CN115251734A - Food processing device, food processor and using method of food processing device - Google Patents

Abstract

The invention discloses a food processing device, a food processor and a using method thereof, wherein the food processing device comprises a host, a first processing cup assembly and a second processing cup assembly, and the first processing cup assembly comprises a first cup body; the second processing cup assembly comprises a second cup body, the second processing cup assembly and the first cup body are detachably arranged, and when the second processing cup assembly is arranged in the first cup body, the second processing cup assembly works; the rim of the second cup body faces downwards. When the second processing cup assembly is arranged in the first cup body, the second processing cup assembly works, so that multiple functions in the food processing device can be switched to use, and the use experience is improved; the rim of a cup of second cup is down for this rim of a cup can be sheltered from by the bottom of a cup of first cup at least, avoids the edible material in the second cup to be driven and splashes to first cup in, leads to the processing effect not good.

Description

Food processing device, food processor and using method of food processing device

Technical Field

The invention relates to the technical field of food processing, in particular to a food processing device, a food processor and a using method of the food processing device.

Background

Some current food processors are additionally provided with a grinding function, for example, a grinding cup and other functional cups are placed in the processing cup, so that five-cereal food materials and seasoning seasonings can be ground into powder, and the five-cereal food materials and the seasoning seasonings are well liked by users. However, in the actual use process of the food processor, the food material will splash and stick to the inner wall of the cooking cup after colliding with the grinding knife, and will not contact with the grinding knife any more, resulting in poor grinding effect.

Disclosure of Invention

The invention mainly aims to provide a food processing device, a food processor and a using method thereof, and aims to solve the problem that in a traditional food processor, food materials in a built-in functional cup are easy to splash to the processing cup, so that the processing effect in the functional cup is poor.

In order to achieve the above object, the present invention provides a food processing device, comprising:

a host;

a first processing cup assembly mounted to the host, the first processing cup assembly including a first cup body; and the number of the first and second groups,

the second processing cup assembly comprises a second cup body, the second processing cup assembly and the first cup body are detachably arranged, and when the second processing cup assembly is installed in the first cup body, the second processing cup assembly works;

wherein, the rim of the second cup body is arranged downwards.

Optionally, the first processing cup assembly further comprises a first working member extending into the first cup body, the first working member comprising a connecting portion;

the second processing cup assembly further comprises a second working component arranged on the second cup body, and the second working component comprises a butt joint part;

wherein the connecting portion and the docking portion are drivingly coupled to link the first working member and the second working member when the second processing cup assembly is mounted into the first cup.

Optionally, the inner cavity of the second cup body is arranged in a gradually expanding manner from top to bottom.

Optionally, the inclination angle of the inner cavity wall of the second cup is not less than 1 ° and not more than 10 °.

Optionally, the food processing device includes a positioning structure provided in the connecting portion and a matching structure provided in the abutting portion, the positioning structure and the matching structure are used for matching when the connecting portion and the abutting portion are in transmission coupling, so that the second processing cup assembly and the first cup body are relatively fixed in the circumferential direction of the first cup body.

Optionally, one of the positioning structure and the matching structure is a boss, and the other is a groove;

the shaft protrusion is matched with the groove in a rotation stopping manner.

Optionally, the radial cross section of the axial bulge is polygonal, and the shape of the groove is matched with that of the axial bulge; or,

one of them protruding card muscle that is equipped with of one side outer wall of the protruding axle with the inslot wall of recess, wherein another is equipped with the card and holds the card and fix the draw-in groove of card muscle.

Optionally, a one-way bearing is installed in the groove, and the shaft boss is sleeved with the one-way bearing.

Optionally, the boss includes a fitting section and a guiding section connected in sequence in a direction close to the one-way bearing:

the end surface of the guide section is in an arc surface shape, a round angle or a chamfer angle; and/or the presence of a gas in the gas,

the outer diameter of the guide section is not larger than the inner diameter of the one-way bearing at the position; and/or the presence of a gas in the atmosphere,

the length of the guide section is not less than 2mm; and/or the presence of a gas in the gas,

the shape and the size of the outer periphery of the matching section are matched with the shape and the size of the inner periphery of the one-way bearing at the position of the matching section; and/or the presence of a gas in the gas,

the length of the matching section is not less than 4mm.

Optionally, the protruding lateral wall of keeping away from of axoplast the one end of recess is protruding to be equipped with spacing step, spacing step be used for the axoplast with the notch department of recess butt when the recess cooperation, so that the terminal surface of axoplast with the tank bottom face looks interval of recess.

Optionally, the connecting portion and the abutting portion are in contact coupling connection, and a first cushion pad is disposed at a connection position between the connecting portion and the abutting portion.

Optionally, one of them protruding location muscle that is equipped with of the inside wall of first cup with the lateral wall of second cup, wherein another is equipped with the screens groove, with second processing cup subassembly install to in the first cup, screens groove joint location muscle.

Optionally, the first processing cup assembly further comprises a cup cover, and when the second processing cup assembly is installed in the first cup body, the cup cover covers the cup opening of the first cup body and abuts against the bottom of the second cup body.

Optionally, the first working component further comprises a stirring assembly connected with the connecting part, the second working component further comprises a grinding assembly connected with the butt-joint part, and the grinding assembly extends into the second cup body;

when the second processing cup assembly is installed in the first cup body, the stirring assembly is movably arranged below the second processing cup assembly.

In addition, in order to achieve the above object, the present invention also provides a food processor including a food processing device, the food processing device including:

a host;

the first processing cup assembly is arranged on the host machine and comprises a first cup body and a first working part extending into the first cup body, and the first working part comprises a connecting part; and (c) a second step of,

the second processing cup assembly comprises a second cup body and a second working part arranged on the second cup body, the second working part comprises a butt joint part, the second processing cup assembly is detachably arranged with the first cup body, and when the second processing cup assembly is installed in the first cup body, the connecting part and the butt joint part are in transmission coupling to link the first working part and the second working part;

wherein, the rim of the second cup body is arranged downwards.

In addition, in order to achieve the above object, the present invention further provides a method for using the food processor, comprising the following steps:

providing a food processor comprising a first processing cup assembly and a second processing cup assembly, the first processing cup assembly comprising a blending cup and a first working component, the second processing cup assembly comprising a grinding cup and a second working component, the grinding cup comprising a cup body and a cover assembly;

after food materials are added into the cup body of the grinding cup, the cup body is covered by the cover body assembly;

turning the grinding cup added with food materials to a state that the cup mouth is downward, and installing the grinding cup into the stirring cup through the cover body assembly;

the first working component is operated to drive the second working component to work so as to grind the food materials in the grinding cup;

after the first working component is stopped, when the food materials ground in the grinding cup need to be used, the grinding cup can be taken out from the stirring cup, turned over until the cup opening faces upwards, and the cover body assembly is opened for use.

Optionally, after stopping the first working component, when the ground food material in the grinding cup needs to be used, the grinding cup may be taken out from the stirring cup and turned upside down, and after opening the cover assembly for use, the method further includes:

eating the ground food material through the grinding cup; alternatively, the cover assembly with the second working member is replaced with a closure cover capable of closing only the grinding cup and stored for use.

Optionally, after stopping the first working component, when the ground food material in the grinding cup needs to be used, the grinding cup may be taken out from the stirring cup and turned upside down, and after opening the cover assembly for use, the method further includes:

and pouring the food materials ground in the grinding cup into the stirring cup, and operating the first working part to stir the food materials in the stirring cup.

According to the technical scheme provided by the invention, the second processing cup assembly works when being installed in the first cup body, so that various functions in the food processing device can be switched to use, and the use experience is improved; the rim of a cup of second cup is down for this rim of a cup can be sheltered from by the bottom of a cup of first cup at least, avoids the edible material in the second cup to be driven and splash to in the first cup, leads to the processing effect not good.

Drawings

In order to more clearly illustrate the embodiments or technical solutions of the present invention, the drawings used in the embodiments or technical solutions of the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic longitudinal sectional view of a part of the structure of an embodiment of a food processor provided by the present invention;

FIG. 2 is an enlarged schematic view of the first embodiment at A in FIG. 1;

FIG. 3 is a schematic longitudinal cross-sectional view of the food processing apparatus of FIG. 1;

FIG. 4 is an exploded schematic view of the food processing apparatus of FIG. 1;

FIG. 5 is a perspective view of the first processing cup assembly of FIG. 1;

FIG. 6 is a perspective view of the second processing cup assembly of FIG. 1;

FIG. 7 is a schematic view of the docking portion of FIG. 6;

FIG. 8 is an enlarged schematic view of the second embodiment at A in FIG. 1;

FIG. 9 is a schematic view of a portion of the structure of FIG. 8;

fig. 10 is a schematic flow chart of a method for using a food processor according to a first embodiment of the present invention;

fig. 11 is a schematic flow chart of a method for using a food processor according to a second embodiment of the present invention;

fig. 12 is a schematic flow chart of a method for using a food processor according to a third embodiment of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				1	Food processor	222	Grinding assembly
11	Food processing device	230	Cover body assembly
				100	First processing cup assembly	310	Positioning structure
110	The first cup body	311	Axis convex
				120	First working member	311a	Guide section
121	Connecting part	311b	Mating segment
				122	Stirring assembly	311c	Limiting step
130	Cup cover	320	Fitting structure
				131	Propping bulge	321	Groove
200	Second processing cup assembly	322	Clamping groove
				210	Second cup body	323	One-way bearing
211	Notch (S)	400	Shock pad
				220	Second working member	510	Positioning rib
221	Butt joint part	520	Clamping groove

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, back, 8230; etc.) are involved in the embodiment of the present invention, the directional indications are only used for explaining the relative positional relationship between the components, the motion situation, etc. in a specific posture (as shown in the figure), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout includes three juxtapositions, exemplified by "A and/or B" including either A or B or both A and B. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Some current food processors are additionally provided with a grinding function, for example, a grinding cup and other functional cups are placed in the processing cup, so that five-cereal food materials and seasoning seasonings can be ground into powder, and the five-cereal food materials and the seasoning seasonings are well liked by users. However, in the actual use process of the food processor, the food material will splash and stick to the inner wall of the cooking cup after colliding with the grinding knife, and will not contact with the grinding knife any more, resulting in poor grinding effect.

In view of the above, the present invention provides a food processing apparatus, which can work independently and can be applied to a food processor, such as a wall breaking machine, a soybean milk machine, an electric cooker, etc. Referring to fig. 1 to 9, the food processing device of the present invention is applied to a food processor according to an embodiment of the present invention.

Referring to fig. 1 to 3, the food processing apparatus 100 of the present invention includes a main frame, a first processing cup assembly 100 and a second processing cup assembly 200, wherein the first processing cup assembly 100 is mounted on the main frame (not shown), the first processing cup assembly 100 are mounted on the main frame, and the first processing cup assembly 100 includes a first cup body 110; the second processing cup assembly 200 comprises a second cup body 210, the second processing cup assembly 200 is detachably arranged with the first cup body 110, and the second processing cup assembly 100 works when the second processing cup assembly 200 is installed in the first cup body 110; wherein, the rim of the second cup 210 faces downwards.

According to the technical scheme provided by the invention, the second processing cup assembly 200 works when being installed in the first cup body 110, so that various functions in the food processing device 100 can be directly switched for use, and the operation of a user is facilitated; the rim of the second cup 210 faces downward, so that the rim can be at least shielded by the bottom of the first cup 110, and the food material in the second cup 210 is prevented from being splashed into the first cup 110 due to being driven, which results in poor processing effect.

In addition, in an embodiment, the first processing cup assembly 100 further includes a first working member 120 extending into the first cup 110, the first working member 120 is used for performing a processing function of the first processing cup assembly 100, and the first working member 120 includes a connecting portion 121; the second processing cup assembly 200 further comprises a second working component 220 disposed on the second cup 210, the second working component 220 is used for implementing a processing function of the second processing cup assembly 200, and the second working component 220 comprises a butt joint part 221; wherein the connecting portion 121 and the abutting portion 221 are drivingly coupled to link the first working member 120 and the second working member 220 when the second processing cup assembly 200 is installed in the first cup 110.

It can be understood that the connecting portion 121 and the docking portion 221 are equivalent to a clutch structure which is used in cooperation with each other, and when the second processing cup assembly 200 is installed in the first cup 110, the connecting portion 121 and the docking portion 221 are coupled in a transmission manner, so that various functions in the food processing device 100 can be directly switched to use without additional structural disassembly and assembly, and the use experience is improved.

The host machine is not limited in its embodiment, and in this embodiment, includes a housing (not shown) defining a mounting cavity (not shown) for mounting the first and second processing cup assemblies 100, 200.

In addition, the main body further includes a driving member (not shown) installed in the installation cavity and connected to the connection portion 121 of the first working member 120. The driving component includes, for example, a driving motor, and a power output shaft of the driving motor may be directly connected to the connection portion 121, or connected to the connection portion 121 through a coupling or a speed governor; the driving part can also comprise a transmission mechanism according to actual needs, and the driving motor is connected with the connecting part 121 through the transmission mechanism. The specific expression of the transmission mechanism is not limited, and the transmission mechanism can be a gear transmission mechanism, a worm and gear mechanism, an electromagnetic driving mechanism or the like. Wherein, the electromagnetic drive structure can include the driving disc of installing main drive magnet and install the secondary drive disc with the magnetic fit structure 320 of main drive magnet absorption, this driving disc is rotated by the driving motor drive, and the driving disc is located the host computer, and the secondary drive disc is installed in first working member 120, and connects connecting portion 121 of first working member 120. Of course, when the output form of the connection portion 121 is a rotation output, the power output shaft of the driving motor may directly constitute the connection portion 121.

In addition, the host machine further includes other functional components, for example, the host machine further includes a heat dissipation fan (not shown in the drawings) for blowing a heat dissipation airflow to the driving component, the first working component 120, and/or the second working component 220; the main machine may further include a control circuit board (not shown), and the control circuit board is electrically connected to the driving component, the first working component 120 and/or the second functional component, so as to facilitate control of the first processing cup assembly 100, the second processing cup assembly 200, and the like. The food processor of the invention can also comprise a control panel (not marked in the figures) electrically connected with the control circuit board, and when the food processor is used, the control circuit board can control and start the corresponding functions by operating the function buttons on the control panel.

The first working component 120 comprises a first functional mechanism and a connecting part 121, wherein at least part of the first functional mechanism extends into the first cup 110 and is used for processing food materials in the first cup 110; similarly, the second working member 220 includes a second functional mechanism and a butt-joint portion 221, wherein the second functional mechanism at least partially extends into the second cup 210 for processing the food material in the second cup 210. At least a portion of the connecting portion 121 extends into the first cup 110, and at least a portion of the docking portion 221 is exposed outside the second cup 210, so that the docking portion 221 can be directly drivingly coupled to the connecting portion 121 when the second processing cup assembly 200 is disposed in the first cup 110.

The concrete expression of the first functional mechanism and the second functional mechanism is not limited, and in the concrete application, the first functional mechanism and the second functional mechanism can be respectively a stirring component, a grinding component, a turning component, an extrusion component, a cleaning component and the like; based on this, the first functional mechanism may be provided as the same as the second functional mechanism, but with different emphasis and effect, for example, both the first functional mechanism and the second functional mechanism may be provided as a grinding assembly, wherein the grinding assembly of the first functional mechanism may be used for rough grinding and the grinding assembly of the second functional mechanism may be used for finish grinding; or the grinding assembly of the first functional mechanism can be used for grinding soft and wet food materials, and the grinding assembly of the second functional mechanism can be used for grinding hard and dry food materials, and the like.

Of course, as shown in the embodiment of fig. 1 to 9, the first functional mechanism may be configured differently from the second functional mechanism, for example, the first functional mechanism is configured as the stirring component 122, and the second functional mechanism is configured as the grinding component 222, so that the food material ground by the grinding component 222 in the second cup 210 can be put into the first cup 110, and stirred and mixed by the stirring component 122, for example, for soybean milk, vegetable juice, fruit juice, meat pulp, etc.; alternatively, the mixed food materials in the stirring assembly 122 of the first cup 110 may be placed in the second cup 210 and ground by the grinding assembly 222, for example, for grinding soy milk particles, coffee beans, cereals, and the like. The specific structure of the grinding assembly 222 and the stirring assembly 122 is not limited and will not be described herein.

The shape, size, material, and other configurations of the first cup 110 and the second cup 210 are not limited, but may be configured to fit the first functional mechanism and the second functional mechanism, respectively, and for example, when the first cup 110 or the second cup 210 is used to mix food, the first cup 110 or the second cup 210 may be substantially cylindrical.

The specific structure of the connecting portion 121 and the abutting portion 221 is similar to that of the first functional mechanism and the second functional mechanism, for example, in the following embodiments, the first functional mechanism is the stirring assembly 122, the second functional mechanism is the grinding assembly 222, and both the connecting portion 121 and the abutting portion 221 may be provided in a rotating shaft shape.

Based on the above, after the second processing cup assembly 200 is installed in the first cup body 110, the connecting portion 121 may be directly coupled to the abutting portion 221 in a driving manner, but it should be noted that this does not limit the respective working sequence of the first processing cup assembly 100 and the second processing cup assembly 200, and it can be understood that the stirring assembly 122 in the first processing cup assembly 100 and the grinding assembly 222 in the second processing cup assembly 200 may be configured to work in a linkage manner or work independently according to actual needs. The transmission coupling between the connecting portion 121 and the abutting portion 221 may be a contact type or a non-contact type. The contactless connection can be made, for example, by the action of a magnetic field. However, for the sake of easy understanding, in the following embodiments, the connection portion 121 and the abutting portion 221 are both designed to be in the shape of a rotating shaft, and are directly connected by contact coupling.

The rim of the second cup 210 is arranged downward, that is, the cup body of the second cup 210 is inverted, so that in the working process, the food material in the second cup 210 after being disturbed by the grinding assembly 222 does not splash upwards and adhere to the first cup 110, and the food material can be ensured to be kept in the second cup 210 and acted by the grinding assembly 222, which is beneficial to improving the grinding effect of the food material.

It should be noted that the second processing cup assembly 200 may be installed into the first cup 110 from any suitable orientation, i.e., the first cup 110 may have an installation opening at any orientation, such as at the top, side, or bottom of the first cup 110, for the second processing cup assembly 200 to be installed. However, for the sake of understanding, in the following embodiments, the mounting opening (which may be the opening of the first cup 110) is formed on the top of the first cup 110, and the second processing cup assembly 200 is mounted into the first cup 110 from top to bottom. In this case, the up-down direction may be a vertical direction or a direction inclined at a certain angle with respect to the vertical direction.

Specifically, the second processing cup assembly 200 may include a cover assembly 230, and the cover assembly 230 and the rim of the second cup 210 are covered, and the connection manner of the cover assembly 230 and the rim of the second cup 210 may be a threaded connection, a snap connection, an absorption fixation, and the like. The cover assembly 230 can be used for stably mounting the second working member 220, and can shield the food material in the second cup 210 to prevent the food material from leaking downward.

Of course, in other embodiments, the second processing cup assembly 200 may not include the cover assembly 230, and the second cup 210 disposed in the open manner is directly turned upside down in the first cup 110, and the food material is added into the second cup 210 after the butt joint portion 221 is in transmission coupling with the connection portion 121; after the food material in the second cup 210 is ground by the grinding assembly 222, the food material in the second cup 210 can be transferred to the first cup 110 by directly lifting the second cup 210 upward.

Referring to fig. 3, in an embodiment, the inner cavity of the second cup 210 is gradually enlarged from top to bottom, which is approximately represented by a smaller top and a larger bottom, that is, the sectional area of the upper section of the second cup 210 is smaller and the sectional area of the lower section is larger. The inner cavity of the second cup body 210 is gradually enlarged from top to bottom, so that the food material is not easy to adhere to the inner cavity wall of the second cup body 210, and can be fully contacted with the second working component 220 extending into the second cup body 210, thereby facilitating further optimization of the processing effect.

It should be noted that the outer sidewall of the second cup 210 can be consistent with the shape of the inner cavity of the second cup 210, so as to ensure that the thickness of the wall of the second cup 210 is uniform; of course, the outer sidewall of the second cup 210 may be substantially straight, such that the thickness of the second cup 210 gradually decreases from top to bottom.

Further, in an embodiment, the inclination angle of the inner cavity wall of the second cup 210, i.e. the angle B in fig. 3, is not less than 1 ° and not more than 10 °. It can be understood that if the value of the angle B is too small, far less than 1 °, the gradual expansion effect of the inner cavity of the second cup 210 is not obvious, and the above mentioned optimization effect is weakened; prevent, if the value of angle B is too big, is far greater than 10, then influence the volume of second cup 210 easily, influence second cup 210 to the holding capacity of eating the material, reduce grinding assembly 222's grinding effect space, and be difficult for the cup body stable. Tests prove that when the angle B is between 1 and 10 degrees, the grinding effect can be improved by 15 to 30 percent under the same conditions by combining the downward arrangement of the second cup body 210 with the cup mouth.

It should be noted that the divergent arrangement, that is, the inclined arrangement of the inner cavity wall of the second cup 210, can be realized by defining the draft angle of the inner cavity wall of the second cup 210 during the process of manufacturing the second cup 210, or can be realized by other ways, which is not described in detail herein.

Referring to fig. 1 to 2, in an embodiment, the food processing apparatus 100 includes a positioning structure 310 and a matching structure 320, wherein the connecting portion 121 and the abutting portion 221 have a contact surface for transmission coupling, the positioning structure 310 is disposed on the contact surface of the connecting portion 121, the matching structure 320 is disposed on the contact surface of the abutting portion 221, and when the connecting portion 121 and the abutting portion 221 are transmission coupled, the positioning structure 310 and the matching structure 320 are mutually positioned and matched to fix the second processing cup assembly 200 and the first cup 110 relatively in the circumferential direction of the first cup 110.

When the second processing cup assembly 200 is inserted into the first cup 110 and the connection portion 121 is coupled with the abutting portion 221, the second processing cup assembly 200 is relatively fixed with the first cup 110 in the circumferential direction of the first cup 110. Through relatively fixing the second processing cup assembly 200 and the first cup body 110 in the circumferential direction of the first cup body 110, the second processing cup assembly 200 does not rotate integrally in the process of grinding the food materials, manual control or external auxiliary equipment is not needed in the grinding process to fix the second processing cup assembly 200, and the process is more convenient to use.

Further, referring to fig. 6 and 7, in an embodiment, one of the positioning structure 310 and the matching structure 320 is a boss 311, and the other is a groove 321. The boss 311 and the recess 321 can be in concave-convex fit, so as to position the installation of the connecting portion 121 and the abutting portion 221, which helps to improve the efficient and accurate coupling between the connecting portion 121 and the abutting portion 221. In addition, compared with the scheme that the connection portion 121 and the abutting portion 221 directly make a flat surface contact, the arrangement of the boss 311 and the groove 321 can increase the contact area between the connection portion 121 and the abutting portion 221, which is beneficial to the stable coupling of the connection portion 121 and the abutting portion 221. The rotation-stopping fit of the boss 311 and the groove 321 is more beneficial to simplifying the rotation-stopping fit structure 320 and improving the fit accuracy of the rotation-stopping fit structure 320 compared with the rotation-stopping fit directly performed between the connecting portion 121 and the abutting portion 221. The specific expression of the boss 311 and the groove 321 is not limited, and the sectional shape of the boss 311 can be set to be substantially circular, elliptical, polygonal, or other irregular shapes, etc. taking the boss 311 as an example.

The schemes for realizing the rotation stop fit between the boss 311 and the groove 321 are various:

referring to fig. 6 to 7, in an embodiment, the radial cross section of the axial protrusion 311 is a polygonal shape, which may be, but is not limited to, a triangle, a quadrangle, etc.; the shape of the groove 321 is matched with the axial convex 311, for example, in this embodiment, the radial cross-sectional shape of the groove 321 may be approximately square, and the groove is matched with the axial convex 311 which is also square, and the axial convex 311 can be effectively prevented from rotating relative to the groove 321 by the limitation of the inherent edge angle in the square, and the groove has the characteristic of simple structure forming.

In an embodiment, one of the outer wall of one side of the shaft protrusion 311 and the inner wall of the groove 321 is provided with a protruding rib (not shown in the drawings), and the other is provided with a clamping groove 322 for clamping and fixing the protruding rib. Because the clamping rib and the clamping groove 322 are arranged at one side part between the shaft protrusion 311 and the groove 321 and do not extend along the circumferential direction of the shaft protrusion and the groove, when the clamping groove 322 clamps the fixed clamping rib, the position of the shaft protrusion 311 and the position of the groove 321 in the circumferential direction are relatively fixed, and the rotation stopping effect is achieved.

It can be understood that the specific representation of the locking rib and the locking groove 322 is not limited, and the shape of the locking rib is not limited, for example, the locking rib is disposed on the boss 311, and the cross-sectional shape of the locking rib may be circular, oval, polygonal, or other irregular shapes. The cross-sectional area of the rib may be gradually increased or decreased in a direction away from the side surface of the boss 311. The number of the clamping ribs is not limited, and may be continuously arranged in one or discontinuously arranged in a plurality along the axial direction of the shaft protrusion 311; of course, a plurality of the shaft protrusions 311 may be provided intermittently in the circumferential direction.

The card muscle can with the protruding 311 integrated into one piece of axle sets up, also can with the protruding 311 components of a whole that can function independently sets up of axle, wherein, works as the card muscle with when the protruding 311 components of a whole that can function independently sets up of axle, the card muscle can be made by the elasticity material, with the card muscle with during the cooperation of draw-in groove 322, produce the elastic force between the two, help strengthening the card to hold the effect, prevent structural damage.

In an embodiment, referring to fig. 8, a one-way bearing 323 is installed in the groove 321, and the boss 311 is sleeved with the one-way bearing 323. It will be appreciated that the one-way bearing 323 can only carry axial loads and not radial loads, which limits relative rotation between the abutment 221 and the connection 121 when the boss 311 is in socket engagement with the one-way bearing 323. The specific structure of the one-way bearing 323 is not limited, for example, the one-way bearing 323 generally includes an outer ring, a cage disposed inside the outer ring and used for positioning a plurality of needle rollers distributed along the circumferential direction of the outer ring. The outer ring is fixedly connected in the groove 321. Since the technology of the one-way bearing 323 is mature, the detailed structure and principle thereof are not described herein.

It should be noted that, the rotation-stopping matching schemes within the above rotation-stopping matching schemes may be set alternatively, or at least two of them may be selected to be combined according to actual needs, for example, in fig. 6 to 7, the radial cross-sectional shape of the groove 321 may be set to be rectangular, and a clamping groove 322 is respectively disposed at the groove wall of four sides of the groove 321, correspondingly, the radial cross-sectional shape of the axial protrusion 311 is rectangular, and a clamping rib is respectively disposed at the edge of four sides of the axial protrusion 311, and the connection portion 121 and the butt portion 221 are circumferentially fixed relatively by the rotation-stopping matching between the axial protrusion 311 and the groove 321, and the rotation-stopping matching between the clamping rib and the clamping groove 322.

Referring to fig. 8 to 9, when the boss 311 and the recess 321 are engaged with each other by the one-way bearing 323 for rotation prevention, for convenience of understanding, the boss 311 is defined to include an engaging section 311b and a guiding section 311a connected in sequence in a direction close to the one-way bearing 323:

in an embodiment, the end surface of the guide segment 311a is in a shape of a curved surface, a rounded corner, or a chamfer. Specifically, the cambered surface can be a cambered surface with any radian, and can also be a hemispherical surface; the fillet and the chamfer are both arranged along the circumferential direction of the guide section 311a in an extending manner; cambered surface form, fillet or chamfer setting all can the terminal surface of boss 311 or be close to terminal surface department and form the spigot surface, make and work as boss 311 pegs graft extremely during the hole of one-way bearing 323, through the spigot surface with relative slip between the one-way bearing 323 can be downthehole with the guide of boss 311 to the inner bore of one-way bearing 323, conveniently do benefit to the quick grafting of boss 311 in recess 321.

And/or, in an embodiment, the outer diameter of the guide section 311a is not larger than the inner diameter of the one-way bearing 323 at the position. The position refers to any position through which the guide section 311a passes when the guide section 311a is inserted into the inner hole of the one-way bearing 323, so that the guide section 311a can be smoothly inserted into the one-way bearing 323, interference between the guide section and the one-way bearing 323 is avoided, and the insertion operation is prevented from being performed. The inner bore of the one-way bearing 323 may be a straight bore, i.e., the bore diameter is kept substantially constant along the bore depth direction, and at this time, the outer diameter of the guide section 311a is not smaller than the inner diameter of the one-way bearing.

And/or, in an embodiment, the length C of the guide segment 311a is not less than 2mm. It can be understood that the guide section 311a is not suitable to be too long, because the outer diameter of the guide section 311a is generally not larger than the inner diameter of the one-way bearing 323 at the position, after the shaft boss 311 is sleeved with the one-way bearing 323, the too long guide section 311a easily reduces the lateral abutting area of the shaft boss 311 and the one-way bearing 323, resulting in unstable installation; conversely, the guide section 311a should not be too short, and the guide section 311a with too short length has a limited guide effect.

And/or, in an embodiment, the outer circumference shape and size of the fitting section 311b are matched with the inner circumference shape and size of the one-way bearing 323 at the position. After the boss 311 is fitted to the one-way bearing 323, the fitting section 311b is directly abutted to and fitted to the inner hole of the one-way bearing 323, and therefore, by adapting the outer peripheral shape and size of the fitting section 311b to the one-way bearing 323, the contact area between the boss 311 and the one-way bearing 323 can be increased as much as possible, which further contributes to the stable connection between the boss 311 and the one-way bearing 323, that is, between the connecting portion 121 and the abutting portion 221.

And/or, in an embodiment, the length D of the mating segment 311b is not less than 4mm. To a certain extent, the longer the length of the fitting section 311b is, the larger the contact area between the shaft protrusion 311 and the one-way bearing 323 is, and the more stable the connection is; however, if the length of the engaging section 311b is too long, the overall size of the mechanism is likely to increase, and if the length of the engaging section 311b is too long but the outer diameter is still small, the structure of the boss 311 is likely to be thin and long, and the connection strength between the connecting portion 121 and the abutting portion 221 is likely to decrease to some extent.

As for each feature of the guiding section 311a and the matching section 311b, a setting can be selected according to the actual application requirement, or at least two settings can be selected, so as to achieve a better effect.

Next, in an embodiment, a side wall of one end of the boss 311 away from the groove 321 is provided with a limiting step 311c in a protruding manner, and the limiting step 311c may be arranged to be continuous along a circumferential direction of the boss 311 to form an annular step; a plurality of the axial protrusions 311 can be arranged intermittently along the circumferential direction; of course, the limit step 311c may be provided as one. The limiting step 311c is used for abutting against the notch of the groove 321 when the shaft protrusion 311 is matched with the groove 321, so that the end surface of the shaft protrusion 311 is spaced from the bottom surface of the groove 321. It can be understood that, when the end surfaces of the limiting steps 311c at the notches of the grooves 321 are abutted, the insertion of the boss 311 can be limited, and a spacing distance is reserved between the end surface of the boss 311 and the bottom surface of the groove 321, so that the end surface of the boss 311, that is, the end surface of the guide section 311a, cannot be directly abutted against the bottom surface of the groove 321, and therefore mutual collision between the end surface of the boss 311 and the bottom surface of the groove in the using process is avoided, friction loss is generated, and connection instability of the connecting portion 121 and the abutting portion 221 is easily caused.

Further, in an embodiment, the distance E between the end surface of the boss 311 and the bottom surface of the groove 321 is not less than 2mm, so as to avoid interference between the boss 311 and the groove 321, and facilitate safe assembly of the two. It can be understood that if the distance E is much less than 2mm, the distance is easily offset when the limit step 311c is worn or deformed, and the end surface of the boss 311 is caused to directly contact with the groove bottom surface of the groove 321; on the contrary, the distance E should not be set too large, and if the distance E is set too large, the setting lengths of the guide section 311a and the fitting section 311b are easily reduced, which affects the guiding effect of the guide section 311a and causes unstable installation of the boss 311 on the one-way bearing 323.

In addition, referring to fig. 6 to 7, in an embodiment, the connection portion 121 and the abutting portion 221 are in contact coupling connection, that is, at least a portion of the connection portion 121 and the abutting portion 221 are connected, and may be in movable contact or fixed connection. A first cushion 400 is disposed at a connection between the connection portion 121 and the abutting portion 221.

Specifically, the first cushion 400 may be made of rubber or silica gel, which has elasticity. The first shock absorbing pad 400 may be disposed inside the groove 321 or outside the boss 311, and particularly, when the boss 311 and the groove 321 are made of hard materials, the first shock absorbing pad 400 is disposed such that shock collision energy between the connection portion 121 and the abutting portion 221 is absorbed and buffered, thereby facilitating reduction of structural loss therebetween and reducing noise. In addition, the first shock pad 400 that sets up between recess 321 and the axle nose 311 can provide sufficient elasticity pretightning force and frictional force for the junction between the two when axle nose 311 pegs graft to in the recess 321, avoids producing relative displacement between the two, leads to rocking.

Referring to fig. 5 to 6, in an embodiment, one of the inner sidewall of the first cup body 110 and the outer sidewall of the second cup body 210 is protruded with a positioning rib 510, and the other one is provided with a locking groove 520, so that when the second processing cup assembly 200 is installed in the first cup body 110, the locking groove 520 is locked with the positioning rib 510. Specifically, the drawings take an example in which the inner sidewall of the first cup 110 is provided with a positioning rib 510, and the outer sidewall of the second cup 210 is provided with a retaining groove 520. The positioning rib 510 is clamped with the clamping groove 520, so as to ensure that the second cup body 210 is accurately and stably installed in the first cup body 110, which is helpful for the functional operation of the first processing cup assembly 100 and the second processing cup assembly 200.

Further, a second shock pad 600 is disposed at a matching position between the positioning rib 510 and the positioning groove 520, and the second shock pad 600 may be specifically disposed in the positioning groove 520 and/or outside the positioning rib 510. Like the first cushion 400, the first cushion 400 may be made of rubber or silica gel, which has elasticity, so that the structural loss between the positioning rib 510 and the clamping groove 520 may be reduced, and the noise may be reduced.

The specific structure of the locking groove 520 and the positioning rib 510 is not limited, and in one embodiment, the locking groove 322 has a front direction and a rear direction in the rotation direction of the abutting portion 221; the preceding lateral wall in screens groove 520 reaches the back lateral wall homogeneous phase in screens groove 520 is relative the tank bottom in screens groove 520 is the slope setting, wherein, the angle of inclination of the preceding lateral wall in screens groove 520 is greater than the angle of inclination of the back lateral wall in screens groove 520. With such an arrangement, when the second cup body 210 is mounted in the first cup body 110, the positioning rib 510 can slide forward into the clamping groove 520, so that the mounting and alignment are easier; the front side wall can limit the second cup body 210 forward, so that forward displacement caused by the rotation force between the connection part 121 and the abutting part 221 of the second cup body 210 is avoided, and stable installation of the second cup body 210 in the first cup body 110 is facilitated.

In addition, referring to fig. 1 to 4, in an embodiment, the first processing cup assembly 100 further includes a lid 130, the lid 130 is adapted to the rim of the first cup 110, and when the second processing cup assembly 200 is mounted in the first cup 110, the lid 130 covers the rim of the first cup 110 and presses against the bottom of the second cup 210.

The lid 130 is movably mounted to the housing structure of the first processing cup assembly 100 in any suitable manner, such as by rotatably mounting one end of the lid 130 to the housing structure of the first processing cup assembly 100, such that the lid 130 can be flipped in a direction toward the first cup 110 and flipped in a direction away from the first cup 110; alternatively, the lid 130 is slidably mounted to the housing structure of the first processing cup assembly 100 such that the lid 130 is capable of translating toward the first cup 110 and translating away from the first cup 110.

When second processing cup subassembly 200 is installed to first cup 110 in, the bottom of cup of first cup 110 can carry out downwards spacing to second processing cup subassembly 200, and it is spacing that above-mentioned splines cooperation structure 320 can carry out circumference to second processing cup subassembly 200, and the setting of bowl cover 130, then can be right second processing cup subassembly 200 carries out spacing upwards, avoids second processing cup subassembly 200 upwards deviates from in the course of the work first cup 110.

Specifically, a recess 211 is formed in the bottom of the second cup 210 by recessing downward, the lid 130 is provided with an abutting protrusion 131 corresponding to the recess 211, and the abutting protrusion 131 is pressed in the recess 211 when the second processing cup assembly 200 is mounted in the first cup 110. The cooperation of the recess 211 and the abutting projection 131 helps to optimize the abutting effect of the lid 130 on the second cup 210.

Further, in one embodiment, the notch 211 is tapered from top to bottom. That is, the inner side wall of the notch 211 is gradually inclined from top to bottom toward the center of the notch 211; the structure of the abutting protrusion 131 is matched with that of the notch 211, so that when the abutting protrusion 131 is matched with the notch 211, the direct abutting force of the abutting protrusion 131 and the notch 211 is more concentrated at the position close to the center of the notch 211, which is beneficial to further enhancing the abutting effect of the abutting protrusion 131 on the notch 211.

Of course, the same as the first and second shock absorbing pads 400 and 600, the direct abutting part between the abutting protrusion 131 and the notch 211 can also be a shock absorbing pad, so that the lid 130 is elastically pressed on the second cup 210.

Referring to fig. 1 to fig. 3, in an embodiment, the first working component 120 further includes a stirring assembly 122 connected to the connecting portion 121, that is, the first cup body 110 forms a stirring cup, the stirring assembly 122 at least includes a stirring blade, and the stirring blade may be integrally formed with the connecting portion 121, or may be fixedly connected to the connecting portion 121 through a connecting structure; the second working member 220 further includes a grinding assembly 222 connected to the abutting portion 221, the grinding assembly 222 extends into the second cup 210, that is, the second cup 210 constitutes a grinding cup, the grinding assembly 222 at least includes a grinding blade, and the grinding blade can be integrally formed with the abutting portion 221, or can be fixedly connected to the abutting portion 221 through a connecting structure.

Second processing cup subassembly 200 is installed to when in the first cup 110, stirring subassembly 122 activity is located the below of second processing cup subassembly 200 for the setting of stirring subassembly 122 and the installation operation between the second processing cup subassembly 200 are mutually noninterfere, and, locate the stirring subassembly 122 of the bottom of first cup 110, more be favorable to subsiding to carrying out abundant stirring to the edible material of first cup 110 bottom and mix.

Based on the above, food processing device 100 still can include the valve gear of arranging thick liquid, and the relief hole has been seted up to first cup 110, arranges thick liquid valve gear and installs in the cup outer wall lateral part of first processing cup subassembly 100, arranges thick liquid valve gear and includes the valve body, and the valve body is used for controlling the relief hole to switch on to can discharge the edible material in the first cup 110 as required. And in order to realize convenient washing, the valve body can be taken out from the side direction for first processing cup subassembly 100 for arrange the structure of thick liquid valve device and can conveniently dismantle from first processing cup subassembly 100, so can conveniently wash the valve body, get rid of remaining edible material residue, reduce the production of bacterium, improved food sanitation security nature.

In addition, the present invention further provides a food processor 1, wherein the food processor 1 includes a food processing device 100, the food processing device 100 includes a main machine, a first processing cup assembly 100 and a second processing cup assembly 200, wherein the first processing cup assembly 100 is mounted on the main machine, the first processing cup assembly 100 includes a first cup body 110 and a first working component 120 extending into the first cup body 110, and the first working component 120 includes a connecting portion 121; the second processing cup assembly 200 comprises a second cup 210 and a second working member 220 arranged on the second cup 210, the second working member 220 comprises a butt joint part 221, the second processing cup assembly 200 is detachably arranged on the first cup 110, and when the second processing cup assembly 200 is installed in the first cup 110, the connecting part 121 and the butt joint part 221 are in transmission coupling to link the first working member 120 and the second working member 220; wherein the rim of the second cup 210 faces downward.

It should be noted that, for the detailed structure of the food processing device 100 in the food processor 1, reference may be made to the above-mentioned embodiment of the food processing device 100, and details are not described herein; since the food processor 1 of the present invention uses the food processing device 100, the embodiment of the food processor 1 of the present invention includes all technical solutions of all embodiments of the food processing device 100, and the achieved technical effects are also completely the same, and are not described herein again.

In addition, the invention also provides a using method of the food processor 1, and the food processor 1 can refer to the specific embodiment of the food processor 1.

Referring to fig. 10, the first embodiment of the using method of the food processor 1 provided by the present invention specifically includes the following steps:

step S10: a food processor 1 is provided, said food processor 1 comprising a first processing cup assembly 100 and a second processing cup assembly 200, said first processing cup assembly 100 comprising a blending cup (see first cup 110 in the drawings) and a first working member 120, said second processing cup assembly 200 comprising a grinding cup (see second cup 210 in the drawings) comprising a cup body and a cover assembly 230 and a second working member 220;

in the present embodiment, the food processor 1 includes a first processing cup assembly 100 and a second processing cup assembly 200, the first processing cup assembly 100 includes a stirring cup and a first working member 120, the first working member 120 at least partially extends into the stirring cup, the first working member 120 includes a driving shaft (please refer to the connection part 121) and a stirring assembly 122, the second processing cup assembly 200 includes a grinding cup and a second working member 220, the second working member 220 is disposed in the grinding cup, the second working member 220 includes a connection shaft (please refer to the butt part 221) and a grinding assembly 222, the grinding cup includes a cup body and a cover assembly 230, the cover assembly 230 covers a cup mouth of the cup body, and at least the connection shaft and the grinding assembly 222 of the second working member 220 are mounted to the cover assembly 230, which enables the cover assembly 230 to seal and cover the grinding cup, and enables the second processing cup assembly 200 to be positioned and mounted in the stirring cup body, and enables the mounting between the second working member 220 and the first working member 120.

Step S20: after food materials are added into the grinding cup body, the grinding cup body is covered by the cover body assembly 230;

in this embodiment, the grinding cup is separated from the stirring cup, the cup body is separated from the cover body assembly 230, and the cup opening of the cup body faces upward, so that a user can add any food material to be ground into the grinding cup conveniently, the type and state of the food material are not limited, the food material can be directly five cereals such as soybeans, and the food material can also be mixed according to a preset mixture ratio; the granular material may be in the form of solid particles or a mixture of solid and liquid. When all adding to as required edible material grind in the cup, user operation lid body set spare 230 closes the cup, realizes the sealed of edible material in the cup.

Step S30: turning the grinding cup with the food materials added to the grinding cup to a cup mouth downward and installing the grinding cup into the stirring cup through the cover body assembly 230;

in this embodiment, the user first turns the grinding cup so that the mouth of the grinding cup faces downward, i.e., so that the cover assembly 230 faces downward, then moves the second processing cup assembly 200 into the mixing cup as a whole, installs the cover assembly 230 into the mixing cup during the movement or after positioning the grinding cup in the mixing cup, and operates the connecting shaft to couple with the driving shaft.

Step S40: operating the first working member to drive 120 the second working member 220 to work so as to grind the food material in the grinding cup;

in this embodiment, the user enables the first operating member 120, and it should be noted that, when the first operating member 120 is enabled, at least the driving shaft may be rotated, but it is not mandatory that the driving shaft necessarily drives the stirring assembly 122 to rotate, the stirring assembly 122 may be detachably connected to the driving shaft, the stirring assembly 122 may be driven by the driving shaft to operate when needed, and when not needed, the driving shaft may be rotated while the stirring assembly 122 is not operated. When the rotating shaft rotates, the rotating shaft can drive the connecting shaft coupled with the rotating shaft to rotate, and the grinding assembly 222 is arranged on the connecting shaft, so that the grinding assembly 222 works to grind the food materials in the grinding cup; the specific working mode of the grinding assembly 222 is not limited, and different grinding durations and grinding effects can be adjusted according to different food materials, which is not described herein again.

Step S50: after stopping the first working member 120, when the ground food material in the grinding cup needs to be used, the grinding cup can be taken out from the stirring cup, turned over until the cup opening faces upwards, and the cover assembly 230 is opened for use.

It is understood that after the grinding assembly 222 finishes grinding the food material in the grinding cup, the user can manually stop the first working member 120, or automatically stop the first working member 120 after a preset time period or after monitoring that the food material in the grinding cup is ground to a preset state. After the rotating shaft is decelerated to the set installation rotating speed, the user can integrally detach the second processing cup assembly 200 from the stirring cup, then turn over the stirring cup until the cup mouth faces upwards, and wait for the subsequent use operation of the grinding cup.

Next, referring to fig. 11, in a second embodiment of the method for using the food processor 1 according to the present invention, after the step S50, the method further includes:

step S61: eating the ground food material through the grinding cup; alternatively, the cover assembly 230 with the second working member 220 is replaced with a closure cover capable of closing only the grinding cup and stored for use.

It is understood that there are various ways to use the grinding cup after grinding, in one embodiment, when the food material in the grinding cup is a food material that can be directly eaten, such as vegetable juice prepared according to a predetermined ratio, the user can selectively open the cover assembly 230 from the cup body of the grinding cup, and eat the food material directly through the cup body; of course, the user may also optionally pour the foodstuff in the grinding cup into another common container for consumption; alternatively, in one embodiment, the user may remove the cover assembly 230 with the second working member 220 from the grinding cup body and replace it with another sealing cover, which may be configured as a common cover adapted to the grinding cup mouth, and is only used for sealing and covering the grinding cup; when the grinding cup is closed by the closure lid, the whole can be stored, for example, in a refrigerator for later use.

Next, referring to fig. 12, in a third embodiment of the method for using the food processor 1 according to the present invention, after the step S50, the method further includes:

step S62: and pouring the ground food material in the grinding cup into the stirring cup, and operating the first working component 120 to stir the food material in the stirring cup.

In this embodiment, when the material ground in the grinding cup is an intermediate material and needs to be stirred and mixed subsequently, the cover assembly 230 of the grinding cup may be opened and then tilted at a certain angle to be poured, so that the material ground in the grinding cup can be poured into the stirring cup in a systematic manner, or directly stirred, or mixed with other materials.

It is understood that the above control can be realized by the control of the control circuit board, the control circuit board includes a memory, a processor and a control program of the food processor 1 stored in the memory and running on the processor, and the control program of the food processor 1 is configured to realize the steps of the using method of the food processor 1 as described above.

Furthermore, the present invention also provides a storage medium, wherein the storage medium stores a control program of the food processor 1, and the control program of the food processor 1 realizes the steps of the using method of the food processor 1 when being executed by a processor. Wherein, all memories, processors and storage media capable of implementing the above functions can be applied in the present invention, and are not limited herein.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (18)

1. A food processing device, comprising:

a host;

a first processing cup assembly mounted to the host, the first processing cup assembly including a first cup body; and (c) a second step of,

the second processing cup assembly comprises a second cup body, the second processing cup assembly and the first cup body are detachably arranged, and when the second processing cup assembly is installed in the first cup body, the second processing cup assembly works;

wherein, the rim of the second cup body is arranged downwards.

2. The food processing device of claim 1 wherein said first processing cup assembly further comprises a first working member extending into said first cup body, said first working member including a connecting portion;

the second processing cup assembly further comprises a second working component arranged on the second cup body, and the second working component comprises a butt joint part;

wherein the connecting portion and the docking portion are drivingly coupled to link the first working member and the second working member when the second processing cup assembly is mounted into the first cup.

3. The food processing device of claim 1, wherein the interior cavity of the second cup is tapered from top to bottom.

4. The food processing device of claim 3, wherein the inner cavity wall of the second cup is inclined at an angle of no less than 1 ° and no greater than 10 °.

5. The food processing device of claim 2, wherein the food processing device includes a positioning structure provided at the connecting portion and an engaging structure provided at the abutting portion, the positioning structure and the engaging structure being configured to engage when the connecting portion and the abutting portion are drivingly coupled such that the second processing cup assembly and the first cup are relatively fixed in a circumferential direction of the first cup.

6. The food processing device of claim 5, wherein one of the locating structure and the mating structure is a boss, and the other is a recess;

the shaft protrusion is matched with the groove in a rotation stopping manner.

7. The food processing device of claim 6 wherein said boss has a polygonal cross-section in radial cross-section, said recess being shaped to fit said boss; or,

one of them protruding card muscle that is equipped with of one side outer wall of the protruding axle with the inslot wall of recess, wherein another is equipped with the card and holds the card and fix the draw-in groove of card muscle.

8. The food processing device of claim 6 wherein a one-way bearing is mounted in said recess, said boss being journaled in said one-way bearing.

9. The food processing device of claim 8, wherein the boss includes a mating section and a guide section connected in series in a direction adjacent to the one-way bearing:

the end surface of the guide section is arc-surface-shaped, round-corner-shaped or chamfered; and/or the presence of a gas in the gas,

the outer diameter of the guide section is not larger than the inner diameter of the one-way bearing at the position; and/or the presence of a gas in the gas,

the length of the guide section is not less than 2mm; and/or the presence of a gas in the gas,

the shape and the size of the outer periphery of the matching section are matched with the shape and the size of the inner periphery of the one-way bearing at the position of the matching section; and/or the presence of a gas in the gas,

the length of the matching section is not less than 4mm.

10. The food processing device of claim 6, wherein a side wall of an end of the boss remote from the recess is convexly provided with a stop step for abutting against a notch of the recess when the boss is mated with the recess such that an end surface of the boss is spaced apart from a bottom surface of the recess.

11. The food processing device as claimed in claim 2, wherein the connecting portion is in contact coupling connection with the docking portion, and a first shock-absorbing pad is disposed at a connection between the connecting portion and the docking portion.

12. The food processing device of claim 1, wherein one of the inner sidewall of the first cup and the outer sidewall of the second cup has a positioning rib protruding therefrom, and the other of the inner sidewall and the outer sidewall of the second cup has a retaining groove for retaining the positioning rib when the second processing cup assembly is installed in the first cup.

13. The food processing device of claim 1, wherein the first processing cup assembly further comprises a lid that fits over an opening in the first cup and presses against a bottom of the second cup when the second processing cup assembly is installed in the first cup.

14. The food processing device of any of claims 2 to 13, wherein the first working member further comprises a stirring assembly coupled to the connecting portion, and the second working member further comprises a grinding assembly coupled to the docking portion, the grinding assembly extending into the second cup;

when the second processing cup assembly is installed in the first cup body, the stirring assembly is movably arranged below the second processing cup assembly.

15. A food processor comprising a food processing apparatus as claimed in any one of claims 1 to 14.

16. The use method of the food processor is characterized by comprising the following steps:

providing a food processor comprising a first processing cup assembly and a second processing cup assembly, the first processing cup assembly comprising a blending cup and a first working component, the second processing cup assembly comprising a grinding cup and a second working component, the grinding cup comprising a cup body and a cover assembly;

after food materials are added into the cup body of the grinding cup, the cup body is covered by the cover body assembly;

turning the grinding cup added with food materials to a state that the cup mouth is downward, and installing the grinding cup into the stirring cup through the cover body assembly;

the first working component is operated to drive the second working component to work so as to grind the food in the grinding cup;

after the first working component is stopped, when the food materials ground in the grinding cup need to be used, the grinding cup can be taken out from the stirring cup, turned over until the cup opening faces upwards, and the cover body assembly is opened for use.

17. The method of using a food processor as recited in claim 16, wherein said stopping of said first working member, when it is desired to use the ground food material in said grinding cup, removing said grinding cup from said blending cup and turning it upside down, and after opening said cover assembly for use, further comprising:

eating the ground food material through the grinding cup; alternatively, the cover assembly with the second working member is replaced with a closure cover capable of closing only the grinding cup and stored for use.

18. The method of using a food processor as recited in claim 16, wherein said stopping of said first working member, when it is desired to use the ground food material in said grinding cup, removing said grinding cup from said blending cup and turning it upside down, and after opening said cover assembly for use, further comprising:

and pouring the food materials ground in the grinding cup into the stirring cup, and operating the first working part to stir the food materials in the stirring cup.

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