CN219613698U - Food processor - Google Patents

Abstract

The utility model provides a food processor. The food processor comprises a machine body, a first cutting assembly and a second cutting assembly, wherein the machine body is provided with a containing cavity; the first cutting assembly is rotatably arranged in the accommodating cavity; the second cutting assembly is rotatably arranged in the accommodating cavity and can be movably switched between a first position and a second position so that the food processor has a slicing mode and a shredding mode; in a slicing mode, the second cutting assembly is positioned at the first position, and the first cutting assembly is used for slicing food; in the shredding mode, the second cutting assembly is located at the second position and is combined with the first cutting assembly to form a shredding assembly, and the shredding assembly is used for shredding food. The utility model can solve the problem of lower safety caused by the need of replacing the cutter when the existing food processor shreds or slices food.

Description

Food processor

Technical Field

The utility model relates to the technical field of food processing, in particular to a food processor.

Background

In the existing food processor, if the functions of shredding and slicing are required to be realized, corresponding cutters are required to be configured, for example, when a user needs to shred food, the shredding cutters are required to be installed; when the user needs to slice food, then need take off the shredding cutter, change and install the slicing cutter, that is to say, current food processor, need change the cutter, just can realize shredding and sliced function. The replacement of the cutter has the risk of cutting the fingers of the user, so that the safety of the existing food processor is lower.

Disclosure of Invention

The utility model mainly aims to provide a food processor, which aims to solve the problem that the existing food processor needs to replace a cutter when shredding or slicing food, so that the safety is lower.

To achieve the above object, the present utility model provides a food processor including:

a body having a receiving cavity;

the first cutting assembly is rotatably arranged in the accommodating cavity;

a second cutting assembly rotatably disposed within the receiving cavity and movable between a first position and a second position to provide the food processor with a slicing mode and a shredding mode;

in the slicing mode, the second cutting assembly is positioned at the first position, and the first cutting assembly is used for slicing food;

in the shredding mode, the second cutting assembly is located at the second position and is combined with the first cutting assembly to form a shredding assembly, and the shredding assembly is used for shredding food.

In an embodiment, the machine body is provided with a feed port communicated with the accommodating cavity, and the feed port is arranged at the top or at the side edge of the machine body.

In an embodiment, the first cutting assembly comprises:

the cutter head is rotatably arranged in the accommodating cavity, and a blanking hole is formed in the cutter head;

the first blade is arranged on the cutterhead and is provided with a first blade, the first blade is positioned outside the blanking hole, and the projection of the first blade along the extending direction of the rotating axis of the cutterhead at least partially falls into the blanking hole.

In one embodiment, the second cutting assembly comprises:

the tool rest is rotatably arranged in the accommodating cavity;

the second blades are arranged on the cutter frame and are sequentially arranged at intervals along the length direction of the cutter frame so as to form a plurality of cutting holes, each second blade is provided with a second blade, and the projection of the second blade along the extending direction of the rotating axis of the cutter head falls into the blanking hole.

In an embodiment, the machine body is provided with a feed port communicated with the accommodating cavity, and the first blade is arranged on one side of the cutterhead facing the feed port; in the slicing mode, the second cutting assembly is arranged on one side, back to the feed inlet, of the cutter disc, and the second cutting edge is arranged at intervals with the blanking hole and is positioned on one side, facing the blanking hole, of the cutter frame.

In an embodiment, in the shredding mode, the second blade is inserted into the blanking hole, and the second blade is located outside the first blade along the rotation direction of the second cutting assembly; the machine body is provided with a feed inlet communicated with the accommodating cavity, and part of the second cutting edge is positioned between the feed inlet and the first cutting edge along the extending direction of the rotating axis of the cutterhead.

In an embodiment, the food processor further comprises a driver and a transmission rod, the driver is used for driving the transmission rod to rotate, the cutter disc is arranged on the transmission rod, and the cutter rest is slidably arranged on the transmission rod along the axial direction of the transmission rod so that the second cutting assembly can be switched between the first position and the second position.

In an embodiment, the food processor further comprises a switching member, wherein the switching member is disposed on a side of the second cutting assembly facing away from the first cutting assembly, and the second cutting assembly moves from the first position to the second position under the thrust of the switching member.

In an embodiment, the food processor further comprises an elastic member, wherein the elastic member is disposed between the first cutting assembly and the second cutting assembly, and the second cutting assembly moves from the second position to the first position under the action of the elastic force of the elastic member.

In an embodiment, a protruding column extending along the axial direction of the machine body is arranged in the machine body, the protruding column is positioned at one side of the second cutting assembly, which is opposite to the first cutting assembly, and an external thread is arranged on the peripheral wall of the protruding column; the switching piece comprises a movable column, a screw hole penetrating through the movable column is formed in the movable column along the axial direction of the machine body, and the screw hole is in threaded fit with the external thread.

In an embodiment, the switching piece further comprises a poking rod, the poking rod is connected with the movable column and can drive the movable column to move relative to the convex column, the poking rod is provided with a free end far away from the movable column, and in the shredding mode, the free end is locked and buckled on the machine body.

In an embodiment, a switching slide way is arranged on the machine body, the free end of the poking rod leaks out of the machine body and is slidably arranged in the switching slide way around the circumferential direction of the machine body, so as to drive the second cutting assembly to move and switch between the first position and the second position, a buckling groove is arranged on the switching slide way, and the free end is clamped in the buckling groove in the shredding mode.

The food processor comprises a machine body, a first cutting component and a second cutting component, wherein the first cutting component is rotatably arranged in a containing cavity, the second cutting component is rotatably arranged in the containing cavity and can be movably switched between a first position and a second position, when a user needs to cut food, the second cutting component is adjusted to the first position, and the first cutting component rotates in the containing cavity and cuts the food; when the user needs to shred food, adjust second cutting assembly to the second position, second cutting assembly and first cutting assembly combination form the shredding subassembly this moment, shred the subassembly and rotate and shred food in the holding intracavity, so set up for food processor need not to carry out dismouting to first cutting assembly and second cutting assembly and changes, just can realize section and shredded function, avoided the cutter to cut user's condition emergence when changing, thereby improved food processor's security.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a food processor in accordance with an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a schematic view of the first cutting assembly of FIG. 2;

FIG. 4 is a schematic view of a portion of the structure of FIG. 3 from another perspective;

FIG. 5 is a schematic view of the second cutting assembly of FIG. 2;

FIG. 6 is a cross-sectional view of the food processor of the present utility model in a slicing mode;

fig. 7 is a cross-sectional view of the food processor of the present utility model in a thread cutting mode.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				100	Body of machine	300	Second cutting assembly
110	Convex column	310	Knife rest
				111	External screw thread	320	Second blade
120	Switching slideway	321	Second blade
				130	Buckling groove	400	Transmission rod
200	First cutting assembly	500	Switching piece
				210	Cutterhead	510	Movable column
211	Discharging hole	511	Screw hole
				220	First blade	520	Toggle rod
221	First blade	600	Elastic piece

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), 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 the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

In the existing food processor, if the functions of shredding and slicing are required to be realized, corresponding cutters are required to be configured, for example, when a user needs to shred food, the shredding cutters are required to be installed; when the user needs to slice food, then need take off the shredding cutter, change and install the slicing cutter, that is to say, current food processor, need change the cutter, just can realize shredding and sliced function. The replacement of the cutter has the risk of cutting the fingers of the user, so that the safety of the existing food processor is lower.

In order to avoid the occurrence of the situation, the utility model provides a food processor which can solve the problem that the existing food processor needs to replace a cutter when shredding or slicing food, thereby resulting in lower safety.

Referring to fig. 1 and 2, in an embodiment of the food processor according to the present utility model, the food processor includes a housing 100, a first cutting assembly 200 and a second cutting assembly 300, wherein the housing 100 has a receiving cavity; the first cutting assembly 200 is rotatably arranged in the accommodating cavity; the second cutting assembly 300 is rotatably arranged in the accommodating cavity and is movably switched between a first position and a second position, so that the food processor has a slicing mode and a shredding mode; in the slicing mode (as shown in fig. 6), the second cutting assembly 300 is in the first position and the first cutting assembly 200 is used to slice food items; in the shredding mode (as shown in fig. 7), the second cutting assembly 300 is in the second position and combines with the first cutting assembly 200 to form a shredding assembly for shredding food items.

It is understood that the manner in which the second cutting assembly 300 is movably switched between the first position and the second position within the receiving cavity may be automatic or manual. That is, the second cutting assembly 300 may be manually position-adjusted to move and switch between the first and second positions; of course, the second cutting assembly 300 may also be in driving connection with the driving device, and automatically switch between the first position and the second position by the driving adjustment of the driving device, which is not limited herein.

Further, the specific positions of the first position and the second position are not limited, for example, the first position and the second position may be disposed at intervals along the axial direction of the machine body 100, or the first position and the second position may be disposed at intervals along the radial direction of the cup body, so that the food processor may have a slicing mode and a shredding mode.

Further, in the slicing mode (as shown in fig. 6), the second cutting assembly 300 is in the first position, and the second cutting assembly 300 may be spaced apart from the first cutting assembly 200, or may be disposed on the first cutting assembly 200, which is not limited herein, and only the first cutting assembly 200 is required to rotate and slice food.

Further, in the shredding mode (as shown in fig. 7), the second cutting assembly 300 is in the second position, and the second cutting assembly 300 and the first cutting assembly 200 are combined to form the shredding assembly, that is, the second cutting assembly 300 and the first cutting assembly 200 cooperate to shred the food, wherein the specific structure of the first cutting assembly 200 and the second cutting assembly 300 is not limited, and only the combination is needed to shred the food.

The food processor comprises a machine body 100, a first cutting assembly 200 and a second cutting assembly 300, wherein the first cutting assembly 200 is rotatably arranged in a containing cavity, the second cutting assembly 300 is rotatably arranged in the containing cavity and can be movably switched between a first position and a second position, when a user needs to cut food, the second cutting assembly 300 is adjusted to the first position, and the first cutting assembly 200 rotates in the containing cavity and cuts the food; when the user needs to shred food, adjust second cutting assembly 300 to the second position, second cutting assembly 300 and first cutting assembly 200 combination form the shredding subassembly this moment, shred the subassembly and rotate and shred food in the holding intracavity, so set up for food processor need not to carry out dismouting to first cutting assembly 200 and second cutting assembly 300 and changes, just can realize section and the function of shredding, avoided the cutter to cut user's condition emergence when changing, thereby improved food processor's security.

In an embodiment, the machine body 100 has a feeding port in communication with the accommodating cavity, and the feeding port is disposed at the top or on a side of the machine body 100. It will be appreciated that the feed inlet is provided at the top or side of the machine body 100, that is, the food processor can feed from the top of the machine body 100, and the food processor may be a vertical food processor, and the rotation axis of the first cutting assembly 200 may extend vertically. In another embodiment, the food processor may be capable of feeding from the side of the body 100, and the rotation axis of the first cutting assembly 200 may be extended up and down; alternatively, the rotation axis of the first cutting assembly 200 may be extended in a horizontal direction, in which case the food processor is a horizontal type food processor. Through locating the top or the side of organism 100 with the feed inlet for food processor can satisfy different service scenarios, is favorable to improving the practicality of food processor.

Referring to fig. 2 to fig. 4, in an embodiment, the first cutting assembly 200 includes a cutter 210 and a first blade 220, the cutter 210 is rotatably disposed in the accommodating cavity, and a blanking hole 211 is formed in the cutter 210; the first blade 220 is disposed on the cutterhead 210, the first blade 220 has a first blade 221, the first blade 221 is located outside the blanking hole 211, and a projection of the first blade 221 along an extension direction of a rotation axis of the cutterhead 210 at least partially falls into the blanking hole 211.

It can be appreciated that the machine body 100 is provided with a feeding hole communicated with the accommodating cavity, and the machine body 100 can be internally provided with a discharging hole or a receiving box for collecting the cut food. The food processor drives the cutterhead 210 to rotate through the driving device, the cutterhead 210 rotates to drive the first blade 220 on the cutterhead to rotate, food is placed in the accommodating cavity from the feed inlet of the machine body 100, the first blade 220 is located at the blanking hole 211 and is arranged on one side of the cutterhead 210 facing the feed inlet, so that the first blade 220 can slice the food, and the sliced food falls into one side of the cutterhead 210 facing away from the feed inlet along the blanking hole 211 to be discharged from the discharge hole or fall into the receiving box.

For convenience of description, it is defined that the inlet is provided at the top of the body 100, that is, the vertical food processor is described as an example.

The first blade 221 of the first blade 220 is located outside the blanking hole 211, the first blade 221 is spaced from the wall of the blanking hole 211 of the cutter head 210, and the first blade 221 is located above the blanking hole 211, so that food cut by the first blade 221 can fall into the blanking hole 211 smoothly, and the smoothness of falling of the cut food is improved.

Further, the projection of the first blade 221 along the extending direction of the rotation axis of the cutterhead 210 falls into the blanking hole 211 at least partially, that is, along the extending direction of the rotation axis of the cutterhead 210, at least part of the first blade 221 is spaced from the wall of the blanking hole 211, and at least part of the first blade 221 is spaced from the wall of the blanking hole 211 to form a blanking space, which is beneficial to improving the smoothness of dropping of the cut food. In this embodiment, the projection of the first blade 221 along the extending direction of the rotation axis of the cutterhead 210 falls into the blanking hole 211, that is, the projection of the first blade 221 falls into the blanking hole 211, so that the blanking space formed by the interval between the first blade 221 and the wall of the blanking hole 211 is larger, and the smoothness of dropping of the cut food is further improved.

In an embodiment, a guiding part for guiding the food is provided between the first blade 220 and the cutterhead 210, and the guiding part is provided at the discharging hole 211. Such a facility is advantageous in that the smoothness of the food cut by the first blade 220 falling along the discharging hole 211 is improved.

Referring to fig. 2, 5 and 6, in one embodiment, the second cutting assembly 300 includes a tool holder 310 and a plurality of second blades 320, wherein the tool holder 310 is rotatably disposed in the accommodating cavity; the second blades 320 are disposed on the tool rest 310 and are sequentially arranged at intervals along the length direction of the tool rest 310 to form a plurality of cutting holes, the second blades 320 have second blades 321, and projections of the second blades 321 along the extending direction of the rotation axis of the cutterhead 210 fall into the blanking holes 211.

It will be appreciated that a plurality of second blades 320 are sequentially spaced apart on the blade holder 310 to form a plurality of wire cutting apertures. Along the extending direction of the rotation axis of the cutterhead 210, the projection of the second blade 321 of the second blade 320 falls into the blanking hole 211, that is, the second blade 320 can be inserted into the blanking hole 211 along the extending direction of the rotation axis of the cutterhead 210, so that the second blade 321 and the first blade 221 can be combined to form a shredding assembly, and the first blade 221 and the second blade 321 cooperate together to shred food. By setting the projection of the second blade 321 to fall into the blanking hole 211, so as to adjust the position of the second cutting assembly 300, the moving path of the second cutting assembly 300 for moving and switching between the first position and the second position can be a straight line, and compared with the moving path of the second cutting assembly 300 for moving and switching being a curve or an arc line, the scheme is beneficial to shortening the length of the moving path of combining and separating the plurality of second blades 320 and the first blades 220 and reducing the difficulty of moving and switching the positions of the second cutting assembly 300.

In an embodiment, the machine body 100 has a feed port in communication with the accommodating cavity, and the first blade 220 is disposed on a side of the cutterhead 210 facing the feed port; in the slicing mode, the second cutting assembly 300 is disposed on a side of the cutterhead 210 facing away from the feed port, and the second cutting edge 321 is disposed at a distance from the blanking hole 211 and is located on a side of the tool holder 310 facing the blanking hole 211.

It will be appreciated that, taking a vertical food processor as an example, the first blade 220 is disposed between the feed inlet and the cutterhead 210, and the first blade 220 is disposed above the cutterhead 210. In the slicing mode, the second cutting assembly 300 is disposed below the cutterhead 210, the second blade 320 is disposed below the cutterhead 210 and spaced apart from the cutterhead 210, the second blade 321 is disposed between the blanking hole 211 and the tool holder 310, and the second blade 321 is disposed towards the blanking hole 211. So set up for the slice food after the cutting of first blade 220 can drop down along unloading hole 211 to have the trend of outwards removing under the rotation of blade disc 210, second blade 320 and blade disc 210 interval set up this moment, and second blade 320 can not cut slice food, has so realized the function of food processor cutting slice food.

In an embodiment, in the shredding mode, the second blade 320 is inserted into the blanking hole 211, and the second blade 321 is located outside the first blade 221 along the rotation direction of the second cutting assembly 300; the machine body 100 has a feed inlet communicated with the accommodating cavity, and a part of the second blade 321 is located between the feed inlet and the first blade 221 along the extending direction of the rotation axis of the cutterhead 210.

It can be appreciated that, in the shredding mode, the second blade 320 is inserted into the blanking hole 211, and the second blade 321 of the second blade 320 may be completely disposed below the first blade 221 of the first blade 220; of course, a part of the second blade 321 of the second blade 320 may be disposed above the first blade 221, and another part of the second blade 321 of the second blade 320 may be disposed below the first blade 221, specifically, may be disposed as required, and only the first blade 221 and the second blade 321 may be combined to form a shredding assembly to shred food.

Further, in the present embodiment, along the rotation direction of the second cutting assembly 300, the second blade 321 is located at the outer side of the first blade 221, and along the extending direction of the rotation axis of the cutterhead 210, part of the second blade 321 is located between the feeding hole and the first blade 221, that is, the plurality of second blades 321 of the plurality of second blades 320 are located at the outer side of the first blade 221, part of the second blades 321 of the second blades 320 are located above the first blade 221, and the other part of the second blades 321 of the second blades 320 are located below the first blade 221, so that the plurality of second blades 321 of the plurality of second blades 320 can cut the bottom ends of the food into pieces along the plurality of cutting holes, then the first blades 221 of the first blades 220 cut the pieces of food into filaments, and the filaments of the food fall down along the discharging holes 211, thereby realizing the shredding function of the food processor. By the arrangement, the situation that the cut food is connected with the first cutting edge 221 and is not cut into filaments is avoided when the second cutting edge 321 is arranged below the first cutting edge 221 completely in the shredding mode, and the shredding function reliability of the food processor is improved.

In an embodiment, the food processor further includes a driver and a transmission rod 400, the driver is used for driving the transmission rod 400 to rotate, the cutterhead 210 is disposed on the transmission rod 400, and the tool rest 310 is slidably disposed on the transmission rod 400 along the axial direction of the transmission rod 400, so that the second cutting assembly 300 can be moved and switched between the first position and the second position.

It will be appreciated that the driver is drivingly connected to the drive rod 400 to drive the drive rod 400 in rotation. The tool rest 310 may be sleeved on the transmission rod 400 and slidably disposed along an axial direction of the transmission rod 400, where the tool rest 310 is provided with a mounting hole, and the mounting hole may be non-circular, and the shape of the transmission rod 400 is adapted to the shape of the mounting hole, so as to limit the tool rest 310 from rotating on the transmission rod 400 around the axial direction of the transmission rod 400 by setting the mounting hole to be non-circular, and the mounting hole may be elliptical, square, or other shapes, specifically, not limited herein. The knife rest 310 is slidably arranged on the transmission rod 400 along the axial direction of the transmission rod 400, so that the second cutting assembly 300 can be switched between the first position and the second position in a simple manner, which is beneficial to improving the structure of the simplified food processor.

Referring to fig. 1, 2, 6 and 7, in an embodiment, the food processor further includes a switch 500, the switch 500 is disposed on a side of the second cutting assembly 300 opposite to the first cutting assembly 200, and the second cutting assembly 300 moves from the first position to the second position under the pushing force of the switch 500.

It will be appreciated that the switch 500 is configured to provide a pushing force to the second cutting assembly 300 to enable the second cutting assembly 300 to move from the first position to the second position, i.e., the pushing force that the switch 500 is configured to provide to enable the food processor to be adjusted from the slicing mode to the shredding mode. The manner in which the switching member 500 provides the pushing force to the second cutting assembly 300 is not limited, and for example, the switching member 500 may provide the pushing force by pushing the second cutting assembly 300 in a translational manner, or the switching member 500 may provide the pushing force by pushing the second cutting assembly 300 in a rotational and moving manner toward the second cutting assembly 300, and may be specifically set as required.

Referring to fig. 6, in an embodiment, the food processor further includes an elastic member 600, wherein the elastic member 600 is disposed between the first cutting assembly 200 and the second cutting assembly 300, and the second cutting assembly 300 moves from the second position to the first position under the elastic force of the elastic member 600. It will be appreciated that the resilient member 600 may be a return spring, the return spring being in a compressed state when in the shredding mode, the return spring in the compressed state having a resilient force, the second cutting assembly 300 being movable from the second position to the first position under the force of the resilient force to enable the food processor to be in a slicing state. By providing a return spring, the manner in which the second cutting assembly 300 is moved between the first position and the second position is simplified, which is advantageous for simplifying the structure of the food processor.

Referring to fig. 6 and 7, in an embodiment, a protrusion 110 is disposed in the machine body 100 and extends along an axial direction thereof, the protrusion 110 is located at a side of the second cutting assembly 300 opposite to the first cutting assembly 200, and an external thread 111 is disposed on an outer peripheral wall of the protrusion 110; the switching member 500 includes a movable column 510, and the movable column 510 is provided with a screw hole 511 penetrating the movable column 510 along the axial direction of the machine body 100, and the screw hole 511 is in threaded engagement with the external thread 111.

It can be appreciated that the movable post 510 is sleeved on the post 110 through the screw hole 511, the movable post 510 is in threaded connection with the post 110, when the movable post 510 rotates on the post 110, the movable post 510 also moves along the axial direction of the post 110, wherein when the movable post 510 moves towards the direction approaching the first cutting assembly 200, the movable post 510 pushes the second cutting assembly 300 to move from the first position to the second position; when the movable post 510 moves away from the first cutting assembly 200, the elastic force of the elastic member 600 pushes the second cutting assembly 300 to return from the second position to the first position, so that the second cutting assembly 300 can be moved between the first position and the second position. The movable column 510 is in threaded connection with the protruding column 110 of the machine body 100, so that the rotating distance is converted into a linear distance, and the manner of providing the pushing force to the switching piece 500 is simple, which is beneficial to simplifying the structure of the food processor and reducing the volume of the food processor.

Referring to fig. 1 and 7, in an embodiment, the switching member 500 further includes a toggle rod 520, where the toggle rod 520 is connected to the movable column 510 and can drive the movable column 510 to move relative to the protruding column 110, and the toggle rod 520 has a free end far away from the movable column 510, and in the shredding mode, the free end is locked and buckled on the machine body 100.

It can be understood that the toggle rod 520 is used for toggling the movable post 510 to rotate on the protruding post 110, the movable post 510 moves along the axial direction of the protruding post 110 while rotating on the protruding post 110, when the toggle rod 520 drives the movable post 510 to move, the movable post 510 moves and pushes the second cutting assembly 300 to move to the second position, the food processor is in the shredding mode, and at this time, the free end of the toggle rod 520 is locked and buckled on the machine body 100. That is, when the food processor is in the shredding mode, the free end of the toggle rod 520 can be fixed relative to the machine body 100 and not moved, so that the movable rod and the second cutting assembly 300 can be fixed relative to each other and not moved, and the second cutting assembly 300 can be stably arranged at the second position, thereby ensuring the stability of the food processor in the shredding mode.

Further, there are various ways to lock the free end on the machine body 100, such as, but not limited to, the free end being locked on the machine body 100 by a connector, or the free end being locked on the machine body 100 itself; the free end may be disposed inside the machine body 100, or may be disposed outside the machine body 100, and the free end may be fixed relative to the machine body 100 to limit the movement of the movable column 510 only in the shredding mode.

In an embodiment, the machine body 100 is provided with a switching slide way 120, the free end of the toggle rod 520 leaks out of the machine body 100 and is slidably disposed in the switching slide way 120 around the circumferential direction of the machine body 100, so as to drive the second cutting assembly 300 to move and switch between the first position and the second position, the switching slide way 120 is provided with a buckling groove 130, and in the shredding mode, the free end is clamped in the buckling groove 130.

It can be appreciated that the free end of the toggle rod 520 is leaked outside the machine body 100, and the toggle rod 520 is slidably disposed in the switching slide 120, so that a user can manually toggle the toggle rod 520 to adjust the position of the second cutting assembly 300. The buckling groove 130 is arranged on the peripheral wall of the machine body 100, and when the free end of the toggle rod 520 slides into the buckling groove 130 from the outside of the buckling groove 130, the food processor is switched from a slicing mode to a shredding mode; when the free end of the toggle lever 520 slides from within the snap-fit groove 130 to outside the snap-fit groove 130, the food processor switches from the shredding mode to the slicing mode. The specific structure of the buckling groove 130 is not limited, and the free end of the buckling groove 130 can be clamped when the food processor is in the shredding mode.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (12)

1. A food processor comprising:

a body having a receiving cavity;

the first cutting assembly is rotatably arranged in the accommodating cavity; and

a second cutting assembly rotatably disposed within the receiving cavity and movable between a first position and a second position to provide the food processor with a slicing mode and a shredding mode;

in the slicing mode, the second cutting assembly is positioned at the first position, and the first cutting assembly is used for slicing food;

in the shredding mode, the second cutting assembly is located at the second position and is combined with the first cutting assembly to form a shredding assembly, and the shredding assembly is used for shredding food.

2. The food processor of claim 1 wherein the body has a feed port in communication with the receiving cavity, the feed port being provided at a top or side of the body.

3. The food processor of claim 1 wherein the first cutting assembly comprises:

the cutter head is rotatably arranged in the accommodating cavity, and a blanking hole is formed in the cutter head;

the first blade is arranged on the cutterhead and is provided with a first blade, the first blade is positioned outside the blanking hole, and the projection of the first blade along the extending direction of the rotating axis of the cutterhead at least partially falls into the blanking hole.

4. The food processor of claim 3 wherein the second cutting assembly comprises:

the tool rest is rotatably arranged in the accommodating cavity;

the second blades are arranged on the cutter frame and are sequentially arranged at intervals along the length direction of the cutter frame so as to form a plurality of cutting holes, each second blade is provided with a second blade, and the projection of the second blade along the extending direction of the rotating axis of the cutter head falls into the blanking hole.

5. The food processor of claim 4 wherein the body has a feed port in communication with the receiving cavity, the first blade being disposed on a side of the cutterhead facing the feed port; in the slicing mode, the second cutting assembly is arranged on one side, back to the feed inlet, of the cutter disc, and the second cutting edge is arranged at intervals with the blanking hole and is positioned on one side, facing the blanking hole, of the cutter frame.

6. The food processor of claim 4 wherein in the shredding mode, the second blade is inserted within the blanking aperture, the second blade being located outboard of the first blade in the direction of rotation of the second cutting assembly; the machine body is provided with a feed inlet communicated with the accommodating cavity, and part of the second cutting edge is positioned between the feed inlet and the first cutting edge along the extending direction of the rotating axis of the cutterhead.

7. The food processor of claim 4 further comprising a drive and a drive lever, the drive for driving the drive lever in rotation, the cutterhead being disposed on the drive lever, the cutterhead being slidably disposed on the drive lever in an axial direction of the drive lever to enable the second cutting assembly to be movable between the first position and the second position.

8. The food processor of any one of claims 1 to 7, further comprising a switch member disposed on a side of the second cutting assembly facing away from the first cutting assembly, the second cutting assembly being movable from the first position to the second position by a pushing force of the switch member.

9. The food processor of claim 8 further comprising a resilient member disposed between the first cutting assembly and the second cutting assembly, the second cutting assembly being movable from the second position to the first position by the resilient force of the resilient member.

10. The food processor of claim 8 wherein a boss is disposed in the housing and extends axially therefrom, the boss being located on a side of the second cutting assembly facing away from the first cutting assembly, the boss having an external thread on a peripheral wall thereof; the switching piece comprises a movable column, a screw hole penetrating through the movable column is formed in the movable column along the axial direction of the machine body, and the screw hole is in threaded fit with the external thread.

11. The food processor of claim 10 wherein the switch further comprises a tap lever coupled to the movable post and operable to move the movable post relative to the post, the tap lever having a free end remote from the movable post, the free end being locked to the body in the thread cutting mode.

12. The food processor of claim 11 wherein the housing is provided with a switching slide, the free end of the tap lever is externally leaked from the housing and slidably disposed in the switching slide about the circumference of the housing to drive the second cutting assembly to move between the first position and the second position, the switching slide is provided with a snap-fit slot, and the free end is snapped into the snap-fit slot in the thread cutting mode.