necessarily mutually cooperation, but are turned by magnetic force attraction come band cutter It is dynamic.

(6) some or all of swingle outer rim is provided with rotary position limiting structure, and on cutter or cutter holes contraposition is provided with phase The rotary position limiting structure of shape is adapted to, swingle can be rotated by the rotary position limiting structure band cutter.Such as: on swingle It is provided with the swinging plate extended to radial direction, what is aligned on cutter is provided with baffle, when swinging plate is rotated with swingle Cutter rotation can be pushed by baffle.

No matter swingle outer shape, which is chosen, is stated (1)~(6) any, and rotation section and cutter are wanted can be along on swingle It rises or declines.

The rotation of cutter can occur in any position of swingle, for example key block is arranged on swingle, cutter holes setting Keyway, cutter is rotated going up and down (vertically movable) Shi Junneng along swingle under the drive of swingle at this time, and such cutter can To be crushed during going up and down (vertically movable) along swingle to the food to be processed in rotation section.Such as swingle Lower section is arranged key block, and cutter is in the middle part of swingle and when upper section may be at state is freely rotated that (velocity of rotation of cutter is not permanent It is fixed, it is possible to identical as swingle, it is also possible to it is lower than swingle, the velocity of rotation of even cutter be zero), i.e., swingle by It can be rotated by the forms such as CONTACT WITH FRICTION, collision band cutter in high revolving speed, but the revolving speed of cutter is lower than the revolving speed of swingle, When cutter is moved to the swingle lower section of setting key block, key block is by keyway band cutter with higher rotational speed.

Above-mentioned transversal cross-section is that be also possible to swingle lower section be the shape to non-circular, circular structure, and cutter is moved to It is rotated when rotating lower section with swingle, it is lower in swingle other positions revolving speed.

In conclusion preferred structure is for the velocity of rotation of cutter: cutter is at the position of swingle lower section Keep identical velocity of rotation with swingle (i.e. cutter is in maximum crushing revolving speed, and crushing effect is best).

Other than the rotation of cutter, rotation section is also by swingle with rotation, the i.e. overlap aperture and swingle of rotation section The cooperation of shape can also with above-mentioned cutter (1)~structure (6) is identical, i.e., cutter replaces with rotation section, and cutter holes replace with set Apertured, which can be an overlap aperture of rotation section bottom, be also possible to that above-mentioned " outer magnetic part is on cutter or rotates When in portion in the relationship of rotation section and cutter (1)~(8) " in occur two overlap apertures.Certainly, the overlap aperture and rotation of rotation section It is also possible for clearance fit between bull stick, but in order to realize the smashed material residue of food to be processed and the liquid in rotation section Body more preferably separates, and keeps identical velocity of rotation with swingle when needing rotation section in the middle part of swingle and/or the position of upper section, Other positions can be lower with revolving speed or keep identical velocity of rotation.

Keep identical velocity of rotation means that rotation section can stop first in some position of swingle, then with Swingle keeps identical velocity of rotation, then by the juice in material residue and liquid from throwing away the staving to outside rotation section in through-hole It is interior.In order to realize position stop, need to keep height and position in the vertical direction of rotation section on swingle, structure be selected from (1), (2), (3), (4), (5), (6) or (7) in any one:

(1) rotation section keeps height and position by embedding structure on swingle.

For embedding structure as shown in Fig. 2, label 3 is the component of a wedge-type shape, the component of wedge-type shape can be such as Figure 14 institute The engagement shown is connected to the highlight 43 of swingle upper surface, perhaps engagement be connected in the groove of swingle upper surface or It is engaged on the opening of swingle upper surface.The transversal cross-section of the component of wedge-type shape can be the shapes such as round, rectangular, therewith Adaptable is (produce including directly produce in rotation section upper end, the opening upper cover, crossbeam of overlap aperture set by rotation section Place produces, bending edges are produced, the positions such as rotation section bottom is produced) it is identical but slightly smaller as the component of wedge-type shape, I.e. component certain outer rim of overlap aperture and wedge-type shape is interference fit.The component of wedge-type shape is made of materials such as rubber, When rotation section under the drive of cutter or under the drive of interior magnetic part at the vertically movable component to wedge-type shape when, in overlap aperture It is embedded in the component of wedge-type shape, rotation section is inlaid at this and keeps identical velocity of rotation or rotation section certainly with swingle By rotary state (velocity of rotation of rotation section is non-constant, it is possible to identical as swingle, it is also possible to lower than swingle).

Embedding structure can also be that swingle has the upper section of the shapes such as rectangular, cylindrical, can set in its outer rim Set slot or protrusion, and it is adaptable therewith be that overlap aperture is correspondingly arranged on protrusion or slot, such as: slot is set on swingle, is arranged Hole inner edge setting protrusion, when rotation section is moved at upper section, in raised embedded groove, make rotation section be inlaid at this and with rotation Bar keeps identical velocity of rotation.If swingle is higher, slot or protrusion also be can be set in the middle part of swingle.

It, can be with other than above-mentioned overlap aperture can be realized by the component of wedge-type shape, slot or protrusion and be embedded in cooperation The structure that setting cooperates with the component of wedge-type shape in rotation section upper end, or the setting protrusion adaptable with slot or protrusion or Slot, no matter wherein setting embedding structure can make rotation section keep height and position and identical as swingle holding on swingle Velocity of rotation or rotation section be state is freely rotated.

Embedding structure is in application, rotation section can keep identical turn during rising along swingle with swingle Dynamic speed or rotation section are that state is freely rotated.When embedded, it is preferable that: rotation section and swingle keep identical rotation Speed, but in actual use, the component and slot of wedge-type shape or the structure of protrusion are possible to the case where temporarily slipping occur, At this point, the velocity of rotation of rotation section is possible to more slightly lower than swingle.

(2) rotation section keeps height and position by clamping structure on swingle.

Clamping structure refers to: swingle upper section is provided with snap finger or catching groove, and at the overlap aperture of rotation section or rotation section Upper end be provided with adaptable catching groove or snap finger, snap finger can be caught in catching groove to make rotation section keep at swingle upper section Height and position.

Clamping structure may also is that swingle upper section is provided with snap-gauge or card slot, and at the overlap aperture of rotation section or rotation The upper end in portion is provided with adaptable card slot or snap-gauge, and snap-gauge can be caught in card slot to make rotation section protect at swingle upper section Hold height and position.

Clamping structure is in application, rotation section can keep identical turn during rising along swingle with swingle Dynamic speed or rotation section are that state is freely rotated.After clamping, rotation section and swingle keep identical velocity of rotation.

(3) the rotation section keeps height and position by engaging structure on swingle.

Engaging structure refers to: swingle upper section is provided with external screw thread, and at the overlap aperture of rotation section or rotation section is upper End is provided with adaptable internal screw thread, external screw thread and internal screw thread intermeshing to make rotation section keep high at swingle upper section Spend position.

Engaging structure is in application, rotation section can keep identical turn during rising along swingle with swingle Dynamic speed or rotation section are that state is freely rotated.After engagement, rotation section and swingle keep identical velocity of rotation.

(4) the magnetic force of the outer magnetic part on cutter and interior magnetic part attraction makes cutter keep height and position, knife on swingle Tool makes rotation section keep height and position on swingle again.

The structure is that cutter includes outer magnetic part, and rotation section keeps phase with swingle during rising along swingle Same velocity of rotation or rotation section is that state is freely rotated.After keeping height and position, rotation section and swingle keep identical Velocity of rotation or rotation section are that state is freely rotated.

(5) rotation section keeps rotation section on swingle by the magnetic force attraction of outer magnetic part and interior magnetic part thereon Height and position.

The structure is that rotation section includes outer magnetic part, and rotation section is kept during rising along swingle with swingle Identical velocity of rotation or rotation section are that state is freely rotated.After keeping height and position, rotation section and swingle keep identical Velocity of rotation or rotation section be state is freely rotated.

(6) ratchet structure or barb structure are provided between rotation section and swingle, preferably vertical ratchet structure or vertical Barb structure, the ratchet structure or barb structure make rotation section keep height and position on swingle.

Overlap aperture or rotation section upper end in rotation section can be set in any one in the ratchet and pawl of ratchet structure, Another can be set in swingle upper section, and the mutual cooperation of ratchet and pawl makes rotation section keep height at swingle upper section Position.

The upper section in swingle can be set in hangnail in barb structure, after overlap aperture passes through hangnail vertically upward, Thorn makes rotation section keep height and position on swingle.

(7) the height that swingle middle part or upper section are provided with that permanent magnet, electromagnet or ferromagnet are formed keeps magnetic part, turns There are permanent magnet, electromagnet or ferromagnet in dynamic portion, when rotation section, which is close to or up to the height on swingle, keeps magnetic part, The mutual magnetic force attraction of the two makes rotation section keep height and position.Alternatively, when the permanent magnet on rotation section, electromagnet position are high When the height on swingle keeps magnetic part, the mutual magnetic repellence of the two makes rotation section keep height and position.

As shown in Figure 20,21, being located at uppermost i electromagnet (Figure 20) or j permanent magnet (Figure 21) can be used as height and protects Hold magnetic part, and rotation section is as shown in figure 19, the overlap aperture inner edge of rotation section upper end is arranged in outer magnetic part 45.Work as rotation section Rise and when close to i electromagnet or j permanent magnet, rotation section is attracted at this and keeps height and position.

Cutter mentioned above by food to be processed crush after, such as: watermelon, pears, apple moisture content food can generate food Feed liquid, while the state mixed in rotation section for material residue and liquid.For another example: when crushing soya bean, coffee bean etc. be not aqueous or contains When the few food production soya-bean milk of water or coffee liquid, water is added first in staving, is put into (these such as soya bean or coffee bean in rotation section When Shi Ruguo rotary part is more than the intracorporal water level of bucket), soya bean can be crushed as particle or powder shape, but turn After dynamic portion drops in staving in water along swingle (or rotation section is natively located in staving in water), soya bean particle or powder It can absorb water, (passing through " through-hole ") makes the state for becoming soybean residue in rotation section and soya-bean milk mixes.Which kind of either above-mentioned situation, It needs further to leach the liquid in material residue.Preferable scheme is that: when needing to dry, rotation section is promoted into staving 53 top of liquid level, then rotates rotation section, forms the movement of drying, makes the liquid in material residue when rotation section is rotated from through-hole It inside throws away, then liquid is flowed to bottom in staving.

Above-mentioned holding height and position realizes rotation section and is promoted to ullage, and the movement dried is by with flowering structure reality Existing, specifically: swingle drives any one of the structure of rotation section rotation in (1), (2), (3), (4), (5) or (6):

(1) as shown in Fig. 8,9,10,11,12,18, at least one in the upper end of rotation section, lower end or side wall at in swingle Tenon groove structure is provided between portion or upper section；The tenon groove structure is specifically: including the plate-shaped or strip-shaped of swingle upper section setting Component, the component towards being provided with tongue-and-groove or tenon on the surface of rotation section, and align therewith rotation section upper surface (Fig. 8), Rotation section upper end (Fig. 9), upper lid surface (Figure 12), bending edges surface (Figure 10), beam surface etc. contraposition be provided with tenon or Tongue-and-groove.(tool driving rotation section rises or rotation section itself is risen by the attraction of interior magnetic part), tenon after rotation section rises in place Head and tongue-and-groove mutually insert cooperation, connect rotation section at this with swingle, and the two keeps identical velocity of rotation, thus real The drying action of rotation section is showed.

At least one in the upper end of the rotation section, lower end or side wall at swingle in the middle part of or upper section between be provided with it is embedding At least one of assembling structure, clamping structure or engaging structure.

Embedding structure, clamping structure and engaging structure are referred in the associated description for keeping height and position, three can Rotation section is set to keep height and position, moreover it is possible to so that rotation section and swingle is kept identical velocity of rotation or slightly lower velocity of rotation, Not repeated description herein.

(3) swingle middle part or upper section are provided with the rotary spacing knot that shape is adapted with rotation section upper end, lower end or side wall Structure.

Rotary position limiting structure refers to: can be set on swingle one for limit cover, such as: on swingle It is rectangular cover that an inside, which is arranged, in section, and rotation section upper end can be made rectangular or be arranged in rotation section upper end rectangular Structure, when rotation section rises at this, rotation section upper end or rectangular structure are embedded in rectangular cover, it is thus achieved that turning The connection in dynamic portion and swingle makes rotation section and swingle keep identical velocity of rotation.

In addition, rotary position limiting structure is also possible to the internal frame for a certain shape, which turns It is dynamic, and realize that rotation section and swingle keep identical velocity of rotation.

Further more, rotary position limiting structure can also be can rotation-limited portion, but the different situation of velocity of rotation, such as: It is hexagon inside rotary position limiting structure, rotation section upper end is the structure that quadrangle or rotation section upper end are provided with quadrangle, six Side shape can limit quadrangle, but rotation section velocity of rotation is possible to more slightly lower than swingle.

(4) the shape of the overlap aperture of rotation section matches with the shape at swingle at least one, and swingle drives rotation section to turn It is dynamic.

In the structure, overlap aperture be such as it is rectangular, in the middle part of swingle and/or the transversal cross-section of upper section be also it is rectangular, when turning When dynamic portion rises to rectangular position, rotation section keeps height and position, and overlap aperture and swingle transversal cross-section cooperate, rotation Portion and swingle keep identical velocity of rotation.

For another example: overlap aperture be it is rectangular, in the middle part of swingle and/or the transversal cross-section of upper section is circle, when rotation section rises When to round position, rotation section keeps height and position, and CONTACT WITH FRICTION of the overlap aperture inner edge by swingle outer rim, collision, turns The velocity of rotation in dynamic portion is lower than the velocity of rotation of swingle.

(5) swingle is attracted by the magnetic force of interior magnetic part and outer magnetic part drives rotation section rotation.

In the structure, interior magnetic part and outer magnetic part are both preferably permanent magnet, and magnetic force between the two in this way attracts maximum, But since the velocity of rotation of swingle is very fast, so magnetic force, which attracts, is possible to occur " missing the target (temporary or interrupted) ", i.e., temporarily The magnetic force of when property, which attracts, to be reduced, and the velocity of rotation moment that thus will lead to rotation section reduces, so, rotation section and swingle can be with It keeps identical velocity of rotation or rotation section is that state is freely rotated.

In the structure, rotation section and cutter are connected with each other, and the two rises or falls jointly, the two common rotation.

Preferred embodiment of the cutter mentioned above in swingle lower section is that identical velocity of rotation is kept with swingle, i.e., with Maximum rotational speed crushes the food to be processed inside rotation section, and there are many feelings for the motion state of rotation section at this time Condition specifically includes: 1. rotation sections and swingle keep identical velocity of rotation；2. rotation section is lower than the velocity of rotation of swingle； 3. rotation section is remain stationary.Wherein preferably the 2nd, three state, more preferably three state, at this point, cutter is maximum rotation Speed, and rotation section is remain stationary, the crushing effect to food to be processed and crush efficiency are best at this time, and realization the 1st, 2,3 kinds of motion states are by being realized with flowering structure:

When rotation section is moved to lower end in staving by the limit of rotary position limiting structure (Fig. 2,3,4,6,7,8,9,10,11, 12) or in the state that is freely rotated (Fig. 5,13), any one of rotary position limiting structure in (1), (2), (3), (4) or (5):

(1) be provided between the bottom of rotation section at least one in staving bottom or staving bottom side of the wall plug-in mounting structure or Clamping structure.

Plug-in mounting structure is as shown in Figure 10, and boss 13 can be set in staving bottom or staving bottom side of the wall, on boss or Tongue-and-groove or tenon directly are set in staving bottom, and rotation section bottom is provided with the tenon or tongue-and-groove of opposite position, when under rotation section When dropping at this, tenon and tongue-and-groove mutually insert cooperation, thus limit rotation section, remain stationary it or only can be in small model Enclose interior shaking.After rotation section rises, tenon and tongue-and-groove are disengaged, and the limit of rotation section releases.

Shown in clamping structure Fig. 2,3,4,6,7,8,9,11,12, above-mentioned boss or staving bottom is directly provided with protrusion Bar or protruding plate 24, and rotation section bottom is provided with another abutting stem or protruding plate 23, it is convex when rotation section drops at this Rod or protruding plate mutually stop, and thus limit rotation section, it is made to remain stationary or can only shake in a small range.When turn After dynamic portion rises, abutting stem or protruding plate are mutually disengaged, and the limit of rotation section releases.

A small range, which is shaken, to be referred to: since the intracorporal juice of bucket is in the state that acutely disturbs, so rotation section may be by It influences and generates shaking.

(2) be provided between the side wall of rotation section at least one in staving bottom or staving bottom side of the wall plug-in mounting structure or Clamping structure.

In the structure, unlike (1) item, the side wall of rotation section be provided with tongue-and-groove in plug-in mounting structure or tenon with And abutting stem or protruding plate in clamping structure, other with (1) item it is identical.

(3) engaging structure is provided between the bottom of rotation section at least one in staving bottom or staving bottom side of the wall.

The structure has externally threaded casing 27 as shown in figure 4, being provided with upper end in staving bottom or staving bottom side of the wall, Rotation section bottom is provided with the overlap aperture with internal thread structure or rotation section bottom and is provided with internal screw thread, when under rotation section When dropping at this, external screw thread and internal screw thread engagement connection limit rotation section.When cutter is rotated to opposite direction, pass through bucket Intracorporal foodstuff liquid rotation gives the counter-rotational promotion in rotation section, and swingle connects also by friction when rotating backward Touching, collision give the counter-rotational promotion in rotation section, disengage the internal screw thread of rotation section and external screw thread, when whole disengagements Afterwards, rotation section is begun to ramp up.

It can also be that following manner is realized engagement and disengaged, rotation section keeps phase with swingle with during swingle decline With velocity of rotation or rotation section be to be freely rotated state, rotation section with declining while swingle rotates along swingle, Then internal screw thread and external screw thread engagement connection, when needing rotation section to rise, swingle rotates round about, rotation section with Swingle rotates and disengages internal screw thread and external screw thread, and after all disengaging, rotation section rises along swingle.

Certainly, position can be interchanged in internal screw thread mentioned above and external screw thread, such as: staving bottom is provided with interior spiral shell The casing of line, and rotation section bottom is provided with externally threaded structure, the two can also engage connection.

(4) engaging structure is provided between the side wall of rotation section at least one in staving bottom or staving bottom side of the wall.

In the structure, unlike (3) item: as shown in figure 3, the side wall of rotation section is provided with external screw thread 26, the outer spiral shell Internal screw thread intermeshing set by the structure 25 of the structure or interruption fin of line and the annular of staving contraposition setting connects, and thus will Rotation section limit.Certain internal screw thread can be arranged directly on staving bottom side of the wall surface.

Other with (3) item it is identical.

For the structure as shown in fig. 6, staving lower end inner wall is square configuration, rotation section lower end shape is also square configuration, when When rotation section declines, two square configurations are mutually limited, and remain stationary rotation section, and the square configuration of certain staving lower end is bigger Also possible, rotation section will not rotate on a large scale, can only be in small-scale shaking.Certain staving lower end inner wall is six sides Shape, rotation section lower end shape are quadrangle, as long as hexagon can stop to limit quadrangle.

Embodiment 1

The present embodiment is provided with swingle 4, the rotary rod portions position as shown in Fig. 2, staving 5 is provided with end cap 2 in staving In in staving, the end position 12 being slidingly sealed below staving bottom, swingle lower section below swingle lower section is equipped with Half a coupler 14 and output shaft upper end position set by half a coupler 14 be connected with each other, power unit 17 pass through described two The shaft coupling driving swingle rotation that a half a coupler 14 is constituted.There is control unit (being not shown in Fig. 2) in pedestal 18.

Rotation section 21 is cylindrical shape, is provided with upper cover 20 at upper end opening, upper cover, which can be, to be connected through a screw thread It is arranged on rotation section, is also possible to fasten setting on rotation section by buckle.Rotation section bottom and upper cover are respectively set one A overlap aperture 6, two overlap apertures are set on swingle.Rotation section and/or upper lid surface are provided with inside connection rotation section With the through-hole 9 of staving cavity 19, food 10 to be processed is placed in rotation section internal cavity 8.Overlap aperture inner edge be it is round and with rotation Retain certain gap between bull stick outer rim.

The cutter holes of cutter are set on the swingle in rotation section, and cutter outer rim is provided with blade 11, due on cutter It rises or is in contact when declining with rotation section, wear-resisting component 22 is provided in cutter upper surface and bottom surface, such as: food-grade rubber Or food-grade stainless steel etc., the purpose is to reduce the contact area of cutter Yu rotation section interior surface.

In the component of swingle upper end setting wedge-type shape, realize that rotation section keeps height and position and realize to get rid of by it Dry function.The component of wedge-type shape is made using food-grade rubber material etc., is less than wedge-shaped shape positioned at the overlap aperture internal diameter of upper cover The outer diameter of a certain height and position of the component of shape, when rotation section rises at this, overlap aperture at this, realize rotation section with The identical velocity of rotation of the holding of swingle.The component of the wedge-type shape can be removably, such as: its lower end has outer spiral shell Line, and swingle upper surface is provided with band internal thread and is recessed, connection is engaged with recess in the lower end of the component of wedge-type shape.

In staving bottom, there are two protruding plates 24 for setting, and rotation section bottom is provided with other two protruding plate 23, works as rotation When subordinate is dropped at this, protruding plate as shown in the figure mutually stops, and realizes the rotary spacing to rotation section.

Protruding plate 24 also supports rotation section simultaneously in a vertical direction, prevents it from continuing to decline, plays to rotation section Vertical spacing effect.In this way rotation section on or close to staving when bottom position in vertical direction and rotation direction It is limited, realizing the rotation section in preferred embodiment is that stationary state or small range are shaken.

Structure inside swingle is as shown in figure 20, and swingle is that (swingle can be integrated hollow closed structure Enclosed construction is also possible to what upper end was realized with removable seal lid, realizes after being also possible to the component installation of wedge-type shape ), setting interior magnetic part as shown in figure 20 in the cavity 39 inside swingle, interior magnetic part is the multiple electromagnet stacked, And outer magnetic part is the permanent magnet in the annular groove of the cutter holes inner edge for being inlaid in cutter as shown in figure 20 (assuming that permanent magnet N Downward, the pole S is upward for pole).

The electromagnet of label b~i is successively power on/off in Figure 20, specifically: cutter 7 is located at the height of electromagnet a (dotted line expression), b are first powered (downward, the pole S is upward for the pole N), and outer magnetic part is attracted to rise, c energization while then b is powered off and after It is continuous to attract outer magnetic part rising ... ... until cutter rises at electromagnet i.The above process may also is that b is powered and attract outer magnetic Suction portion rises, and then b is powered off and c is powered and continues that outer magnetic part is attracted to rise, and b can flow through reversed electric current at this time, keeps b electric Externally magnetic part generates repulsive force so that it accelerates to magnet (upward, the pole S is downward for the pole N).

The external structure of swingle is as shown in figure 14, and vertical elongated key block 40, elongated key are provided on swingle Block extends to the upper section of swingle from the lower section of swingle, is provided in cutter holes inner edge and matches with elongated key block Keyway 46 (Figure 15).

The course of work of the present embodiment is:

1. opening the end cap of staving, the component of wedge-type shape is removed, watermelon is put into rotation section.

2. rotation section is set on swingle by overlap aperture, then cutter is set in (in rotation section by cutter holes ) on swingle, then install the upper cover of rotation section, install end cap.

3. cutter is parked on swingle since cutter is attracted by interior magnetic part, rotation section is stopped by cutter and is parked in rotation On bar, start power unit, power unit drives swingle rotation, swingle by the cooperation of elongated key block and keyway and Magnetic force between interior magnetic part and outer magnetic part attracts band cutter rotation (rotating clockwise or counterclockwise).

Under control unit control, the electromagnetism magnetic that is generated between interior magnetic part different parts from top to bottom and outer magnetic part Power effect declines cutter vertically along swingle, and cutter withstands rotation section decline when declining.

Cutter declines while rotating, and two overlap apertures of rotation section are circle, in swingle and elongated Also with rotation under the CONTACT WITH FRICTION of key block, in addition cutter rotation also will drive rotating foods to be processed, also have one to rotation section Fixed driving effect, so rotation section and swingle keep identical velocity of rotation during decline or rotation section is freely to turn Dynamic state.

4. protruding plate mutually stops when rotation section drops to bucket intracorporal lower end, it remain stationary rotation section, and interior magnetic When suction subordinate bottoms out, cutter is also parked in (height) position and keeps identical velocity of rotation with swingle, thus Watermelon is thoroughly crushed, after timing crushes, cutter can be stopped operating or be continued to rotate, and pars contractilis rises, and leads to It crosses interior magnetic part band cutter to rise, rotation section rises that (cutter may be at stopping turn in uphill process under the drive of cutter Dynamic state rotates clockwise state or rotates counterclockwise state), protruding plate cannot limit its rotation again after rotation section rises, So rotation section is also with rotation.

5. the overlap aperture on upper lid is inlaid in wedge-type shape when cutter makes rotation section rise to the component of wedge-type shape At a certain height and position of the outer rim of component, rotation section keeps height and position and (having can for identical velocity of rotation with swingle holding Can occur rotation section be embedded at wedge-type shape component it is not tight and the case where make rotation section that state be freely rotated), thus will turn Juice (through-hole of the connection rotation section internal cavity and staving internal cavity that are arranged by rotation section surface) in dynamic portion is thrown away, watermelon Slag is left in rotation section.

6. after timing for a period of time, rotation section stops operating, end cap is opened, the component of wedge-type shape is removed, then removes Rotation section (cutter can be taken off together), the intracorporal juice of bucket is poured and is drunk.

In the present embodiment, the material residue in watermelon juice can be removed.

Embodiment 2

The present embodiment as shown in figure 3, its unlike the first embodiment:

1. being provided with the structure 25 of annular on staving interior lower end side wall, internal screw thread is set in the inner edge of annular, is being turned External screw thread is arranged in bottom side of the wall outside dynamic portion, and when rotation section drops at this, external screw thread and internal screw thread intermeshing (form and turn Dynamic position limiting structure), rotation section is limited.

2. the structure inside swingle is as shown in figure 21, two electricity are arranged in the inner edge of the cutter holes of cutter in the axial direction Magnet 51 and 52 (two electromagnet form outer magnetic part), interior magnetic part it is as shown in figure 21 be arranged with 44 interval of fixed interval (FI) it is more A permanent magnet 50 (a~j).

Under control unit control, when cutter is located at permanent magnet a height (dotted line expression), top electromagnet 51 is powered It generates electromagnetic field and polarity of the magnetic field and (in swingle) top position permanent magnet attracts on the contrary, generating electromagnetic force, make outer magnetic Portion rises；Then, lower section electromagnet energization (polarity of the magnetic field direction) generation electricity identical as (in swingle) lower section permanent magnet polarity Magnetic magnetic repellence, thus outer magnetic part band cutter rises；When top, electromagnet rises to the height and position of label C, top Electromagnet changes current direction (changing polarity of the magnetic field direction) and continues to keep attracting with (in swingle) top permanent magnet, lower section electricity Magnet changes current direction (changing polarity of the magnetic field direction) and continues to keep magnetic repellence with (in swingle) lower section permanent magnet.It follows The principle that magnetic force attracts and repels, outer magnetic part is constantly in the case where magnetic force attracts the collective effect with magnetic repellence along swingle 4 rise.

When outer magnetic part declines: making the permanent magnet pole polarity below electromagnet 52 and (in swingle) on the contrary, generating Electromagnetic force attracts, while keeping electromagnet 51 identical as the permanent magnet pole polarity above (in swingle), generates electromagnetic force Repel, declines outer magnetic part constantly in the case where magnetic force attracts the collective effect with magnetic repellence along swingle 4.

3. the structure outside swingle is as shown in figure 15, the elongated key block on swingle is provided only on the lower section of swingle And middle part, when dropping in the middle part of swingle under drive of the cutter in interior magnetic part and when lower section, rotation section overlap aperture is larger and energy Enough accommodating swingle and elongated key block thereon, rotation section is that state is freely rotated, and when cutter rises to swingle upper section, Cutter is attracted by magnetic force and the CONTACT WITH FRICTION of swingle drives, and cutter can keep identical velocity of rotation with swingle or cutter is State is freely rotated.

Limit is engaged after the decline of rotation section to rotate clockwise or rotating counterclockwise when 4. cutter declines along swingle, After the completion of crushing, swingle is rotated to opposite direction, agitation and rotation of the cutter equally to the rotation of opposite direction and to juice Bar rotates rotation section to opposite direction the CONTACT WITH FRICTION of overlap aperture, collision, thus disengages rotation section from internal screw thread.

Other are same as Example 1.

Embodiment 3

The present embodiment as shown in figure 4, its unlike the first embodiment:

Structure inside swingle is as shown in figure 20, and interior magnetic part is vertically to stack multiple electromagnet 49, and outer magnetic part is Electromagnet shown in Figure 20.

When cutter is located at electromagnet a height (in swingle) (dotted line expression), the energization of (in swingle) b electromagnet is Upward, downward, outer magnetic part is powered as the pole N upward for the pole S, and downward, b electromagnet attracts outer magnetic part to rise for the pole S, while a electricity for the pole N Magnet is powered as the pole N downward, and upward, a electromagnet repels outer magnetic part for the pole S, makes outer magnetic part rapid increase.Then, work as cutter When rising at b electromagnet, c electromagnet is powered as the pole N upward, and downward, upward for the pole N, downward, c is electric for the pole S for outer magnetic part for the pole S Magnet attracts outer magnetic part to rise, at the same b electromagnet obtain it is electric for the pole N downward, upward, the outer magnetic part of b electromagnet repulsion makes it for the pole S Rise.

It (follows electromagnetic force to attract by the way that the continuous variation of the magnetic pole of a~i electromagnet and the magnetic pole of outer magnetic part are constant With the principle of magnetic repellence) increase along swingle outer magnetic part band cutter.Certainly, the electromagnet of Figure 20 can also be such as figure The pole arrangement mode of permanent magnet in 21 is the same, and outer magnetic part can also constantly convert magnetic under control unit control Pole attracts the collective effect with magnetic repellence by magnetic force, rises or falls along swingle.

Upper end is provided with externally threaded casing 27 in staving bottom, and the overlap aperture in rotation section bottom is provided with interior spiral shell Line, when cutter rotates clockwise and rotation section is driven to drop at this, external screw thread and internal screw thread engagement connection limit rotation section Position.It is intracorporal by bucket when (power unit driving swingle rotates counterclockwise) cutter rotates counterclockwise after the completion of crushing The disturbance of juice gives the counter-rotational promotion in rotation section, and swingle is also by CONTACT WITH FRICTION when rotating backward, collision The counter-rotational promotion in rotation section is given, the internal screw thread of rotation section and external screw thread are disengaged, after all disengaging, rotation section (attracting the collective effect with magnetic repellence using the above-mentioned electromagnetic force generated under control unit control) begins to ramp up.

Other are same as Example 1.

Embodiment 4

The present embodiment as shown in figure 5, its unlike the first embodiment:

1. it is circle that the upper cover of rotation section and two of rotation section bottom, which are arranged hole shape, and the transverse direction of swingle 4 Section is the smaller ellipse of area as shown in figure 16, and cutter holes 47 are the somewhat larger ellipse of area, slightly smaller ellipse Shape and slightly larger ellipse cooperate and rotate with cutter.

2. the circular area due to overlap aperture is larger, state is freely rotated when being set in rotation section on swingle, i.e., The slightly smaller ellipse of swingle can move rotation section rotation by CONTACT WITH FRICTION, collision belt, but the speed of the rotation may be with Swingle is identical or slightly lower, i.e., after the component of wedge-type shape is left in rotation section, during its decline, when dropping to lowest order, The state of being freely rotated is in uphill process.

3. no matter cutter rotates clockwise or rotate counterclockwise, rotation section can be jacked up upwards when rising.

Other are same as Example 1.

Embodiment 5

The present embodiment as shown in fig. 6, its unlike the first embodiment:

1. the opening of rotation section upper end is smaller and is located at the position that rotation section upper end is kept to the side, overlap aperture is arranged at rotation section bottom Portion and rotation section upper end, swingle are passed through from two overlap apertures, and upper cover be only used for open when be put into food to be processed or Opening is closed when closing.

2. 28 inner wall of staving lower end is the shape that can stop rotation-limited subordinate end shape, such as: staving lower end inner wall For square configuration, rotation section lower end shape is also square configuration, and when rotation section decline, two square configurations are mutually limited, and make Rotation section is remain stationary, and the square configuration of certain staving lower end is bigger also possible, and rotation section will not rotate on a large scale, only It can be in small-scale shaking.

3. cutter includes outer magnetic part, under control unit control, the electromagnetic force of outer magnetic part and the generation of interior magnetic part Effect, cutter can jack up rotation section when rising upwards, disengage it with staving lower end inner wall and continue to rise.

Other are same as Example 1.

Embodiment 6

The present embodiment as shown in fig. 7, its unlike the first embodiment:

1. as shown in figure 19, rotation section includes outer magnetic part, the annular groove of the inner edge of the overlap aperture 6 of rotation section bottom is embedded Equipped with ferromagnet (iron hoop, iron block etc.), the power on/off circulation of interior magnetic part structure as shown in figure 20, interior magnetic part makes Outer magnetic part drives rotation section to rise along swingle.

2. the structure outside swingle is: the transversal cross-section at swingle upper section and middle part is round and lower section transversal cross-section For hexagon, the inner edge of the cutter holes of cutter is hexagon.When it is at hexagon that cutter, which is located at swingle transversal cross-section, rotation Hexagon cooperates at the two of bar transversal cross-section and cutter holes, rotates swingle band cutter.When cutter is located at swingle When transversal cross-section is at circle, swingle can be rotated by CONTACT WITH FRICTION, collision belt cutter, and cutter is in and is freely rotated at this time State, i.e. cutter may keep identical velocity of rotation or lower than the velocity of rotation of swingle with swingle.

3. no matter rotation section rotates clockwise or rotates counterclockwise, rise or fall constantly equal energy band cutter rise or Decline.

Other are same as Example 1.

Embodiment 7

The present embodiment as shown in figure 8, its unlike the first embodiment:

1. rotation section upper end opening is as shown in figure 8, opening is not provided with upper cover, overlap aperture setting is in rotation section bottom, rotation Bull stick is passed through from an overlap aperture and is pierced by from opening.

2. cutter is connected with two clamping portions 34 in rotation section and below rotation section, which is set The top and bottom for setting 33 outer rim of sleeve being arranged below cutter, directly can also be set up directly on knife by the structure of bending Have bottom or side wall.Two clamping portions can hold rotation section respectively when cutter rises or falls and rise or withstand under rotation section Drop.

3. the component 29 of the plate shape of swingle upper section setting, the component towards being provided with tongue-and-groove 30 on the surface of rotation section, And what the rotation section upper surface aligned therewith aligned is provided with tenon 31.After rotation section rises in place, tenon and tongue-and-groove are mutual Inserting cooperation, connect rotation section at this with swingle, and the two keeps identical velocity of rotation, it is thus achieved that rotation section Drying action.

4. rotation section is only provided with the through-hole 9 for juice discharge on side wall.

5. cutter upper surface and bottom surface do not have wear-resisting component 22.

6. cutter includes outer magnetic part, under control unit control, the electromagnetic force of outer magnetic part and the generation of interior magnetic part Effect, enables cutter to jack up rotation section upwards when rising, disengages it with staving lower end inner wall and continue to rise.

Other are same as Example 1.

Embodiment 8

The present embodiment as shown in figure 9, its as different from Example 7:

1. the opening 32 of rotation section upper end is smaller and is located at the position that rotation section upper end is kept to the side, overlap aperture is arranged in rotation section Bottom and rotation section upper end, swingle are passed through from two overlap apertures, and upper cover 20 is only used for being put into food to be processed when opening Closing opening when product or closing.

2. on the left of the upper end of rotation section and on the right side of rotation section, upper surface is respectively arranged with tenon 31, with the plate shape of tenon contraposition Tongue-and-groove is provided on component 29.

3. cutter is connected with a clamping portion 34 below rotation section, which sets below cutter The lower end for 33 outer rim of sleeve set directly can also be set up directly on cutter bottom or side wall by the structure of bending.One card Dress portion can hold rotation section when cutter rises and rise, and the decline of rotation section is withstood rotation section by cutter and declined.

4. rotation section bottom is only arranged a protruding plate, and staving bottom is arranged two protruding plates, rotation section bottom it is convex Ejecting plate can be by the blocking of two protruding plates of staving bottom, rotary spacing.

6. no matter cutter rotates clockwise or rotate counterclockwise, rotation section can be jacked up upwards when rising, makes itself and bucket Body bottom disengages and continues to rise.

Other are same as Example 7.

Embodiment 9

The present embodiment is as shown in Figure 10, unlike the first embodiment:

1. rotation section opening has inside bending edges 35.Opening is smaller and is located at the position that rotation section upper end is kept to the side, Overlap aperture is arranged on the bottom and bending edges of rotation section, and swingle is passed through from two overlap apertures.

2. cutter upper surface and bottom surface do not have wear-resisting component 22.

3. boss 13 is arranged in staving bottom, tongue-and-groove 30 is set on boss, rotation section bottom is provided with the tenon of opposite position First 31, when rotation section drops at this, tenon and tongue-and-groove mutually insert cooperation, thus limit rotation section, keep its holding quiet It can only or only be shaken in a small range.After rotation section rises, tenon and tongue-and-groove are disengaged, and the rotary spacing of rotation section releases.

4. no matter cutter rotates clockwise or rotate counterclockwise, rotation section can be jacked up upwards when rising, makes itself and bucket Body bottom disengages and continues to rise.

Other are same as Example 1.

Embodiment 10

The present embodiment is as shown in figure 11, as different from Example 7:

1. cutter can withstand protrusive board 42 and with turn by 33 upper surface of sleeve set thereon when rising along swingle Dynamic portion rises；Rotation section declines along swingle under the effect of gravity when cutter declines along swingle.

2. two protruding plates of rotation section bottom setting, and one protruding plate of staving bottom setting, two of rotation section bottom Protruding plate can be by the blocking of a protruding plate of staving bottom, rotary spacing.

3. cutter upper surface and bottom surface do not have wear-resisting component 22.

Other are same as Example 7.

Embodiment 11

The present embodiment is as shown in figure 12, unlike the first embodiment:

1. power unit 17 is above to set, i.e. its top for being located at staving end cap.

2. the component 29 of the plate shape of swingle upper section setting, the component towards being provided with tongue-and-groove 30 on the surface of rotation section, And what the upper cover upper surface aligned therewith aligned is provided with tenon 31.After rotation section rises in place, tenon and tongue-and-groove phase interfix Assembly is closed, and connect rotation section at this with swingle, and the two keeps identical velocity of rotation, it is thus achieved that rotation section is got rid of Dry movement.

3. cutter upper surface and bottom surface are provided with wear-resisting component 22.

Other are same as Example 1.

Embodiment 12

The present embodiment is as shown in figure 13, unlike the first embodiment:

After 1. the component of wedge-type shape is left in rotation section, during its decline, (bottom in staving when dropping to lowest order There is no rotary position limiting structure), the state of being freely rotated is in uphill process.The horizontal line section of swingle is ellipse, cutter Hole and overlap aperture are hexagon, and swingle can be rotated by CONTACT WITH FRICTION, the rotation of collision belt cutter and rotation section, but The speed of the rotation may be identical or slightly lower as swingle.

2. swingle lower end extend out to the lower section of bottom plate from staving bottom plate, and is connect by shaft coupling with power unit, move Power unit drives swingle rotation.

Other are same as Example 1.

Embodiment 13

The present embodiment is as shown in figure 18, as different from Example 11:

Aid tool 48 is provided in rotation section, the aid tool can there are two types of structures, specifically:

1. rotation section inner edge is provided at least one aid tool, during aid tool is located above or below the blade of cutter At least one at, each aid tool and cutter are overlapping for vertical direction.As shown in figure 18, cutter has lateral two A blade, is provided with an aid tool above each blade, the end of the close cutter of aid tool in a vertical direction with The blade of cutter overlaps.

2. rotation section inner edge is provided at least one aid tool, aid tool is located at top, lower section or the side of cutter In any one place, at any two or all at three, each aid tool and cutter are interval setting.Interval setting refers to auxiliary Cutter is spaced apart from each other in a lateral direction close to the end of cutter and the blade of cutter.

Other are identical as embodiment 11.

Embodiment 14

The present embodiment is unlike the first embodiment:

Swingle upper section is pierced by upwards from end cap, and swingle upper surface is open state.

Other are same as Example 1.

It is provided with interior magnetic part in the present invention, in swingle, on cutter or rotation section is equipped with outer magnetic part.Interior magnetic part To stack setting or spaced electromagnet or permanent magnet, outer magnetic part is permanent magnet, ferromagnet or electromagnet.It is single in control Under member control, the electromagnetic force effect generated between interior magnetic part and outer magnetic part keeps cutter and/or rotation section vertically movable.And Interior magnetic part is fixed state in swingle, only under control unit control, to the difference of magnetic part in forming The power on/off variation for realizing electromagnetic field of electromagnet, and then keeps outer magnetic part vertically movable, so interior magnetic part not rapid wear It is bad, it works more reliable.Since, there are vertical relative displacement, cutter can be more efficient by rotation section between cutter and rotation section The food to be processed of interior placement crushes；Secondly it not being threadedly engaged between cutter and swingle, residue (i.e. material residue) is not easy to be detained, Be not in the prior art because residue corruption caused by germ mass propagation the phenomenon that；In addition swingle surfacing, no Will appear has in technology because of germ mass propagation caused by external screw thread residue corruption and influences the vertically movable problem of cutter； Have in entire treatment process again, the structure in it is closed by swingle, is integrally readily disassembled, is readily cleaned；Magnetic in last Electromagnetic force effect between suction portion and outer magnetic part be it is controllable, can be realized according to distinct program complicated vertically movable Mode, and outer magnetic part is vertically movable relatively steady, and violent shock will not be generated to staving, reduces vibration, noise etc. Harm.

Claims

1. a kind of food processor with material residue drying functions, including power unit, control unit, cutter and staving, special Sign is: further including swingle and rotation section, the rotary rod portions are located in staving or are entirely located in staving, the power Unit drives swingle rotation, and rotation section is set on swingle by overlap aperture set thereon, has in rotation section and is used for The cavity for placing food to be processed is provided with the through-hole of connection rotation section internal cavity and staving internal cavity, institute on rotation section surface Cutter is stated with cutter holes, cutter is arranged in rotation section and on the swingle that is set in rotation section by cutter holes, described Cutter can be used to crush the food to be processed；

Rotation section can be vertically movable along swingle, and rotation section can rotate under swingle drive, preferably rotation section bottom position It can be rotated under swingle drive when swingle any position more than swingle lower section, be further preferred that rotation section bottom Portion can rotate synchronously when being located at the swingle any position of swingle lower section or more under swingle drive；

The swingle is hollow structure, and interior magnetic part is arranged inside, and interior magnetic part, cutter and rotation section are perpendicular along swingle To mobile relationship selected from it is following (1), (2) or (3) in any one:

(1) the cutter includes outer magnetic part；

When cutter rises along swingle: under control unit control, the different parts of interior magnetic part from the bottom to top and outer magnetic The electromagnetic force effect generated between suction portion can make cutter vertically raised along swingle；

When cutter declines along swingle:

Under control unit control, the electromagnetic force generated between interior magnetic part different parts from top to bottom and outer magnetic part is made With cutter can be made vertically to decline along swingle；

Or,

Cutter can vertically decline along swingle under the effect of gravity；

Or,

Under control unit control, the electromagnetic force generated between interior magnetic part different parts from top to bottom and outer magnetic part is made With and the gravity of cutter itself decline cutter vertically along swingle；

(2) the rotation section includes outer magnetic part；

When rotation section rises along swingle: under control unit control, the different parts of interior magnetic part from the bottom to top and outer The electromagnetic force effect generated between magnetic part can make rotation section vertically raised along swingle；

When rotation section declines along swingle:

Under control unit control, the electromagnetic force generated between interior magnetic part different parts from top to bottom and outer magnetic part is made With rotation section can be made vertically to decline along swingle；

Or,

Under control unit control, the electromagnetic force generated between interior magnetic part different parts from top to bottom and outer magnetic part is made With and the gravity of rotation section itself decline rotation section vertically along swingle；

(3) the cutter and rotation section include outer magnetic part；

When cutter and/or rotation section rise along swingle: under control unit control, the difference of interior magnetic part from the bottom to top The electromagnetic force effect generated between position and outer magnetic part keeps cutter and/or rotation section vertically raised along swingle；

When cutter and/or rotation section decline along swingle:

Under control unit control, the electromagnetic force generated between interior magnetic part different parts from top to bottom and outer magnetic part is made With declining cutter and/or rotation section vertically along swingle,

Or,

Or

Under control unit control, the electromagnetic force generated between interior magnetic part different parts from top to bottom and outer magnetic part is made With and cutter and/or the gravity of rotation section itself, decline the cutter and/or rotation section vertically along swingle；

The rotation relation of the swingle and cutter is: swingle is able to drive cutter rotation, and preferably swingle passes through cutter The rotation of pore area cutter and/or swingle are rotated by the magneticaction band cutter between interior magnetic part and outer magnetic part；Into One step is preferably swingle and is passed through between interior magnetic part and outer magnetic part by cutter holes with cutter rotation and/or swingle Magnetic force attracts band cutter to rotate；

The magneticaction is magnetic force attraction and/or magnetic repellence.

2. a kind of food processor with material residue drying functions according to claim 1, it is characterised in that:

Interior magnetic part includes the component that the component that vertically arranged multiple permanent magnets are constituted or multiple electromagnet are constituted, outer magnetic part At least part is any one in the component that the component or ferromagnet that the component or permanent magnet that electromagnet is constituted are constituted are constituted Kind or any two or all three kinds generate electromagnetic force under control unit control between interior magnetic part and outer magnetic part and make With；

Or,

When interior magnetic part at least part is the component that electromagnet is constituted, outer magnetic part at least part is what electromagnet was constituted Component；Or when interior magnetic part at least part is the component that electromagnet is constituted, outer magnetic part at least part is permanent magnet structure At component；Or when interior magnetic part at least part is the component that electromagnet is constituted, outer magnetic part at least one is ferromagnet The component of composition；Or when interior magnetic part at least part is the component that permanent magnet is constituted, outer magnetic part at least one is electromagnetism The component that iron is constituted；

Or,

The swingle is closed hollow structure.

3. a kind of food processor with material residue drying functions according to claim 2, it is characterised in that: the cutter Including outer magnetic part, any one of the relationship of rotation section and cutter in (1), (2), (3), (4), (5), (6), (7) or (8):

(1) when the upper end of rotation section has opening and opening is provided with upper cover, the upper cover detachably connects with the opening It connects:

The cutter can withstand upper cover when rising along swingle and drive rotation section rising or the cutter along on swingle Rotation section rising can be withstood when rising；

The cutter can withstand rotation section decline or the rotation section under the effect of gravity along rotation when declining along swingle Bar decline or the cutter and rotation section decline along swingle under the effect of gravity；

Or

(2) when the upper end of rotation section or side wall have opening:

The cutter can withstand rotation section decline or clamping portion and can withstand when declining along swingle and turn when declining along swingle Dynamic subordinate's drop or the rotation section are under the effect of gravity along swingle decline or the cutter and rotation section in gravity Under decline along swingle；

Or

(3) when the upper end of rotation section or side wall have opening:

Or

(4) when the upper end of rotation section or side wall have opening:

The cutter is provided with gland or press strip, and the bottom surface of gland or press strip position opposite with the opening rotation section of side is arranged；

The gland or press strip can withstand rotation section decline or clamping portion energy when declining along swingle when declining along swingle Rotation section decline or the rotation section are withstood under the effect of gravity along swingle decline or the cutter and rotation section in weight Decline under power effect along swingle；

Or

(5) when the upper end of rotation section or side wall have opening:

The rotation section opening has inside bending edges or bending rib；

Or

(6) when the upper end of rotation section or side wall have opening:

Or

(7) when the upper end of rotation section or side wall have opening:

The rotation section inner edge have inside protrusive board, convex block or bulge loop, the cutter be provided with can block rotation section bottom plate or The clamping portion of inner sidewall；

The clamping portion can withstand rotation section decline or the rotation section under the effect of gravity along rotation when declining along swingle Bull stick decline or the cutter and rotation section decline along swingle under the effect of gravity；

Or

(8) when the upper end of rotation section or side wall have opening:

The cutter can withstand rotation section decline or the rotation section under the effect of gravity along rotation when declining along swingle Bar decline or the cutter and rotation section decline along swingle under the effect of gravity.

4. a kind of food processor with material residue drying functions according to claim 2, it is characterised in that: the rotation Portion includes outer magnetic part, any one of the relationship of rotation section and cutter in (1), (2), (3), (4), (5), (6), (7) or (8):

Energy band cutter rises when the rotation section rises along swingle；

The rotation section can withstand cutter decline or the cutter under the effect of gravity along swingle when declining along swingle Decline or the rotation section and cutter decline along swingle under the effect of gravity；

Or

(2) when the upper end of rotation section or side wall have opening:

Energy band cutter rises when the rotation section rises along swingle；

The cutter is under the effect of gravity along swingle decline or the rotation section and cutter under the effect of gravity along rotation Bar decline；

Or

(3) when the upper end of rotation section or side wall have opening:

The rotation section can be risen by clamping portion band cutter when rising along swingle or the rotation section is along swingle Energy band cutter rises when rising；

The rotation section can withstand cutter decline or the cutter under the effect of gravity by clamping portion when declining along swingle Decline under the effect of gravity along swingle along swingle decline or the rotation section and cutter；

Or

(4) when the upper end of rotation section or side wall have opening:

The rotation section can be by gland when rising along swingle or press strip band cutter rises or the rotation section is along rotation It can be by clamping portion band cutter when the rising of energy band cutter or the rotation section rise along swingle when bull stick rises It rises；

Or

(5) when the upper end of rotation section or side wall have opening:

The rotation section opening has inside bending edges or bending rib；

Energy band cutter rises when the rotation section rises along swingle；

The rotation section can withstand cutter decline or the cutter in weight by bending edges or bending rib when declining along swingle Decline under power effect along swingle or the rotation section and cutter decline along swingle under the effect of gravity；

Or

(6) when the upper end of rotation section or side wall have opening:

Energy band cutter rises when the rotation section rises along swingle；

The rotation section can withstand cutter decline by protrusive board, convex block or bulge loop when declining along swingle or the cutter exists Decline under gravity along swingle or the rotation section and cutter decline along swingle under the effect of gravity；

Or

(7) when the upper end of rotation section or side wall have opening:

Energy band cutter rises when the rotation section rises along swingle or the rotation section is along swingle rising Shi Nengtong Clamping portion band cutter is crossed to rise；

The decline of energy band cutter or the rotation section are along swingle decline Shi Nengtong when the clamping portion declines along swingle Cross protrusive board, convex block or bulge loop withstand cutter decline or the cutter declines under the effect of gravity along swingle or the rotation Portion and cutter decline along swingle under the effect of gravity；

Or

(8) when the upper end of rotation section or side wall have opening:

Energy band cutter rises when the rotation section rises along swingle；

The beam-shaped structure can withstand cutter decline or the cutter under the effect of gravity along rotation when declining along swingle Bar decline or the rotation section and cutter decline along swingle under the effect of gravity.

5. a kind of food processor with material residue drying functions according to claim 1 or 2 or 3 or 4, feature exist In any one of: the structure of the interior magnetic part in (1), (2), (3) or (4):

(1) the interior magnetic part is the component that the multiple electromagnet being arranged from the bottom to top in swingle are constituted, preferably interior magnetic part For the component or be interval setting from the bottom to top in swingle that multiple electromagnet of setting are constituted are stacked in swingle from the bottom to top The component that multiple electromagnet are constituted, described outer magnetic part at least part are the component that electromagnet is constituted；

Preferably, under control unit control, the different electromagnet of interior magnetic part can be power on/off in any order and be made Electromagnetic field position changes, and outer magnetic part, which can be powered, generates electromagnetic field, generates between interior magnetic part and outer magnetic part Electromagnetic force effect；

The electromagnet of preferably interior magnetic part can make electromagnetic field position change according to adjacent sequential is successively power on/off, Outer magnetic part, which can be powered, generates electromagnetic field, and electromagnetic force effect is generated between interior magnetic part and outer magnetic part；It is further excellent Choosing be outer magnetic part electromagnet according to contraposition interior magnetic part electromagnet polarity and change magnetic pole, to realize interior magnetic part Electromagnetic force effect between outer magnetic part；

Or,

(2) the interior magnetic part is the component that the multiple electromagnet being arranged from the bottom to top in swingle are constituted, preferably interior magnetic part For the component or be interval setting from the bottom to top in swingle that multiple electromagnet of setting are constituted are stacked in swingle from the bottom to top The component that multiple electromagnet are constituted, described outer magnetic part at least part are the component that permanent magnet is constituted；

Preferably, under control unit control, the different electromagnet of interior magnetic part power on/off in any order can make Electromagnetic field position changes, and preferably multiple electromagnet can make electromagnetic field according to adjacent sequential is successively power on/off Position changes, and is acted on the electromagnetic force realized between interior magnetic part and outer magnetic part；

Or,

(3) the interior magnetic part is the component that the multiple electromagnet being arranged from the bottom to top in swingle are constituted, preferably interior magnetic part For the component or be interval setting from the bottom to top in swingle that multiple electromagnet of setting are constituted are stacked in swingle from the bottom to top The component that multiple electromagnet are constituted, described outer magnetic part at least part are the component that ferromagnet is constituted；

Preferably, under control unit control, the different electromagnet of interior magnetic part power on/off in any order can make Electromagnetic field position changes, and preferably multiple electromagnet can make electromagnetic field according to adjacent sequential is successively power on/off Position changes, and is attracted with the electromagnetic force realized between interior magnetic part and outer magnetic part；

Or,

(4) the interior magnetic part is the component that the multiple permanent magnets being arranged from the bottom to top in swingle are constituted, preferably interior magnetic part For the component or be interval setting from the bottom to top in swingle that multiple permanent magnets of setting are constituted are stacked in swingle from the bottom to top The component that multiple permanent magnets are constituted, described outer magnetic part at least part are the component that electromagnet is constituted；

Preferably, under control unit control, the electromagnet can change magnetic pole according to the polarity of the permanent magnet of contraposition with reality Electromagnetic force in existing between magnetic part and outer magnetic part acts on.

6. a kind of food processor with material residue drying functions according to claim 5, it is characterised in that: the rotation The outer shape of bar is selected from any one (1), (2), (3), (4), (5) or in (6):

(1) some or all of swingle outer rim is provided with key block, and on cutter or cutter holes contrapositions is provided with and matches with key block Keyway, swingle can be rotated by the key block band cutter；

Or,

(2) some or all of swingle outer rim is provided with keyway, and on cutter or cutter holes contrapositions is provided with and matches with keyway Key block, swingle can be rotated by the keyway band cutter；

Or,

(3) the shape of the transversal cross-section of rotary rod portions or whole is non-circular shape, and cutter is set in swingle by cutter holes On, swingle can be rotated by the non-circular shape band cutter；

Or,

(4) the shape of the transversal cross-section of rotary rod portions or whole is circle, and cutter is set on swingle by cutter holes, is revolved Bull stick can be rotated by the circular strip cutter；

Or,

(5) the shape of the transversal cross-section of rotary rod portions or whole is that round or non-circular shape, cutter are set in by cutter holes On swingle, swingle attracts band cutter to rotate by the magnetic force of interior magnetic part and outer magnetic part；

Or,

(6) some or all of swingle outer rim is provided with rotary position limiting structure, on cutter or cutter holes contraposition be provided with it is adaptable The rotary position limiting structure of shape, swingle can be rotated by the rotary position limiting structure band cutter.

7. a kind of food processor with material residue drying functions, feature according to Claims 2 or 3 or 4 or 6 exist In any one of: the structure of outer magnetic part in (1), (2), (3), (4), (5), (6), (7) or (8):

(1) tool parts or all ferromagnets are made and are formed as outer magnetic part；

Or,

(2) cutter holes inner edge is provided with ferromagnet or permanent magnet or electromagnet and is formed as outer magnetic part；

Or,

(3) cutter upper surface or bottom surface are provided with ferromagnet or permanent magnet or electromagnet and are formed as outer magnetic part；

Or,

(4) tool parts or all permanent magnets and outer magnetic part is formed as；

Or,

(5) rotation section is partly or entirely that ferromagnet is made and is formed as outer magnetic part；

Or,

(6) the overlap aperture inner edge of rotation section is provided with ferromagnet or permanent magnet or electromagnet and is formed as outer magnetic part；

Or,

(7) rotation section upper end, lower end, side wall or bottom plate are provided with ferromagnet or permanent magnet or electromagnet and are formed as outer magnetic part；

Or,

8. a kind of food processor with material residue drying functions, feature according to Claims 2 or 3 or 4 or 6 exist In: rotation section keeps the structure of height and position in (1), (2), (3), (4), (5), (6) or (7) on swingle in vertical direction Any one:

(1) the rotation section keeps height and position by embedding structure on swingle；

Or,

(2) the rotation section keeps height and position by clamping structure on swingle；

Or,

(3) the rotation section keeps height and position by engaging structure on swingle；

Or,

(4) the magnetic force of the outer magnetic part on cutter and interior magnetic part attraction makes cutter keep height and position on swingle, and cutter is again Rotation section is set to keep height and position on swingle；

Or,

(5) rotation section makes rotation section keep height on swingle by the magnetic force attraction of outer magnetic part and interior magnetic part thereon Position；

Or,

(7) the height that swingle middle part or upper section are provided with that permanent magnet, electromagnet or ferromagnet are formed keeps magnetic part, rotation section On have permanent magnet, electromagnet or ferromagnet, when rotation section be close to or up to the height on swingle keep magnetic part when, the two Mutual magnetic force attraction makes rotation section keep height and position；

Alternatively, when the permanent magnet on rotation section, electromagnet position are higher than the height holding magnetic part on swingle, two The mutual magnetic repellence of person makes rotation section keep height and position.

9. a kind of food processor with material residue drying functions according to claim 8, it is characterised in that: the rotation Bar drives any one of the structure of rotation section rotation in (1), (2), (3), (4), (5) or (6):

At least one in the upper end of the rotation section, lower end or side wall at swingle in the middle part of or upper section between be provided with tongue-and-groove knot Structure；

Or,

At least one in the upper end of the rotation section, lower end or side wall at swingle in the middle part of or upper section between be provided with embedded knot At least one of structure, clamping structure or engaging structure；

Or,

(3) the swingle middle part or upper section are provided with the rotary spacing knot that shape is adapted with rotation section upper end, lower end or side wall Structure；

Or,

(4) the shape of the overlap aperture of rotation section matches with the shape at swingle at least one, and swingle drives rotation section rotation；

Or,

(5) swingle is attracted by the magnetic force of interior magnetic part and outer magnetic part drives rotation section rotation；

Or,

10. a kind of food processor with material residue drying functions described according to claim 1 or 2 or 3 or 4 or 6 or 9, It is characterized in that: by the limit of rotary position limiting structure or in free state, institute when the rotation section is moved to lower end in staving State any one of rotary position limiting structure in (1), (2), (3), (4) or (5):

(1) plug-in mounting structure or clamping are provided between the bottom of rotation section at least one in staving bottom or staving bottom side of the wall Structure；

Or,

(2) plug-in mounting structure or clamping are provided between the side wall of rotation section at least one in staving bottom or staving bottom side of the wall Structure；

Or,

(3) engaging structure is provided between the bottom of rotation section at least one in staving bottom or staving bottom side of the wall；

Or,

(4) engaging structure is provided between the side wall of rotation section at least one in staving bottom or staving bottom side of the wall；

Or,

(5) staving lower inner side wall is the shape being adapted with rotation section side wall lower ends, which can stop turning for rotation section It is dynamic.