CN211408747U - Chassis assembly and food processing apparatus - Google Patents

Abstract

The utility model provides a chassis subassembly and food processing apparatus, wherein, the chassis subassembly includes: a work plate assembly; and the two ends of the holding part are movably connected with the working disc component. The utility model provides a chassis subassembly is provided with swing joint's control portion on the work disc subassembly, and the control portion neither can influence the normal use of chassis subassembly, can facilitate for dismantling chassis subassembly again, and simple structure, convenient to use, and convenience of customers dismantles and installation operation.

Description

Chassis assembly and food processing apparatus

Technical Field

The utility model relates to a life electrical apparatus technical field particularly, relates to a chassis subassembly and a food processing apparatus.

Background

Present cooking product or heating broken wall machine for the cup bottom and knife tackle wash, have removable mode usually to design. In the related art, the knife set is detached and is taken out of the cup, so that the knife set is inconvenient to detach and easy to cause accidental injury to a user.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

To this end, a first aspect of the present invention is to provide a chassis assembly.

A second aspect of the present invention is to provide a food processing apparatus.

In view of this, according to an aspect of the present invention, there is provided a chassis assembly, including: a work plate assembly; the holding part is movably connected with the working disc component.

The utility model provides a chassis subassembly is including the work disc subassembly and the control portion that the cooperation was used, and wherein, control portion and work disc subassembly are movable connection, preferably are rotatable formula connection, through rotating control portion, can make control portion hide in chassis subassembly's inside, or make control portion protrusion in work disc subassembly. When the chassis component is used, the holding part is hidden in the chassis component, and the normal use of the chassis component cannot be influenced by the holding part; when the work disc assembly needs to be taken out for cleaning, the holding part is rotated to enable the holding part to protrude out of the work disc assembly, and at the moment, the chassis assembly can be taken down through the holding part so as to thoroughly clean the chassis assembly.

The utility model provides a chassis subassembly is provided with rotatable handle on the work disc subassembly, and the handle neither can influence the normal use of chassis subassembly, can facilitate for dismantling the chassis subassembly again, and simple structure, convenient to use, and convenience of customers dismantles and installation operation.

In addition, according to the utility model provides a chassis subassembly among the above-mentioned technical scheme, can also have following additional technical characteristics:

in the above-described aspect, preferably, the grip portion includes: a main body; the connecting parts are arranged at two ends of the main body and are rotatably connected with the working disc assembly.

In this technical scheme, the handle includes main part and connecting portion, and wherein, connecting portion are located the relative both ends of main part, and the both ends of main part pass through connecting portion and the rotatable formula of working disc subassembly is connected. When the chassis component is used, the main body is hidden at one side of the working disk component; when needs wash the work disc subassembly, drive connecting portion through the main part and rotate so that the main part protrusion work disc subassembly sets up, the main part can play the effect of handle this moment, and the dismantlement of the work disc subassembly of being convenient for conveniently carries out thorough cleaning to the work disc subassembly.

In any of the above technical solutions, preferably, the connection portion includes a first connection portion and a second connection portion connected to the first connection portion; wherein, first connecting portion and second connecting portion are located the both sides of main part or homonymy, and the rotation axis of first connecting portion and the relative eccentric settings of rotation axis of second connecting portion.

In the technical scheme, the connecting part comprises a first connecting part and a second connecting part, wherein the first connecting part is of a protruding structure or a groove structure facing the inner side of the main body, the second connecting part is protruding or recessed towards the outer side of the main body, the first connecting part is used for being connected with the working disc assembly, and the second connecting part is used for being arranged at a mounting part corresponding to the cup holder; or the first connecting part and the second connecting part are positioned on the same side of the main body. Through optimizing the relative position of first connecting portion and second connecting portion for the axis of rotation of first connecting portion and the relative off-centre setting of the axis of rotation of second connecting portion. Because the rotating axis of the first connecting part and the rotating axis of the second connecting part are relatively eccentric, the first connecting part and the second connecting part form an eccentric structure, and in the process of rotating the holding part, the first connecting part can provide a pressing force for the working disc assembly, so that the purpose of pressing the working disc assembly is achieved, and the stable installation of the working disc assembly is ensured.

In any of the above technical solutions, preferably, the first connecting portion and the second connecting portion are both cylinders, and the work disc assembly is provided with mounting holes connected with the connecting portions in a matched manner.

In this technical scheme, be connected first connecting portion and second and set up to the cylinder to be provided with the mounting hole of being connected with connecting portion cooperation on the work dish subassembly, the position and the shape looks adaptation of cylinder and mounting hole. In the use process, the column body is positioned in the mounting hole, so that the rotatable connection between the holding part and the mounting hole is realized.

In any one of the above technical solutions, preferably, the first connecting portion and the second connecting portion are both groove structures, and the work disc assembly is provided with a connecting column rotatably connected with the groove structures.

In this technical scheme, set up first connecting portion and second connecting portion into groove structure to be provided with the spliced pole of being connected with groove structure looks rotation on the work dish subassembly, spliced pole and groove structure's position and shape looks adaptation. In the use process, the connecting column is positioned in the groove structure, so that the rotatable connection of the holding part and the working disc component is realized.

In any of the above technical solutions, preferably, one of the first connecting portion and the second connecting portion is a cylinder, and the other is a groove structure.

In this technical scheme, set up one in first connecting portion and the second connecting portion as the cylinder, another sets up to groove structure. When the first connecting part is a cylinder, a mounting hole matched and connected with the cylinder is formed in the working disc component; when the first connecting part is of a groove structure, a connecting column which is rotatably connected with the groove structure is arranged on the working disc component so as to realize rotatable connection of the holding part and the working disc component.

In any of the above technical solutions, preferably, the holding part has a bent structure; the holding part further includes: the holding position is arranged on the main body.

In the technical scheme, in order to achieve the best disassembly and assembly effect, the holding part is of a bent structure, and the whole holding part is in a bent handle shape, so that the operation of a user is facilitated; the main body is provided with a holding position which is convenient for a user to hold so as to quickly disassemble and assemble the holding part.

In any of the above technical solutions, preferably, the method further includes: the cutter can be rotatably arranged on the working disc component, and the cutter and the holding part are respectively positioned at two sides of the working disc component.

In the technical scheme, a rotatable cutter is arranged on a working disc assembly, and the cutter is used for stirring and crushing food; the cutter is arranged towards the inner part of the food processing device, the holding part is arranged towards the outer part of the food processing device, and the cutter and the holding part are respectively positioned at two sides of the working disc component. When the convenience of disassembling the chassis component is improved, the interference between the holding part and the cutter is avoided, meanwhile, the contact between the holding part and food is avoided, and the sanitation of the food is ensured.

In any of the above solutions, preferably, the work disc assembly comprises: the holding part is rotatably connected with the bracket; the working disc is arranged on the support, and the cutter is arranged on the working disc.

In the technical scheme, the device comprises a bracket and a working disc, wherein the bracket is positioned on the peripheral side of the working disc and provides an installation position for a holding part; the working plate is used for generating heat in the food processing process so as to process the food.

Specifically, the working plate and the support can be arranged into an integrated structure or a split structure. Furthermore, the working plate can be a heating plate, so that food to be heated can be conveniently heated.

In any of the above technical solutions, preferably, the bracket includes: the working disc is arranged on the mounting seat; the mounting frame is connected with the mounting seat, the holding part is configured to be arranged on the mounting frame, a concave part is arranged on the mounting frame on one side of the holding part, and the holding part can be in lap joint with the concave part in a rotating mode; the first limiting part is arranged on the mounting frame positioned on the other side of the holding part, and the limiting bulge is used for limiting the rotation angle of the holding part; and the second limiting piece is arranged on the peripheral side of the recessed part and used for limiting the holding part.

In this technical scheme, the support includes mount pad and mounting bracket, and the mount pad is used for installing the working disc, and the mounting bracket is used for installing the holding portion, and mount pad and mounting bracket are preferably integral type structure. Furthermore, the mounting rack is positioned at two sides of the holding part, the height of the mounting rack is different, one side of the mounting rack is provided with a concave part, and when the chassis component is in a mounting state, the holding part can be accommodated in the concave part, so that the occupied space of the chassis component is reduced; furthermore, a second stopper is disposed on the circumferential side of the recessed portion, the second stopper preferably has a protruding structure protruding from the circumferential side of the recessed portion, the number of the second stoppers may be one or more, and the holding portion is continuously rotated toward the mounting base by the second stoppers, so that occurrence of mounting interference and the like is avoided. Furthermore, a first limiting part is also arranged on the outer side wall of the other side of the mounting bracket, the rotation of the holding part towards the side is limited, the rotation angle of the holding part can be further limited, and different rotation angles can be limited by the arrangement position of the first limiting part. Preferably the angle of rotation is 0 to 90 degrees. According to a second aspect of the present invention, there is provided a food processing apparatus comprising: a cup body assembly; and if the utility model discloses the chassis subassembly of any one of the first aspect, the chassis subassembly can set up on cup body component with dismantling.

The utility model provides a food processing apparatus reaches like the utility model discloses the chassis subassembly of any one in the first aspect, consequently, has the whole beneficial effect of above-mentioned chassis subassembly.

Specifically, the chassis assembly is detachably arranged on the cup body assembly, the working disc assembly of the chassis assembly faces the inside of the food processing device, the working disc assembly is used for processing food inside the food processing device, the holding part faces the outside of the processing device, and the holding part is used for disassembling and assembling the working disc assembly. When needs wash the chassis subassembly, rotate the portion of holding and make handle portion protrusion in the work disc subassembly to take out the chassis subassembly through the portion of holding is whole, and then wash the chassis subassembly, this structural design is simple, safe and reliable, has greatly made things convenient for the user to cooking device's cleaning work.

In addition, according to the utility model provides a food processing apparatus among the above-mentioned technical scheme, can also have following additional technical characteristics:

in the above technical solution, preferably, the cup assembly includes: the base plate assembly is detachably arranged on the cup seat; the guide groove is arranged on the cup seat; the second connecting portion of the grip portion is rotatably attached to the guide groove.

In this technical solution, the cup holder is provided with a guide groove, and the position of the guide groove corresponds to the second connecting portion of the holding portion. When the chassis component is installed, the second connecting part of the holding part is directly installed in the guide groove, so that the second connecting part is rotatably connected with the guide groove, and the stable connection of the chassis component is ensured.

Specifically, the second connecting portion of the holding portion is in contact with the inner wall of the guide groove, and the rotating axis of the first connecting portion and the rotating axis of the second connecting portion are arranged eccentrically relative to each other, so that in the process of rotating the holding portion, under the action of the inner wall of the guide groove and the second connecting portion, the first connecting portion can provide a pressing force for the work disc assembly, the effect of pressing the work disc assembly is achieved, and stable installation of the work disc assembly is guaranteed.

In any of the above technical solutions, preferably, the method further includes: and the positioning column is arranged in the guide groove, and the second connecting part is rotatably connected with the positioning column.

In this technical scheme, be provided with the reference column in the guide way, and the shape looks adaptation of reference column and second connecting portion. The rotating type connection of the holding part is realized through the matching of the positioning column and the second connecting part, so that a user can conveniently disassemble and assemble the chassis assembly.

In any one of the above technical solutions, preferably, the second connecting portion is a hollow cylinder, an installation notch is provided on a side wall of the hollow cylinder, and the positioning column is rotatably connected with an inner hole of the hollow cylinder through the installation notch.

In this technical scheme, the second connecting portion are hollow cylinder, and are provided with the installation breach on the lateral wall of hollow cylinder. In the process of installing the chassis component, the positioning column is installed in the inner hole of the hollow column body after passing through the installation notch, and the positioning column is matched with the inner hole of the hollow column body to ensure that the holding part is connected in a rotating mode.

In any of the above technical solutions, preferably, an eccentric distance is provided between a geometric center line of the first connecting portion and a geometric center line of the positioning column; or the center line of the inner hole and the geometric center line of the positioning column have an eccentric distance; or the geometric center line of the positioning column has an eccentric distance with the geometric center line of the hollow column body.

In this technical scheme, can provide the extrusion force for the work dish subassembly for guaranteeing first connecting portion, optimize the relative position of reference column, hollow cylinder, the hole of hollow cylinder and first connecting portion. Specifically, the following modes are included but not limited: the geometric center line of the positioning column is superposed with the geometric center line of the hollow column and the center line of the inner hole, and an eccentric distance is reserved between the geometric center line of the first connecting part and the geometric center line of the positioning column; the geometric center line of the positioning column is coincident with the geometric center line of the hollow column and the geometric center line of the first connecting part, and an eccentric distance is reserved between the center line of the inner hole and the geometric center line of the positioning column; the geometric center line of the hollow column body, the center line of the inner hole and the geometric center line of the first connecting part are coincided, and the geometric center line of the positioning column and the geometric center line of the hollow column body have an eccentric distance. Through setting up eccentric structure, when the handle is in the closed position, according to eccentric cam's design principle, can not accidentally loosen because of mechanism dead point reason, and then realized that the connected state of chassis subassembly and cup keeps in the locking position, further guaranteed the sealed of between cup and working disc subassembly simultaneously. When the handle is pulled up by hand to rotate, the chassis assembly can be loosened and removed. Through the optimized setting, the extrusion force can be provided for the working disc assembly in the process of rotating the holding part, and the stable installation of the working disc assembly is ensured.

In any of the above technical solutions, preferably, based on the case that the first connecting portion is a cylindrical structure, the work disc assembly is provided with an installation hole matched with the cylindrical structure, and the width of the installation hole is greater than the sum of the radial length of the cylindrical structure and two times of the eccentric distance along a direction perpendicular to the geometric center line of the work disc assembly.

In this technical scheme, first connecting portion are the cylinder structure, are provided with the mounting hole of being connected with cylinder structure cooperation on the work dish subassembly, and first connecting portion and second connecting portion are relative eccentric settings, and the spliced pole can produce the displacement volume at the pivoted in-process of control portion, so set up the width that the direction of the geometric centre line of perpendicular work dish subassembly of mounting hole corresponds to radial length and the 2 times eccentric distance sums that are greater than the cylinder structure. Further, the cylinder structure is a cylinder, and the width of the mounting hole is larger than the sum of the diameter of the cylinder and 2 times of the eccentric distance.

In any of the above technical solutions, preferably, the guide groove is an L-shaped guide groove.

In this technical scheme, set up the guide way into L shape guide way, L shape guide way can give work disc subassembly a spacing in the direction of taking out of chassis subassembly, and the installation that the convenient chassis subassembly of L shape guide way just can guarantee that the chassis subassembly stably is located inside the cup, avoids the chassis subassembly to drop and causes the accident.

In any of the above technical solutions, preferably, the L-shaped guide groove includes a guide portion and a fixing portion connected to the guide portion; the second connecting part is installed into the L-shaped guide groove through the guide part, and then the working disc assembly is rotated to enable the second connecting part to be installed into the fixing part.

In this technical scheme, L shape guide way includes the fixed part that the guide part is connected with the guide part and guide part. The guide part is arranged on the side wall of the cup base to form a guide notch, and the fixing part is communicated with the guide part to form a fixing position of the second connecting part. In the process of installing the chassis component, the L-shaped guide groove is installed along the guide part, and then the working disc component is rotated to enable the second connecting part to be installed in the fixing part; in the process of using the food processing device, the fixing part provides limit for the chassis component, and accidents caused by falling of the chassis component are avoided.

In any of the above technical solutions, preferably, the rotation axis of the first connecting portion has an eccentric distance from a geometric center line of the fixing portion; or the rotating axis of the second connecting part has an eccentric distance with the geometric center line of the fixed part.

In this technical scheme, can provide the extrusion force for the work disc subassembly for guaranteeing first connecting portion, optimize the relative position of fixed part, first connecting portion, second connecting portion. Specifically, the following modes are included but not limited: the rotating axis of the second connecting part is superposed with the geometric center line of the fixing part, and the rotating axis of the first connecting part has an eccentric distance with the geometric center line of the fixing part; the geometric center line of the fixed part coincides with the rotation axis of the first connecting part, and the rotation axis of the second connecting part has an eccentric distance with the geometric center line of the fixed part. Through setting up eccentric structure, when the handle is in the closed position, according to eccentric cam's design principle, can not accidentally loosen because of mechanism dead point reason, and then realized that the connected state of chassis subassembly and cup keeps in the locking position, further guaranteed the sealed of between cup and working disc subassembly simultaneously. When the handle is pulled up by hand to rotate, the chassis assembly can be loosened and removed. Through the optimized setting, the extrusion force can be provided for the working disc assembly in the process of rotating the holding part, and the stable installation of the working disc assembly is ensured.

In any of the above technical solutions, preferably, the method further includes: the first limiting part is arranged on the cup body assembly; and the second limiting part is arranged on the holding part, and the first limiting part can be connected with the second limiting part so as to limit the holding part.

In this technical scheme, be provided with first spacing portion on cup subassembly's the cup, be provided with the spacing portion of second in the handle portion, the shape and the position phase-match of first spacing portion and the spacing portion of second. When the chassis component does not need to be disassembled, the holding part is limited through the matching of the first limiting part and the second limiting part, so that the holding part is stably positioned in the base, and the holding part is prevented from being accidentally separated from the working disc component.

In any one of the above technical solutions, preferably, one of the first limiting portion and the second limiting portion is a snap structure, and the other one is a groove structure adapted to the snap structure.

In this embodiment, the specific structure of the first position-limiting part and the second position-limiting part may take various forms, including but not limited to the following structures: the first limiting part is of a buckle structure, and the second limiting part is of a groove structure; the first limiting part is of a groove structure, and the second limiting part is of a buckle structure. Wherein, buckle structure and groove structure's overall structure is simple, and the processing manufacturing of being convenient for is guaranteeing effectively to reduce food processing apparatus's processing cost under the prerequisite of holding portion stability.

In any of the above technical solutions, preferably, the cup body assembly further includes: a cup configured to be placed on a cup seat; and the sealing ring is arranged at the joint of the cup body and the cup seat, and when the chassis assembly is arranged on the cup seat, the working disc assembly is abutted against the sealing ring.

In the technical scheme, the cup body connected with the cup seat is arranged, so that the cup body and the cup seat form a cavity structure together, and a place is provided for food processing; in order to ensure the sealing performance of the cavity structure and avoid food leakage, a sealing ring is arranged at the joint of the cup body and the cup seat, and the working disk assembly is abutted against the sealing ring when the chassis assembly is arranged on the cup seat, so that the service performance of the food processing device is ensured. Further, the rotating axes of the first connecting part and the second connecting part of the holding part are set to be eccentric structures, when the working disc assembly is installed, the eccentric arrangement can ensure that the working disc assembly can generate displacement for pressing the sealing ring when the first connecting part of the holding part rotates, and the displacement is equal to the eccentric amount of the eccentric structures. Therefore, when the holding part of the chassis component is in the closed position, the chassis component and the cup body are connected and kept in the locking position, and meanwhile, the sealing between the cup seat and the working disk component is ensured.

In any of the above technical solutions, preferably, the cup holder includes: the first mounting end is used for mounting the cup body; the second installation end, second installation end and first installation end are located the both ends of cup, and the chassis subassembly passes through the second installation end and installs to the cup in, and the guide way sets up on the second installation end.

In the technical scheme, two ends of a cup seat are respectively a first mounting end for mounting a cup body and a second mounting end for mounting a chassis component; this application is through regarding the other end of cup as chassis component's installation end, has made things convenient for chassis component's installation and dismantlement operation, has avoided carrying out dismantling of cutter among the prior art in the cup and has washd, because the cup inner space is limited and lead to the condition emergence that the user was cut by the cutter. Moreover, through the cup seat and the chassis assembly, the cutter and the working disc for installing the cutter can be integrally taken out, so that the chassis assembly can be thoroughly cleaned, the food processing device is guaranteed to be sanitary to use, and the use experience of a user is improved.

In any of the above technical solutions, preferably, the method further includes: the opening part with the cup is established to lid subassembly lid.

In this technical scheme, be provided with lid subassembly at the opening part of cup. In the process of processing food by the food processing device, the cover body assembly is covered at the opening of the cup body, so that the sealing property of the cavity structure is ensured, and the food leakage is avoided; after the food is processed, the opening of the cup body is opened, and the processed food is taken out.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a chassis assembly according to an embodiment of the present invention;

FIG. 2 is a top view of the floor assembly of the embodiment of FIG. 1;

FIG. 3 is a cross-sectional view of the undercarriage assembly of the embodiment of FIG. 2 taken along the direction F-F;

FIG. 4 is an enlarged view of a portion of the chassis assembly of the embodiment of FIG. 1 at A;

FIG. 5 is an enlarged view of the chassis assembly of the embodiment of FIG. 3 at location B;

FIG. 6 is an exploded view of the food processor of one embodiment of the present invention;

FIG. 7 is a schematic view from another perspective of the food processing device of the embodiment shown in FIG. 6;

FIG. 8 is a schematic view of the food processing device of the embodiment shown in FIG. 6 from a further perspective (with the cover assembly omitted);

FIG. 9 is a schematic view of the food processing device of the embodiment of FIG. 6 from a further perspective (with the cover assembly omitted);

FIG. 10 is a schematic view of the food processing device of the embodiment of FIG. 6 from a further perspective (with the cover assembly omitted);

FIG. 11 is a schematic view of the food processing device of the embodiment shown in FIG. 6 from a further perspective (with the cover assembly omitted);

FIG. 12 is a top view of the food processing device of the embodiment shown in FIG. 11;

FIG. 13 is a cross-sectional view of the food processing device of the embodiment of FIG. 12 taken along the direction G-G;

FIG. 14 is a left side view of the food processing device of the embodiment shown in FIG. 11;

FIG. 15 is an enlarged view of a portion of the food processing device of the embodiment of FIG. 8 at C;

FIG. 16 is an enlarged view of a portion of the food processing device of the embodiment of FIG. 8 at D;

FIG. 17 is an enlarged view of a portion of the food processing device of the embodiment of FIG. 13 at E;

fig. 18 is a schematic structural view of a food processing device according to another embodiment of the present invention;

FIG. 19 is a schematic structural view from another perspective of the food processing device of the embodiment shown in FIG. 18;

FIG. 20 is a schematic structural view from yet another perspective of the food processing device of the embodiment shown in FIG. 19;

FIG. 21 is a bottom view of the food processing device of the embodiment of FIG. 19;

FIG. 22 is a front view (reverse) of the food processing device of the embodiment shown in FIG. 19;

FIG. 23 is a front view (forward) of the food processing device of the embodiment shown in FIG. 19;

FIG. 24 is a cross-sectional view taken along the direction H-H of the food processing device of the embodiment shown in FIG. 21;

FIG. 25 is a left side view of the food processing device of the embodiment shown in FIG. 22;

fig. 26 is a schematic structural view of a food processing device according to another embodiment of the present invention;

FIG. 27 is a schematic view of the food processing device of FIG. 26 from another perspective;

FIG. 28 is a bottom view of the food processing device of the embodiment of FIG. 26;

FIG. 29 is a front view (forward) of the food processing device of the embodiment shown in FIG. 26;

FIG. 30 is a schematic structural view from yet another perspective of the food processing device of the embodiment shown in FIG. 26;

FIG. 31 is a front view (reverse) of the food processing device of the embodiment shown in FIG. 30;

FIG. 32 is a cross-sectional view taken along line I-I of the food processing device of the embodiment shown in FIG. 28;

fig. 33 is a schematic structural view of a food processing device according to yet another embodiment of the present invention (retaining cover assembly);

FIG. 34 is an exploded view of the food processing device of the embodiment shown in FIG. 33;

FIG. 35 is a top view of the food processing device of the embodiment shown in FIG. 33;

FIG. 36 is a cross-sectional view taken along the line J-J of the food processing device of the embodiment shown in FIG. 35;

FIG. 37 is an enlarged partial view at L of the food processing device of the embodiment of FIG. 34;

fig. 38 is a schematic structural view of a food processing device according to yet another embodiment of the present invention;

FIG. 39 is a top view of the food processing device of the embodiment shown in FIG. 38;

fig. 40 is a cross-sectional view of the food processing device of the embodiment of fig. 39 taken along the direction K-K.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 40 is:

100 chassis component, 12 work disc component, 120 support, 121 mount pad, 122 mounting bracket, 123 depressed part, 124 work disc, 125 first locating part, 126 mounting hole, 14 holding part, 142 main part, 144 connecting part, 146 first connecting part, 148 second connecting part, 150 holding position, 152 installation gap, 16 cutter, 200 cup, 22 guide way, 222 guide part, 224 fixed part, 24 positioning column, 300 cup, 400 sealing ring, 500 lid component.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A chassis assembly 100 and a food processing apparatus according to some embodiments of the present invention are described below with reference to fig. 1 to 40.

An embodiment of the present invention provides a chassis assembly 100, as shown in fig. 1 to 5, the chassis assembly 100 includes: a work head assembly 12; and a holding part 14, wherein both ends of the holding part 14 are movably connected with the work disc component 12.

In this embodiment, the undercarriage assembly 100 includes a rotatably coupled work disc assembly 12 and a handle 14. When the chassis assembly 100 is used, the holding part 14 is hidden inside the chassis assembly 100, and the holding part 14 does not influence the normal use of the chassis assembly 100; when the work disc assembly 12 needs to be taken out for cleaning, the holding part 14 is rotated to make the holding part 14 protrude from the work disc assembly 12, and at this time, the chassis assembly 100 can be taken out through the holding part 14, so that the chassis assembly 100 can be cleaned thoroughly.

The utility model provides a chassis subassembly 100 is provided with swing joint's the portion of controlling 14 on work disc subassembly 12, and the portion of controlling 14 neither can influence the normal use of chassis subassembly 100, can facilitate for dismantling chassis subassembly 100 again, and simple structure, convenient to use, and convenience of customers dismantles and installation operation.

Specifically, as shown in fig. 1 to 5, the chassis assembly 100 is shown in which two working states of the holding portion 14 are shown, and the holding portion 14 is in a standing state when the holding portion 14 shown by a dotted line is in a detached state, so that a user can conveniently grip the holding portion 14 to perform detachment and attachment work; the grip portion 14 shown by the solid line is in a state of the grip portion 14 after the chassis assembly 100 is mounted in place, and after the chassis assembly 100 is mounted in place, the grip portion 14 is rotated to be attached to the work tray assembly, thereby avoiding occupying more space in a standing state.

Further, as shown in fig. 6 to 11, 13, 14, 24, 32, 34, 36 and 40, the rotatable knife 16 is disposed on the work tray assembly 12, the knife 16 is disposed toward the inside of the food processing device, the holding portion 14 is disposed toward the outside of the food processing device, the knife 16 and the holding portion 14 are respectively disposed at both sides of the work tray assembly 12, so as to improve the convenience of detaching the chassis assembly 100, avoid interference between the holding portion 14 and the knife 16, avoid contact between the holding portion 14 and food, and ensure the sanitation of the food.

Alternatively, as shown in fig. 1, the work head assembly 12 includes a bracket 120 and a work head 124, the bracket 120 providing a mounting location for the handle 14; the work tray 124 is preferably a hot tray for generating heat during food processing to process the food.

Specifically, the working plate 124 and the bracket 120 may be provided in an integrated structure, or may be provided in a separate structure. Further, the working plate 124 may be a heating plate, which facilitates heating of food to be heated.

Alternatively, as shown in fig. 1 to 5, the bracket 120 includes: the mounting seat 121, the working disc 124 is arranged on the mounting seat 121; a mounting frame 122, the mounting frame 122 is connected with the mounting seat 121, the holding part 14 is configured to be arranged on the mounting frame 122, a recess 123 is arranged on the mounting frame 122 at one side of the holding part 14, and the holding part 14 can be overlapped with the recess 123 in a rotating way; a first stopper 125 disposed on the mounting frame 122 located on the other side of the holding portion 14, wherein the first stopper 125 is used for limiting a rotation angle of the holding portion 14; and a second stopper provided on the circumferential side of the recessed portion 123 for stopping the grip portion 14.

In this embodiment, the mounting seat 121 and the mounting bracket 122 are preferably a unitary structure. Further, the heights of the mounting frame 122 at two sides of the holding portion 14 are different, one side of the mounting frame is provided with a recess 123, when the chassis assembly 100 is in the mounting state, the holding portion 14 can be accommodated in the recess 123, so that the occupied space of the chassis assembly 100 is reduced; further, a second stopper is provided on the circumferential side of the recess 123, and the second stopper is preferably a protrusion protruding from the circumferential side of the recess 123, and the number of the second stoppers may be one or more, and the second stoppers may be provided to continuously rotate the grip portion 14 toward the mounting seat 121, thereby avoiding occurrence of mounting interference or the like. Further, as shown in fig. 15, a first stopper 125 is also provided on the other outer side wall of the mounting bracket 120 to restrict the rotation of the grip portion 14 toward the one side, and further, the rotation angle of the grip portion 14 can be restricted, and the installation position of the first stopper 125 can define different rotation angles. Preferably the angle of rotation is 0 to 180 degrees. More preferably, the rotation angle is 0 to 90 degrees, which is convenient for the user to operate.

Optionally, as shown in fig. 1 to 3, in order to achieve the best assembling and disassembling effect, the holding part 14 is a bent structure, and the whole holding part 14 is a handle, so as to facilitate the operation of the user; the main body 142 is provided with a holding portion 150 for a user to hold and rapidly disassemble the chassis assembly 100.

An embodiment of the present invention provides a chassis assembly 100, including: a work head assembly 12; a holding part 14, wherein two ends of the holding part 14 are rotatably connected with the work disc component 12; as shown in fig. 1, the holding portion 14 includes a main body 142 and connecting portions 144, the connecting portions 144 are disposed at two ends of the main body 142, and the connecting portions 144 are rotatably connected to the work disc assembly 12.

In this embodiment, the holding portion includes a main body 142 and a connecting portion 144, wherein the connecting portion 144 is located at two opposite ends of the main body 142, and the two ends of the main body 142 are rotatably connected to the work disc assembly 12 through the connecting portion 144; the connecting portion 144 includes a first connecting portion 146 and a second connecting portion 148 connected to the first connecting portion 146, and the first connecting portion 146 and the second connecting portion 148 are located on two sides or the same side of the main body 142, wherein the first connecting portion 146 is used for being connected to the work disc assembly 12, and the second connecting portion 148 is used for being disposed at a corresponding mounting position of the cup holder 200.

Specifically, the specific forms of the first connection portion 146 and the second connection portion 148 include, but are not limited to, the following ways: the first connecting portion 146 and the second connecting portion 148 are both cylinders, and the work disc assembly 12 is provided with mounting holes matched and connected with the connecting portions 144; the first connecting portion 146 and the second connecting portion 148 are both groove structures, and a connecting column rotatably connected with the groove structures is arranged on the work disc assembly 12; one of the first and second connection portions 146 and 148 is a cylinder and the other is a groove structure.

With the above arrangement, the entire structure of the chassis assembly 100 can be simplified while ensuring the rotational connection of the grip portion 14 and the work disc assembly 12. Specifically, when the second connecting portion 148 is a cylinder, the work tray assembly 12 is provided with a mounting hole for mating with the connecting portion 144; when the second connecting portion 148 is a groove structure, the work disc assembly 12 is provided with a connecting column rotatably connected with the groove structure.

Further, when the second connection portion 148 is a cylinder, the cross-sectional area of the cylinder may be circular, oval, or convex.

Alternatively, as shown in fig. 3 to 5, the relative positions of the first connection portion 146 and the second connection portion 148 are optimized such that the rotational axis of the first connection portion 146 and the rotational axis of the second connection portion 148 are relatively eccentrically disposed. Because the rotation axis of the first connecting portion 146 and the rotation axis of the second connecting portion 148 are relatively eccentric, the first connecting portion 146 and the second connecting portion 148 form an eccentric structure, and the first connecting portion 146 can apply a pressing force to the work disc assembly 12 in the process of rotating the holding portion 14, so that the purpose of pressing the work disc assembly 12 is achieved, and stable installation of the work disc assembly 12 is guaranteed.

In an embodiment, as shown in fig. 1 to 5, preferably, the first connecting portion 146 is a cylinder structure, the mounting hole 126 is disposed on the work tray assembly 12, the first connecting portion 146 and the second connecting portion 148 are eccentrically disposed relative to each other, and the connecting column is displaced during the rotation of the holding portion, so that the width of the mounting hole 126 corresponding to the direction perpendicular to the geometric center line of the work tray assembly 12 is greater than the sum of the radial length of the cylinder structure and 2 times of the eccentric distance. Further, the column structure is a cylinder, and the width of the mounting hole 126 is larger than the sum of the diameter of the cylinder and 2 times of the eccentric distance.

An embodiment of the present invention provides a food processing apparatus, as shown in fig. 6 to 40, including: a cup body assembly; and as the chassis assembly 100 according to any of the embodiments of the first aspect of the present invention, the chassis assembly 100 can be detachably disposed on the cup body assembly.

The utility model provides a food processing apparatus includes cup body assembly and if the utility model discloses the chassis subassembly 100 of any embodiment in the first aspect, consequently, has above-mentioned chassis subassembly 100's whole beneficial effect.

Specifically, the base plate assembly 100 is detachably disposed on the cup body assembly, the work plate assembly 12 of the base plate assembly 100 is disposed toward the inside of the food processing device, the work plate assembly 12 is used for processing food inside the food processing device, the holding portion 14 is disposed toward the outside of the food processing device, and the holding portion 14 is used for assembling and disassembling the work plate assembly 12. When the chassis assembly 100 needs to be cleaned, the handle 14 is rotated, and the entire chassis assembly 100 is taken out by the handle 14, and the chassis assembly 100 is cleaned.

Further, in an embodiment of the present invention, as shown in fig. 6 to 17 and fig. 18 to 34, the cup body assembly includes: a cup holder 200, a cup body 300 and a cover body assembly 500, wherein the cup body 300 is detachably connected with the cup holder 200; the lid assembly 500 covers the opening of the cup 300.

In this embodiment, the cup body 300 connected to the cup holder 200 is provided, so that the cup body 300 and the cup holder 200 together form a cavity structure, providing a place for food processing; in the process of processing food by the food processing device, the cover body assembly 500 is covered at the opening of the cup body 300, so that the sealing performance of the cavity structure is ensured, and the food leakage is avoided; when the food processing is completed, the opening of the cup body 300 is opened, and the processed food is taken out.

Further, the work tray assembly 12 includes a bracket 120 and a work tray 124, the bracket 120 is located on the periphery of the work tray 124 and protrudes from the work tray 124, and the bracket 120 provides an installation position for the holding portion 14; the work plate 124 is used to generate heat during food processing to process the food. The working plate 124 and the bracket 120 may be an integral structure or a split structure.

Further, as shown in fig. 12, 13 and 17, in order to ensure the sealing performance of the cavity structure and avoid food leakage, a sealing ring 400 is disposed at the joint between the cup body 300 and the cup holder 200, and when the chassis assembly 100 is mounted on the cup holder 200, the working disc assembly 12 abuts against the sealing ring 400, so as to ensure the usability of the food processing device.

Further, the cup holder 200 is provided with a first position-limiting portion (not shown), and the holding portion 14 is provided with a second position-limiting portion (not shown), wherein the shape and position of the first position-limiting portion are matched with those of the second position-limiting portion. When the chassis assembly 100 does not need to be disassembled, the first limiting part and the second limiting part are matched to limit the holding part 14, so that the holding part 14 is stably positioned in the base, and the holding part 14 is prevented from being accidentally separated from the working disc assembly 12.

Specifically, the specific structure of the first and second position-limiting portions may take various forms, including but not limited to the following: the first limiting part is of a buckle structure, and the second limiting part is of a groove structure; the first limiting part is of a groove structure, and the second limiting part is of a buckle structure. Wherein, the overall structure of buckle structure and groove structure is simple, and the processing manufacturing of being convenient for is guaranteeing effectively to reduce food processing apparatus's processing cost under the prerequisite of 14 stability of control portion.

Further, as shown in fig. 6 to 14, both ends of the cup holder 200 are a first mounting end for mounting the cup 300 and a second mounting end for mounting the floor assembly 100, respectively; this application is through regarding the other end of cup 200 as chassis component 100's installation end, has made things convenient for chassis component 100's installation and dismantlement operation, has avoided carrying out dismantling of cutter among the prior art in through cup 300 and has washd, because the cup 300 inner space is limited and lead to the condition emergence that the user was cut by the cutter. Moreover, through the cup holder 200 and the chassis assembly 100 provided by the application, the cutter and the working disc for installing the cutter can be integrally taken out, so that the chassis assembly 100 can be thoroughly cleaned, the use sanitation of the food processing device is guaranteed, and the use experience of a user is improved.

Yet another embodiment of the present invention provides a food processing apparatus, including: a cup holder 200; the chassis assembly 100 of any one of the above embodiments, the chassis assembly 100 being detachably mounted on the cup holder 200; as shown in fig. 8, 15 and 16, the cup holder 200 is provided with a guide groove 22; the second connecting portion 148 of the grip portion 14 is rotatably attached to the guide groove 22.

In this embodiment, the cup holder 200 is provided with the guide groove 22, and the position of the guide groove 22 corresponds to the second connecting portion 148 of the grip portion 14. When the chassis assembly 100 is installed, the second connecting portion 148 of the holding portion 14 is directly installed in the guide groove 22, so that the second connecting portion 148 is rotatably connected with the guide groove 22 to ensure stable connection of the chassis assembly 100.

Specifically, the second connecting portion 148 of the holding portion 14 is in contact with the inner wall of the guide groove 22, and since the rotation axis of the first connecting portion 146 and the rotation axis of the second connecting portion 148 are relatively eccentrically arranged, the first connecting portion 146 can apply a pressing force to the work disc assembly 12 under the action of the inner wall of the guide groove 22 and the second connecting portion 148 during the rotation of the holding portion 14, so as to press the work disc assembly 12, and ensure the stable installation of the work disc assembly 12.

Further, as shown in fig. 15, a second connecting portion 148 of the positioning column 24 disposed in the guide groove 22 is a hollow cylinder, and a mounting notch 152 is disposed on a side wall of the hollow cylinder. In the process of installing the base plate assembly 100, the positioning column 24 passes through the installation notch 152 and then is located in the inner hole of the hollow column, and the positioning column 24 is matched with the inner hole of the hollow column to ensure the rotary connection of the holding part 14.

Optionally, to ensure that first connection portion 146 can provide a compressive force to work head assembly 12, the relative positions of positioning post 24, hollow cylinder, the inner bore of hollow cylinder, and first connection portion 146 are optimized. Specifically, the following modes are included but not limited: the geometric center line of positioning column 24 coincides with the geometric center line of the hollow cylinder and the center line of the inner hole, and an eccentric distance is formed between the geometric center line of first connecting portion 146 and the geometric center line of positioning column 24; the geometric center line of the positioning column 24 coincides with the geometric center line of the hollow column and the geometric center line of the first connecting portion 146, an eccentric distance between the center line of the inner hole and the geometric center line of the positioning column 24 is coincident with the geometric center line of the inner hole and the geometric center line of the first connecting portion 146, and the geometric center line of the positioning column 24 is eccentric with the geometric center line of the hollow column. By providing the eccentric structure, when the holding part 14 is in the closed position, according to the design principle of the eccentric cam, the holding part cannot be accidentally loosened due to the mechanism dead point, so that the connection state of the chassis assembly 100 and the cup body 300 is maintained at the locking position, and the sealing between the cup holder 200 and the working disc assembly 12 is further ensured. When the handle 14 is pulled up by hand for rotation, the chassis assembly 100 can be released and removed. Through the optimized arrangement, extrusion force can be provided for the working disc assembly 12 in the process of rotating the holding part 14, and stable installation of the working disc assembly is guaranteed.

Specifically, as shown in fig. 6 to 17, the food processing device in this embodiment includes: fig. 6 to 17 show a structure diagram of the chassis assembly 100 in a disassembled state, wherein the guiding groove 22 is disposed on an inner sidewall of the cup holder 200, and the positioning column 24 is disposed in the guiding groove 22. The first connecting portion 146 of the holding portion 14 is a protruded column, the second connecting portion 148 of the holding portion 14 is a hollow column, an installation notch 152 is formed in a side wall of the hollow column, and the positioning column 24 passes through the installation notch 152 and then is located in an inner hole of the hollow column. Fig. 18 to 32 are schematic structural views illustrating the installation of the base plate assembly 100 into the cup holder 200. Further, the guide grooves 22 are symmetrically arranged on the inner side wall of the cup holder 200, so that the mounting direction of the chassis assembly 100 can be adjusted, specifically, as shown in fig. 18 to 25, the holding part of the chassis assembly 100 is located on the handle side of the cup body 300 after mounting, and as shown in fig. 26 to 32, the holding part of the chassis assembly 100 is located on the opposite side of the handle of the cup body 300 after mounting; in the embodiment, the opening position of the guide groove 22 is not limited to this.

Another embodiment of the present invention provides a food processing apparatus, as shown in fig. 33 to 40, including: a cup holder 200; and a base plate assembly 100 as in any of the embodiments of the first aspect of the present invention, the base plate assembly 100 is detachably disposed on the cup holder 200; as shown in fig. 34 to 37, the guide groove 22 is an L-shaped guide groove, and as shown in fig. 37, the L-shaped guide groove includes a guide portion 222 and a fixing portion 224 connected to the guide portion 222; wherein the second connecting portion 148 is mounted in the L-shaped guide slot via the guide portion 222, and the work head assembly 12 is rotated to mount the second connecting portion 148 in the fixing portion 224.

In this embodiment, the L-shaped guide groove includes a guide portion 222 and a fixing portion 224 connected to the guide portion 222. The guide portion 222 is disposed at a position where a guide notch is formed in a side wall of the cup holder 200, and the fixing portion 224 is communicated with the guide portion 222 to form a fixing position of the second connecting portion 148. During the process of mounting the chassis assembly 100, the L-shaped guide groove is mounted along the guide portion 222, and then the work head assembly 12 is rotated to mount the second connecting portion 148 into the fixing portion 224; in the process of using the food processing device, the fixing portion 224 provides a limit for the chassis assembly 100, so as to prevent the chassis assembly 100 from falling off and causing accidents.

Optionally, to ensure that the first connecting portion 146 can provide the pressing force to the work head assembly 12, the relative positions of the fixing portion 224, the first connecting portion 146, and the second connecting portion 148 are optimized. Specifically, the following modes are included but not limited: the rotation axis of the second connecting part 148 coincides with the geometric center line of the fixing part 224, and the rotation axis of the first connecting part 146 has an eccentric distance with the geometric center line of the fixing part 224; the geometric center line of the fixing portion 224 coincides with the rotation axis of the first connecting portion 146, and the rotation axis of the second connecting portion 148 has an eccentric distance from the geometric center line of the fixing portion 224.

With the above-described optimized arrangement, it is ensured that the pressing force is provided to the work head assembly 12 during rotation of the holding portion 14, so as to achieve stable mounting of the work head assembly 12.

The first embodiment is as follows:

in this embodiment, the food processing apparatus includes a bowl 300, a lid assembly, a removable pan assembly 100, a cup holder 200, a seal 400; chassis assembly 100 includes a work head assembly 12 (or tool holder), a tool 16, and a coupling (or clutch).

The chassis assembly 100 has a rotatable holding portion 14, wherein a convex (or concave) cylinder (i.e. the first connecting portion 146 and the second connecting portion 148) is disposed inside and outside the holding portion 14, the inner and outer cylinders are eccentrically disposed with an eccentricity greater than 0mm, in this example, 1.0mm, and the eccentric arrangement ensures that the working disc assembly 12 generates a displacement for compressing the sealing ring 400 when the holding portion 14 rotates around the outer cylinder (in this example, rotates 90 °), and the displacement of the working disc assembly 12 is equal to the eccentricity. Thus, when the assembly 100 is in the closed position of the handle 14, the assembly 100 is connected to the cup 300 and remains in the locked position, while maintaining a seal between the cup bottom and the work head assembly 12.

When the holding part 14 is in the closed position, it will not be accidentally released due to the dead point of the mechanism, according to the design principle of the eccentric cam. When the handle 14 is pulled up by hand and rotated, the chassis assembly 100 can be released and removed.

In addition, two positions are arranged in the cup bottom, the holding part 14 can be installed, and the chassis assembly 100 can be rotated by 180 degrees to switch the installation positions.

The cup body 300 is provided with a cup base 200, one end of the cup base 200 is connected with the cup body 300 (in a threaded manner, a buckling manner, a bonding manner and the like), a sealing ring 400 for preventing leakage is arranged between the cup body 300 and the cup base 200, and the other end of the cup base 200 is connected with a detachable work disc assembly 12. A guide groove 22 which is convenient for the holding part 14 to be arranged is arranged at the connecting end of the cup holder 200 and the working disc assembly 12, a positioning column 24 is arranged in the guide groove 22, and the positioning column 24 is a raised (or recessed) column body which is used for forming rotary connection with a column body outside the holding part 14; the post in the guide slot 22 of the cup holder 200 is engaged with the cylindrical post on the outside of the handle 14 to form a rotatable connection. In this example, the cylinder outside the handle 14 is hollow, and a gap allows the cylinder in the guide groove 22 of the cup holder 200 to enter the hollow cylinder outside the handle 14.

The second embodiment is as follows:

the utility model provides a food processing device with a detachable chassis component 100, which comprises a cup body 300, a cup cover component, a detachable chassis component 100, a cup seat 200 and a sealing ring 400; chassis assembly 100 includes a work head assembly 12 (or tool holder), a tool 16, and a coupling (or clutch).

In this embodiment, the food processing apparatus includes a bowl 300, a lid assembly, a removable pan assembly 100, a cup holder 200, a seal 400; chassis assembly 100 includes a work head assembly 12 (or tool holder), a tool 16, and a coupling (or clutch).

The guide groove 22 at the connecting end of the cup holder 200 and the work disc assembly 12 is made into an L shape, the cylinder outside the holding part 14 is inserted into the L-shaped guide groove and horizontally rotated to a position, then the holding part 14 is turned to a closed position, the horizontal rotation angle is 10-45 degrees, and the work disc assembly 12 can be prevented from suddenly falling and breaking when the holding part 14 is carelessly and suddenly opened by adding a horizontal rotation action.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (22)

1. A floor assembly, comprising:

a work plate assembly;

the holding part is movably connected with the working disc assembly;

the grip portion includes:

a main body;

the connecting parts are arranged at two ends of the main body and are rotatably connected with the working disc assembly.

2. The floor assembly of claim 1,

the connecting part comprises a first connecting part and a second connecting part connected with the first connecting part;

the first connecting portion and the second connecting portion are located on two sides or the same side of the main body, and the rotating axis of the first connecting portion and the rotating axis of the second connecting portion are arranged in an eccentric mode relatively.

3. The floor assembly of claim 2,

the first connecting portion with the second connecting portion are the cylinder, be provided with on the work dish subassembly with the mounting hole that connecting portion cooperate to be connected.

4. The floor assembly of claim 2, wherein the first and second connecting portions are each a recessed configuration, and the work head assembly is provided with a connecting post rotatably connected to the recessed configuration.

5. The floor assembly of claim 2,

one of the first connecting part and the second connecting part is a cylinder, and the other one is of a groove structure.

6. Chassis assembly according to any one of claims 1 to 5,

the grip portion further includes: a grip location disposed on the body.

7. The floor assembly according to any one of claims 1 to 5, further comprising:

a cutter rotatably disposed on the work disc assembly, the cutter and the grip portion being located on both sides of the work disc assembly, respectively.

8. An undercarriage assembly according to any of claims 2 to 5 wherein said work head assembly comprises:

the holding part is rotatably connected with the bracket;

the working disc is arranged on the support.

9. The floor assembly of claim 8, wherein said bracket comprises:

the working disc is arranged on the mounting seat;

the mounting frame is connected with the mounting seat, the holding part is configured to be arranged on the mounting frame, a concave part is arranged on the mounting frame on one side of the holding part, and the holding part can be in lap joint with the concave part in a rotating mode;

the first limiting piece is arranged on the mounting frame positioned on the other side of the holding part and used for limiting the rotation angle of the holding part;

and the second limiting piece is arranged on the peripheral side of the depressed part and used for limiting the holding part.

10. A food processing apparatus, comprising:

a cup body assembly; and

the floor assembly according to any one of claims 1 to 9, configured for removable disposition on the cup assembly.

11. The food processing device of claim 10, wherein the cup assembly comprises:

a cup holder on which the chassis assembly is detachably disposed;

the guide groove is arranged on the cup seat;

the second connecting portion of the grip portion is rotatably attached to the guide groove.

12. The food processing device of claim 11, further comprising:

the positioning column is arranged in the guide groove, and the second connecting portion is rotatably connected with the positioning column.

13. The food processing apparatus of claim 12,

the second connecting portion are hollow cylinders, the side walls of the hollow cylinders are provided with installation notches, and the positioning columns are connected with the inner holes of the hollow cylinders in a rotating mode through the installation notches.

14. The food processing apparatus of claim 13,

an eccentric distance is reserved between the geometric center line of the first connecting part of the holding part and the geometric center line of the positioning column; or

An eccentric distance is formed between the center line of the inner hole and the geometric center line of the positioning column; or

The geometric center line of the positioning column and the geometric center line of the hollow column body have an eccentric distance.

15. The food processing apparatus of claim 14,

based on the condition that the first connecting part is of a cylinder structure, the working disc assembly is provided with a mounting hole matched with the cylinder structure, and the width of the mounting hole is larger than the sum of the radial length of the cylinder structure and two times of the eccentric distance along the direction perpendicular to the geometric center line of the working disc assembly.

16. The food processing apparatus of claim 11,

the guide groove is an L-shaped guide groove.

17. The food processing apparatus of claim 16,

the L-shaped guide groove comprises a guide part and a fixing part connected with the guide part;

the second connecting part is installed in the L-shaped guide groove through the guide part, and then the working disc assembly is rotated to enable the second connecting part to be installed in the fixing part.

18. The food processing apparatus of claim 17,

the rotating axis of the first connecting part of the holding part has an eccentric distance with the geometric center line of the fixing part; or

The rotation axis of the second connecting part has an eccentric distance with the geometric center line of the fixing part.

19. A food processing device as claimed in any of claims 10 to 18, further comprising: the first limiting part is arranged on the cup body assembly;

and the first limiting part can be connected with the second limiting part so as to limit the holding part.

20. The food processing apparatus of claim 19,

one of the first limiting part and the second limiting part is of a buckle structure, and the other one of the first limiting part and the second limiting part is of a groove structure matched with the buckle structure.

21. The food processing device of any of claims 11 to 18, wherein the cup assembly further comprises:

a cup configured to be placed on the cup seat;

the sealing ring is arranged at the joint of the cup body and the cup seat, and when the chassis assembly is arranged on the cup seat, the working disc assembly is abutted to the sealing ring.

22. The food processing device of claim 21, wherein the cup holder comprises:

a first mounting end for mounting the cup;

the second mounting end and the first mounting end are located at two ends of the cup seat, the chassis assembly is mounted in the cup seat through the second mounting end, and the guide groove is formed in the second mounting end.

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