CN217959819U

CN217959819U - Food processor

Info

Publication number: CN217959819U
Application number: CN202222047317.3U
Authority: CN
Inventors: 侯芙蓉; 孙毅; 古珍芳
Original assignee: Guangdong Midea Consumer Electric Manufacturing Co Ltd
Current assignee: Guangdong Midea Consumer Electric Manufacturing Co Ltd
Priority date: 2022-08-03
Filing date: 2022-08-03
Publication date: 2022-12-06
Anticipated expiration: 2032-08-03

Abstract

The utility model provides a food processor. The food processor comprises a cup body, a driving assembly and a stirring assembly, wherein the cup body is provided with an accommodating cavity; stirring subassembly includes stirring sword and the first dish that bears, first bear the dish and locate the holding intracavity and will the holding chamber falls into cavity and cavity down, first bear the dish perhaps first bear the dish with be formed with the first feed opening that is used for filtering corresponding big or small food between the inside wall in holding chamber, first feed opening is the annular setting, the stirring sword is rotationally located in the cavity, drive assembly is used for the drive the stirring sword is in go up the cavity internal rotation, so that bear in first bear the food warp on the dish can warp after the cutting of stirring sword can warp first feed opening falls into cavity down after filtering. The utility model discloses a food processor can solve the difficult problem that the graininess that obtains the size is even of cutting of current food processor and eat the material.

Description

Food processor

Technical Field

The utility model relates to a food processing technology field, in particular to food processor.

Background

At present, in a conventional food processor, a manual switch is usually adopted to control a stirring knife to rotate, so that food in a cup body is repeatedly cut, and the food is processed. When the stirring knife is used, a user can only control the cutting time of the stirring knife according to experience to obtain granular food materials with uniform sizes, so that the mode that the user controls the cutting time of the stirring knife through a manual switch is difficult to control, and the operation difficulty of the user for obtaining the granular food materials with uniform sizes is large.

SUMMERY OF THE UTILITY MODEL

A primary object of the utility model is to provide a food processor, aim at solving the difficult problem that obtains the even graininess edible material of size of cutting of current food processor.

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

the cup body is provided with an accommodating cavity;

a drive assembly; and

stirring subassembly, including stirring sword and the first dish that bears, first bear the dish and locate the holding intracavity and will the holding chamber falls into cavity and cavity down, first bear the dish perhaps first bear the dish with be formed with the first feed opening that is used for filtering corresponding big or small food between the inside wall in holding chamber, first feed opening is the annular setting, the stirring sword is rotationally located in the cavity, drive assembly is used for the drive the stirring sword is in go up the cavity internal rotation, so that bear in first bear the food warp on the dish can warp after the cutting of stirring sword can warp fall into after the first feed opening filters cavity down.

When the food processor is used, food can be borne on the first bearing disc, the driving assembly drives the stirring knife to rotate so as to cut the food on the first bearing disc, a first discharging port is formed between the first bearing disc and the cup body and is annularly arranged and used for filtering and screening the cut food, if the width of the cut food is larger than the opening width of the first discharging port, the food cannot fall into the lower cavity chamber through the first discharging port, and the stirring knife continues to cut the food; if the food after the cutting is less than the opening width of first feed opening, then can drop to cavity under through first feed opening to obtain the even graininess edible material of size, the first feed opening that is the annular setting makes the food granule after the cutting great relatively. Therefore, the food processor can cut food to obtain granular food materials with uniform sizes.

The utility model also provides a food processor, food processor includes:

the cup body is provided with an accommodating cavity;

a drive assembly; and

stirring subassembly bears the dish including stirring sword and second, the second bears the dish to locate the holding intracavity and will the holding chamber falls into upper chamber and lower chamber, the second bears the dish perhaps the second bear the dish with be formed with the second feed opening between the inside wall in holding chamber, the second feed opening includes a plurality of unloading passageways that are used for filtering corresponding big or small food, and is a plurality of the unloading passageway winds the circumference that the second bore the dish is arranged in proper order, the stirring sword is rotationally located in the upper chamber, drive assembly is used for the drive the stirring sword is in go up indoor rotation of chamber, so that bear in the second bears the food warp on the dish can be through a plurality ofly after the cutting of stirring sword the unloading passageway falls into down the chamber after filtering.

When the food processor is used, food can be borne on the second bearing plate, the driving assembly drives the stirring knife to rotate so as to cut the food on the second bearing plate, a second feed opening is formed between the second bearing plate and the cup body and comprises a plurality of feed channels for filtering the food with corresponding sizes, the feed channels are sequentially arranged around the circumference of the second bearing plate and are used for filtering and screening the cut food, if the cut food is larger than the opening width of the feed channels, the food cannot fall into the lower chamber through the feed channels, and the stirring knife continues to cut the food; if the food after cutting is less than the opening width of the blanking channel, the food can fall into the lower cavity through the blanking channel, so that granular food materials with uniform sizes are obtained, and the food particles after cutting are relatively small through the plurality of blanking channels. Therefore, the food processor can cut food to obtain granular food materials with uniform sizes.

The utility model discloses still provide a food processor, food processor includes:

a cup body having an accommodating chamber;

a drive assembly;

the stirring assembly comprises a stirring knife, a first bearing disc and a second bearing disc, and the first bearing disc and the second bearing disc can be selectively arranged in the accommodating cavity so as to divide the accommodating cavity into an upper cavity and a lower cavity;

when the first bearing disc is arranged in the accommodating cavity, a first feed opening for filtering foods with corresponding sizes is formed between the first bearing disc or the first bearing disc and the inner side wall of the accommodating cavity, the first feed opening is annularly arranged, the stirring cutter is rotatably arranged in the upper cavity, and the driving assembly is used for driving the stirring cutter to rotate in the upper cavity, so that the foods borne on the first bearing disc can fall into the lower cavity after being filtered by the first feed opening after being cut by the stirring cutter;

when the second bears the dish to locate during the holding intracavity, the second bears the dish perhaps the second bear the dish with be formed with the second feed opening between the inside wall in holding chamber, the second feed opening includes a plurality of unloading passageways that are used for filtering corresponding big or small food, and is a plurality of the unloading passageway winds the circumference that the second bore the dish is arranged in proper order, the stirring sword is rotationally located in the epicoele, drive assembly is used for the drive the stirring sword is in epicoele is indoor to rotate, so that bear in the second bears the food warp on the dish can be through a plurality of after the cutting of stirring sword the unloading passageway filters the back and falls into lower cavity.

Therefore, when the food processor is used, the first bearing plate or the second bearing plate can be selectively arranged in the containing cavity so as to obtain granular food materials with different sizes, and when the first bearing plate is arranged in the containing cavity, the food processor is suitable for cutting meat food materials; when the second bearing plate is arranged in the accommodating cavity, the vegetable food material cutting device is suitable for cutting vegetable food materials.

When the first bearing disc is arranged in the accommodating cavity, food can be borne on the first bearing disc, the driving assembly drives the stirring knife to rotate so as to cut the food on the first bearing disc, a first discharging port is formed between the first bearing disc and the cup body and is annularly arranged and used for filtering and screening the cut food, if the width of the cut food is larger than that of the opening of the first discharging port, the food cannot fall into the lower cavity chamber through the first discharging port, and the stirring knife continues to cut the food; if the food after the cutting is less than the opening width of first feed opening, then can drop to cavity under through first feed opening to obtain the even graininess of size and eat the material, the first feed opening that is the annular setting makes the food granule after the cutting great relatively, more is applicable to and eats the material to cut to the meat. When the second bearing plate is arranged in the containing cavity, food can be borne on the second bearing plate, the driving assembly drives the stirring knife to rotate so as to cut the food on the second bearing plate, a second feed opening is formed between the second bearing plate and the cup body and comprises a plurality of feed channels for filtering the food with corresponding sizes, the feed channels are sequentially arranged around the circumference of the second bearing plate and are used for filtering and screening the cut food, if the cut food is larger than the opening width of the feed channels, the food cannot fall into the lower cavity through the feed channels, and the stirring knife continues to cut the food; if the food after the cutting is less than the opening width of the blanking channel, the food can fall to the lower cavity through the blanking channel, so that granular food materials with uniform sizes are obtained, and the food particles after the cutting are relatively small due to the plurality of blanking channels, so that the vegetable food materials are more suitable for being cut. Therefore, the food processor can cut food to obtain uniform granular food materials with different sizes.

In one embodiment, the first bearing disc is fixedly arranged in the accommodating cavity, and the first bearing disc is detachably connected with the cup body; alternatively, the first and second liquid crystal display panels may be,

the first bearing plate is rotatably arranged in the containing cavity, and the peripheral wall of the first bearing plate and the inner side wall of the containing cavity are arranged at intervals to form the first discharging opening.

In one embodiment, the second bearing disc is fixedly arranged in the accommodating cavity, and the second bearing disc is detachably connected with the cup body; alternatively, the first and second electrodes may be,

the second bears the dish and rotationally locates the holding intracavity, the second bear the dish the periphery wall with the inside wall interval in holding chamber sets up to form the second feed opening.

In one embodiment, the second tray includes a tray body and a plurality of spacers, the spacers have a first end and a second end that are opposite to each other, the first end of the spacer is connected to the tray body, the second end of the spacer is spaced from the outer circumferential wall of the tray body in the radial direction of the tray body, and the plurality of second ends of the spacers are sequentially spaced around the circumferential direction of the tray body to form the plurality of blanking passages.

In one embodiment, the number of the separators is N, the number of the blanking channels is N, and the diameter of the second carrier tray is D, wherein pi × D/15 is not less than N and not more than pi × D/8.

In one embodiment, the plurality of blanking channels are divided into at least two groups around the circumference of the second bearing disc, and the two groups of blanking channels are distributed inside and outside along the radial direction of the second bearing disc.

In an embodiment, the stirring assembly further comprises a mounting seat, and the stirring blade comprises at least two blades; the two blades are arranged on the mounting seat, are oppositely arranged along the radial direction of the mounting seat and are arranged at intervals along the axial direction of the mounting seat; or

The two blades are arranged on the mounting seat, are oppositely arranged along the radial direction of the mounting seat and are arranged at equal heights along the axial direction of the mounting seat.

In one embodiment, the minimum distance between the outer edge of the second bearing plate and the inner side wall of the cup body is L, and L is more than 0.1mm and less than or equal to 3mm.

Drawings

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

FIG. 1 is a schematic structural view of an embodiment of a food processor according to the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is a schematic structural view of the first carrier tray shown in FIG. 1;

FIG. 4 is a schematic view of another embodiment of the food processor of the present invention;

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is a schematic diagram of an embodiment of the second susceptor shown in FIG. 4;

fig. 7 is a schematic structural view of another embodiment of the second carrier tray shown in fig. 4.

The reference numbers indicate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Cup body	340	Second bearing plate
110	Containing cavity	341	Disc body
				111	Upper chamber	342	Separator
112	Lower chamber	350	Second feed opening
				200	Drive assembly	351	Blanking channel
210	Driver	360	Mounting seat
				220	Transmission rod	370	Assembly hole
300	Stirring assembly	380	Pick-up hole
				310	Stirring knife	400	Cup lid
311	Blade	410	Feeding port
				320	The first bearing plate	500	Charging barrel
330	A first discharge opening	600	Pushing bar

The purpose of the present invention is to provide a novel and improved method and apparatus for operating a computer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, back, 8230; \8230;) are provided in the embodiments of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 3, in an embodiment of the food processor of the present invention, the food processor includes a cup body 100, a driving assembly 200, and a stirring assembly 300, wherein the cup body 100 has an accommodating chamber 110; stirring subassembly 300, including stirring sword 310 and first carrier disc 320, first carrier disc 320 is located in holding chamber 110 and inciting somebody to action holding chamber 110 falls into chamber 111 and lower chamber 112, first carrier disc 320 perhaps first carrier disc 320 with be formed with the first feed opening 330 that is used for filtering corresponding big or small food between the inside wall of holding chamber 110, first feed opening 330 is the annular setting, stirring sword 310 rotationally locates in last chamber 111, drive assembly 200 is used for the drive stirring sword 310 is in go up the internal rotation of chamber 111, so that bear in food warp on the first carrier disc 320 can pass through after the cutting of stirring sword 310 first feed opening 330 falls into lower chamber 112 after filtering.

It can be understood that the material of the first tray 320 is not limited, and only the first tray 320 can carry food. The first bearing plate 320 is disposed in the accommodating cavity 110 and divides the accommodating cavity 110 into an upper cavity 111 and a lower cavity 112, that is, the upper cavity 111 has a certain space, food materials can be placed in the upper cavity 111, the lower cavity 112 also has a certain space, and food materials can be placed in the lower cavity 112, wherein the upper cavity 111 is used for accommodating uncut food materials, and the lower cavity 112 is used for accommodating food materials cut by the stirring knife 310.

Further, the stirring blade 310 is disposed in the upper chamber 111, that is, the stirring blade 310 is disposed above the first carrier tray 320; the first tray 320 is provided with a first feed opening 330 for food to pass through; alternatively, a first feed opening 330 for food to pass through is formed between the first carrier tray 320 and the inner sidewall of the accommodating cavity 110. That is, in one embodiment, the stirring blade 310 cuts the food on the first carrying tray 320, and the cut food can be filtered by the first discharging hole 330 on the first carrying tray 320 and then fall into the lower chamber 112; in another embodiment, after the food on the first tray 320 is cut by the stirring blade 310, the food falls into the lower chamber 112 after being filtered from the first opening 330 formed by the first tray 320 and the cup body 100. The first feed opening 330 is used for filtering and screening the cut food, the first feed opening 330 is arranged in an annular shape, and the opening width of the first feed opening 330 can be set according to the user requirement, and is not limited herein. Through setting up first feed opening 330, can filter the screening to the food that stirring sword 310 cut, if the food after the cutting of stirring sword 310 is too big, can block and locate first feed opening 330, stirring sword 310 continues to cut food, and only can fall to lower chamber 112 through first feed opening 330 for the graininess edible material that is less than the opening width of first feed opening 330.

The first material outlet 330 is annularly arranged, so that the food processor in this embodiment is more suitable for cutting meat food, because the meat food has certain viscosity after being cut by the stirring blade 310, the granular food of the meat is easy to drop into the accommodating cavity 110 from the annularly arranged first material outlet 330. Of course, the food processor of the present embodiment may also be used to cut vegetable-type food.

When the food processor is used, food can be carried on the first carrying tray 320, the driving assembly 200 drives the stirring knife 310 to rotate so as to cut the food on the first carrying tray 320, a first feed opening 330 is formed between the first carrying tray 320 and the cup body 100, the first feed opening 330 is arranged in an annular shape, the first feed opening 330 is used for filtering and screening the cut food, if the cut food is larger than the opening width of the first feed opening 330, the food cannot fall into the lower cavity 112 through the first feed opening 330, and the stirring knife 310 continues to cut the food; if the food is smaller than the opening width of the first material dropping opening 330, the food will fall into the lower chamber 112 through the first material dropping opening 330, so as to obtain granular food material with uniform size, and the first material dropping opening 330 arranged in an annular shape makes the food granules after cutting relatively large. Therefore, the food processor can cut food to obtain granular food materials with uniform sizes.

Referring to fig. 4 to 7, in another embodiment of the food processor of the present invention, the food processor includes a cup body 100, a driving assembly 200 and a stirring assembly 300, the cup body 100 has an accommodating cavity 110; stirring subassembly 300 includes stirring sword 310 and second bearing disc 340, second bearing disc 340 is located in the holding chamber 110 and with holding chamber 110 falls into upper chamber 111 and lower chamber 112, second bearing disc 340 or second bearing disc 340 with be formed with second feed opening 350 between the inside wall of holding chamber 110, second feed opening 350 includes a plurality of unloading passageways 351 that are used for filtering corresponding big or small food, and is a plurality of unloading passageway 351 winds the circumference of second bearing disc 340 is arranged in proper order, stirring sword 310 rotationally locates in upper chamber 111, drive assembly 200 is used for the drive stirring sword 310 internal rotation is in upper chamber 111, so that the food that bear on second bearing disc 340 can be through a plurality of after the cutting of stirring sword 310 the unloading passageway 351 falls into lower chamber 112 after filtering.

It can be understood that the material of the second carrying tray 340 is not limited, and only the second carrying tray 340 can carry food. The second bearing disc 340 is disposed in the accommodating cavity 110 and divides the accommodating cavity 110 into an upper cavity 111 and a lower cavity 112, that is, the upper cavity 111 has a certain space, food materials can be placed in the upper cavity 111, the lower cavity 112 also has a certain space, and food materials can be placed in the lower cavity 112, wherein the upper cavity 111 is used for accommodating uncut food materials, and the lower cavity 112 is used for accommodating food materials cut by the stirring knife 310.

Further, the stirring blade 310 is disposed in the upper chamber 111, that is, the stirring blade 310 is disposed above the second carrying tray 340; a second feed opening 350 for food to pass through is arranged on the second bearing plate 340; or a second feed opening 350 for food to pass through is formed between the second carrier tray 340 and the inner side wall of the accommodating chamber 110. That is, in an embodiment, the stirring blade 310 cuts the food on the second carrying tray 340, and the cut food can fall into the lower chamber 112 after being filtered by the second feeding opening 350 on the second carrying tray 340 itself; in another embodiment, after the food on the second tray 340 is cut by the stirring blade 310, the food is filtered by the second feeding opening 350 formed by the second tray 340 and the cup body 100 and then drops into the lower chamber 112. Wherein, second feed opening 350 is used for filtering the screening to the food after the cutting, and second feed opening 350 includes a plurality of unloading passageways 351 that are used for filtering corresponding big or small food, and a plurality of unloading passageways 351 arrange in proper order around the circumference that the second bore dish 340, and the opening width of unloading passageway 351 can set up according to the user's demand, specifically does not do the restriction here. Through setting up a plurality of unloading passageways 351, can filter the screening to the food that stirring sword 310 cut, if the food after the cutting of stirring sword 310 is too big, then can block and locate unloading passageway 351, stirring sword 310 continues to cut food, and only the graininess that is less than the opening width of unloading passageway 351 eats the material and can drop to lower cavity 112 through unloading passageway 351.

Through setting up a plurality of unloading passageways 351, make the food processor in this embodiment be applicable to more and cut the food of vegetables class, because the food of vegetables class can not have the stickness after being cut like the food of meat usually, easily drop to lower cavity 112 from a plurality of unloading passageways 351 of second feed opening 350 after the vegetables are cut by stirring sword 310, and a plurality of unloading passageways 351 can be screened the size of the food granule of vegetables class, only the granule of vegetables is less than the opening width of unloading passageway 351, the vegetables after being cut can only be followed unloading passageway 351 and dropped to lower cavity 112, so be favorable to obtaining the even graininess edible material of size. The food processor of this embodiment may also be used to cut meat products.

When the food processor of the application is used, food can be loaded on the second loading tray 340, the driving assembly 200 drives the stirring knife 310 to rotate so as to cut the food on the second loading tray 340, a second feed opening 350 is formed between the second loading tray 340 and the cup body 100, the second feed opening 350 includes a plurality of feed channels 351 for filtering the food with corresponding size, the plurality of feed channels 351 are sequentially arranged around the circumference of the second loading tray 340, the feed channels 351 are used for filtering and screening the cut food, if the cut food is larger than the opening width of the feed channels 351, the food cannot fall into the lower chamber 112 through the feed channels 351, and the stirring knife 310 continues to cut the food; if the cut food is smaller than the opening width of the blanking channel 351, the food falls to the lower chamber 112 through the blanking channel 351, so that granular food materials with uniform size are obtained, and the plurality of blanking channels 351 enable the cut food particles to be relatively small. Therefore, the food processor can cut food to obtain granular food materials with uniform sizes.

Referring to fig. 1 and 4, in another embodiment of the food processor of the present invention, the food processor includes a cup body 100, a driving assembly 200, and a stirring assembly 300, wherein the cup body 100 has a receiving cavity 110; the stirring assembly 300 comprises a stirring blade 310, a first bearing disc 320 and a second bearing disc 340, wherein the first bearing disc 320 and the second bearing disc 340 can be selectively arranged in the accommodating cavity 110 to divide the accommodating cavity 110 into an upper cavity 111 and a lower cavity 112; when the first carrier tray 320 is disposed in the accommodating cavity 110, a first drain 330 for filtering food of a corresponding size is formed between the first carrier tray 320 or the first carrier tray 320 and the inner side wall of the accommodating cavity 110, the first drain 330 is disposed in a ring shape, the stirring blade 310 is rotatably disposed in the upper cavity 111, and the driving assembly 200 is configured to drive the stirring blade 310 to rotate in the upper cavity 111, so that the food carried on the first carrier tray 320 can fall into the lower cavity 112 after being filtered by the first drain 330 after being cut by the stirring blade 310; when the second bearing disc 340 is arranged in the accommodating cavity 110, the second bearing disc 340 or the second bearing disc 340 and the inner side wall of the accommodating cavity 110 are formed with a second feed opening 350, the second feed opening 350 includes a plurality of feed passages 351 for filtering foods with corresponding sizes, the feed passages 351 are sequentially arranged around the circumference of the second bearing disc 340, the stirring knife 310 is rotatably arranged in the upper cavity 111, the driving assembly 200 is used for driving the stirring knife 310 to rotate in the upper cavity 111, so that the foods borne on the second bearing disc 340 can be filtered by the plurality of feed passages 351 and then fall into the lower cavity 112.

It is understood that the first carrier tray 320 and the second carrier tray 340 can be selectively disposed in the accommodating cavity 110, and the related features of the first carrier tray 320 and the second carrier tray 340 can refer to the foregoing description, and detailed description thereof is omitted. When the food processor is used, the first carrying tray 320 or the second carrying tray 340 can be selectively arranged in the accommodating cavity 110 to obtain granular food materials with different sizes; when the first tray 320 is disposed in the accommodating chamber 110, the first tray is suitable for cutting meat food; when the second carrying tray 340 is disposed in the accommodating cavity 110, it is suitable for cutting vegetable food materials.

When the first carrier tray 320 is disposed in the accommodating cavity 110, food can be carried on the first carrier tray 320, the driving assembly 200 drives the stirring knife 310 to rotate so as to cut the food on the first carrier tray 320, a first discharge opening 330 is formed between the first carrier tray 320 and the cup body 100, the first discharge opening 330 is annularly disposed, the first discharge opening 330 is used for filtering and screening the cut food, if the cut food is larger than the opening width of the first discharge opening 330, the food cannot fall into the lower chamber 112 through the first discharge opening 330, and the stirring knife 310 continues to cut the food; if the food after cutting is smaller than the opening width of the first feed opening 330, the food will fall to the lower chamber 112 through the first feed opening 330, so as to obtain granular food materials with uniform size, and the first feed opening 330 arranged in an annular shape makes the food particles after cutting relatively large, which is more suitable for cutting meat food materials. When the second carrying tray 340 is disposed in the accommodating cavity 110, food can be carried on the second carrying tray 340, the driving assembly 200 drives the stirring knife 310 to rotate so as to cut the food on the second carrying tray 340, a second discharging opening 350 is formed between the second carrying tray 340 and the cup body 100, the second discharging opening 350 includes a plurality of discharging channels 351 for filtering the food with corresponding size, the plurality of discharging channels 351 are sequentially arranged around the circumference of the second carrying tray 340, the discharging channels 351 are used for filtering and screening the cut food, if the cut food is larger than the opening width of the discharging channels 351, the food cannot fall into the lower chamber 112 through the discharging channels 351, and the stirring knife 310 continues to cut the food; if the cut food is smaller than the opening width of the blanking channel 351, the food falls to the lower chamber 112 through the blanking channel 351, so that granular food materials with uniform sizes are obtained, and the plurality of blanking channels 351 enable the cut food particles to be relatively small, so that the vegetable food materials are more suitable for being cut. Therefore, the food processor can cut food to obtain uniform granular food materials with different sizes.

In one embodiment, the first carrying tray 320 is fixedly disposed in the accommodating chamber 110, and the first carrying tray 320 is detachably connected to the cup body 100; or, the first tray 320 is rotatably disposed in the accommodating cavity 110, and the outer peripheral wall of the first tray 320 and the inner side wall of the accommodating cavity 110 are spaced to form the first discharging opening 330.

It is understood that the first carrier plate 320 may be fixedly disposed in the receiving cavity 110, and of course, the first carrier plate 320 may also be rotatably disposed in the receiving cavity 110. When the first tray 320 is fixedly disposed in the accommodating cavity 110, that is, the first tray 320 is not rotatable in the accommodating cavity 110, the food cut by the stirring blade 310 can fall from the first discharge opening 330 to the lower chamber 112.

Further, the first bearing plate 320 can be disposed on the inner side wall of the cup body 100, and of course, the first bearing plate 320 can also be disposed on the bottom wall of the cup body 100 through the supporting member, and it is not limited herein, and only the first bearing plate 320 needs to be fixedly disposed in the accommodating cavity 110. The first tray 320 is detachably connected to the cup 100, and there are various ways for detachably connecting the first tray 320 to the cup 100, such as but not limited to: the first bearing plate 320 is clamped on the inner side wall of the cup body 100; or, the first bearing plate 320 is connected with the inner side wall of the cup body 100 through a bolt structure; still alternatively, the first carrier plate 320 may snap into engagement with a support within the cup 100, etc. When the first carrier tray 320 needs to be used, the first carrier tray 320 is installed in the accommodating cavity 110; when food needs to be cleaned or taken out, the first bearing tray 320 is taken out from the containing cavity 110, so that the first bearing tray 320 is conveniently disassembled and assembled, and the disassembling and assembling efficiency of the bearing tray is improved.

In an embodiment, the first carrier plate 320 is driven by the driving assembly 200, but the first carrier plate 320 may also be driven by another driving member to rotate, and is not limited herein. The first bearing tray 320 is rotatably disposed in the accommodating cavity 110, the stirring blade 310 cuts the food on the first bearing tray 320, the cut granular food materials roll and gather from the first bearing tray 320 to the outer edge of the first bearing tray 320 under the action of centrifugal force generated by the rotation of the first bearing tray 320, and only when the cut food is smaller than the opening width of the first discharging opening 330, the food can fall from the first discharging opening 330 to the lower chamber 112, so as to obtain granular food materials with uniform size. By arranging the first bearing disc 320 to be rotatably arranged in the accommodating cavity 110, the efficiency of moving or rolling food in the accommodating cavity 110 is improved, so that the food can rapidly fall into the lower chamber 112, the food is prevented from being repeatedly cut by the stirring knife 310 to cause the food to be muddy, and the reliability of the food processor for cutting the food to obtain granular food materials is improved.

In one embodiment, the second carrying tray 340 is fixedly disposed in the accommodating chamber 110, and the second carrying tray 340 is detachably connected to the cup body 100; or, the second carrying tray 340 is rotatably disposed in the accommodating cavity 110, and the outer peripheral wall of the second carrying tray 340 and the inner side wall of the accommodating cavity 110 are spaced to form the second feed opening 350.

It is understood that the second carrier plate 340 may be fixedly disposed in the receiving cavity 110, and the first carrier plate 320 may also be rotatably disposed in the receiving cavity 110. When the second carrying tray 340 is fixedly disposed in the accommodating cavity 110, that is, the second carrying tray 340 is not rotatable in the accommodating cavity 110, the food cut by the stirring blade 310 can fall from the second feeding opening 350 to the lower chamber 112.

Further, the second bearing plate 340 can be disposed on the inner side wall of the cup body 100, and of course, the second bearing plate 340 can also be disposed on the bottom wall of the cup body 100 through the supporting member, and it is not limited herein, and it is only necessary that the second bearing plate 340 can be fixedly disposed in the accommodating cavity 110. The second tray 340 is detachably connected to the cup 100, and the second tray 340 is detachably connected to the cup 100 in various ways, such as but not limited to: the second bearing plate 340 is clamped on the inner side wall of the cup body 100; or, the second bearing plate 340 is connected with the inner side wall of the cup body 100 through a bolt structure; still alternatively, the second carrier tray 340 snaps into place with a support within the cup 100, and so on. When the second carrying tray 340 needs to be used, the second carrying tray 340 is installed in the accommodating cavity 110; when needs wash or take out food, take out second carrier plate 340 from holding chamber 110, so conveniently carry out the dismouting to second carrier plate 340, be favorable to improving carrier plate's dismouting efficiency.

In an embodiment, the second carrying tray 340 is driven by the driving assembly 200, but the second carrying tray 340 may also be driven by another driving member to rotate, which is not limited herein. The second carrying tray 340 is rotatably disposed in the accommodating chamber 110, the stirring blade 310 cuts the food on the second carrying tray 340, the cut granular food materials roll and gather from the second carrying tray 340 to the outer edge of the second carrying tray 340 under the action of the centrifugal force generated by the rotation of the second carrying tray 340, and only when the cut food is smaller than the opening width of the blanking channel 351 of the second blanking port 350, the food can fall from the blanking channel 351 to the lower chamber 112, so that the granular food materials with uniform size are obtained. The second bearing plate 340 is rotatably disposed in the accommodating cavity 110, which is beneficial to improving the efficiency of moving or rolling food in the accommodating cavity 110, so that the food can rapidly fall into the lower chamber 112, and the food is prevented from being repeatedly cut by the stirring blade 310 to form muddy food, thereby improving the reliability of the food processor in cutting food to obtain granular food materials.

Referring to fig. 4 to 7, in an embodiment, the second tray 340 includes a tray body 341 and a plurality of spacers 342, the spacers 342 have a first end and a second end opposite to each other, the first end of the spacer 342 is connected to the tray body 341, the second end of the spacer 342 is spaced apart from the outer circumferential wall of the tray body 341 along the radial direction of the tray body 341, and the second ends of the spacers 342 are sequentially spaced around the circumferential direction of the tray body 341 to form a plurality of the feeding channels 351.

It is understood that the connection manner of the partition 342 and the disc body 341 may be various, for example, the partition 342 is fixed on the disc body 341, and the partition 342 and the disc body 341 are integrally formed; alternatively, the partition 342 may be detachably connected to the disc body 341, for example, by a snap structure, or by a bolt structure, and is not limited herein. The plurality of separators 342 are sequentially arranged at intervals in the circumferential direction of the tray body 341 and radially arranged to form a plurality of discharging channels 351, and the plurality of discharging channels 351 enable the cut food to uniformly disperse and fall into the lower chamber 112, so that the food is prevented from being stacked on the second bearing tray 340, and the applicability of the second bearing tray 340 is improved.

Referring to fig. 6, in an embodiment, the number of the separating members 342 is N, the number of the discharging channels 351 is N, and the diameter of the second carrier tray 340 is D, wherein pi × D/15 is not less than N not less than pi × D/8. It can be understood that, by defining the relationship between the diameter D of the second carrying tray 340 and the number N of the separating members 342, when the diameter D of the second carrying tray 340 is determined, the number of the separating members 342 can be defined, and due to the size determination of the second carrying tray 340, the plurality of separating members 342 are uniformly distributed on the tray body 341, so that the distance between two adjacent separating members 342 can also be defined, and the length of the separating members 342 can be determined by the diameter of the second carrying tray 340, so that the area of the blanking channel 351 can be defined, that is, the size of the blanking channel 351 can be defined, and further, the size through which food can pass is defined equivalently. Therefore, the limitation of pi x D/15 to N to pi x D/8 is equivalent to the limitation of the area of the blanking channel 351, namely, the limitation of the size of the food which can pass through the blanking channel 351, so that the food material is suitable for obtaining the granular food material with the preset size and uniformity.

Referring to fig. 7, in an embodiment, the plurality of discharging channels 351 are divided into at least two groups around the circumference of the second carrier plate 340, and the two groups of discharging channels 351 are distributed inside and outside along the radial direction of the second carrier plate 340. So set up, after food is cut by stirring sword 310, food can drop to lower cavity 112 in from a plurality of unloading passageways 351 of inner circle and outer lane, so be favorable to improving the speed that food dropped to avoid food to pile up on second bearing plate 340, and then improved food processor's practicality.

Further, the heights of the inner ring blanking channel 351 and the outer ring blanking channel 351 are not limited, for example, the inner ring blanking channel 351 and the outer ring blanking channel 351 are located at the same height along the radial direction of the second carrier tray 340; or, the inner ring blanking channel 351 and the outer ring blanking channel 351 are located at different heights along the radial direction of the second carrier plate 340, and the inner ring blanking channel 351 and the outer ring blanking channel 351 are arranged on the second carrier plate 340 in a staggered manner.

In one embodiment, the stirring assembly 300 further comprises a mounting seat 360, and the stirring blade 310 comprises at least two blades 311; the two blades 311 are arranged on the mounting seat 360, are oppositely arranged along the radial direction of the mounting seat 360, and are arranged at intervals along the axial direction of the mounting seat 360; alternatively, the two blades 311 are disposed on the mounting seat 360 and are oppositely disposed along the radial direction of the mounting seat 360, and are disposed along the axial direction of the mounting seat 360 at the same height.

It is understood that the number of the blades 311 of the stirring blade 310 may be plural, for example, two, three, or four, and is not limited herein. In an embodiment, the number of the blades 311 is two, and the two blades 311 are disposed on the mounting seat 360 and oppositely disposed along a radial direction of the mounting seat 360 and spaced along an axial direction of the mounting seat 360, so that the two blades 311 can cut food materials of different heights on the first carrying tray 320 or the second carrying tray 340, especially meat food. In addition, when food is placed, the food material is easy to place on the first carrying tray 320 or the second carrying tray 340, and the positions of the two blades 311 do not affect the placement of the food. So set up, optimized stirring subassembly 300's structure and arranged, improved food processor's suitability.

In another embodiment, the number of the blades 311 is two, and the two blades 311 are disposed on the mounting seat 360 and are oppositely disposed along the radial direction of the mounting seat 360, and are disposed at the same height along the axial direction of the mounting seat 360, so that the two blades 311 can cut the food materials with the same height on the first carrying tray 320 or the second carrying tray 340. Since vegetables, especially leaves and stems, are easily cut by the stirring blade 310, the two blades 311 are set to be equal in height in the embodiment, so that granular vegetable food materials with uniform size can be obtained, and the reliability of the food processor for processing vegetable foods is improved.

In one embodiment, the minimum distance between the outer edge of the second carrier tray 340 and the inner sidewall of the cup body 100 is L, and L is greater than 0.1mm and less than or equal to 3mm. It can be understood that by defining a minimum distance between the outer edge of the second carrier plate 340 and the inner sidewall of the cup body 100, smooth rotation of the second carrier plate 340 in the receiving cavity 110 can be ensured, thus improving reliability of the food processor. The value of L may be 0.2mm, or 0.3mm, or 0.4mm, or 0.6mm, or 0.8mm, or 1mm, or 2mm, or 3mm, etc., which is not limited herein.

Referring to fig. 1, in the above embodiment, the driving assembly 200 includes a driver 210 and a transmission rod 220, the transmission rod 220 extends along an axial direction of the cup 100, the stirring blade 310 is disposed on the transmission rod 220, and the driver 210 is configured to drive the transmission rod 220 to rotate so as to drive the stirring blade 310 to rotate.

It can be understood that, when the first carrying tray 320 is selected for carrying the food in the food processor, the first carrying tray 320 is disposed on the transmission rod 220 or the mounting seat 360, the stirring blade 310 and the first carrying tray 320 are disposed at an interval along the axial direction of the cup body 100, and the driver 210 is configured to drive the transmission rod 220 to rotate so as to drive the stirring blade 310 and the first carrying tray 320 to rotate. The driver 210 may be a driving motor, and the driving motor is drivingly connected to the transmission rod 220 to drive the transmission rod 220 to rotate. When the food processor selects the second carrying tray 340 to carry food, the process of the driver 210 driving the second carrying tray 340 is similar to that of the first carrying tray 320, which can be referred to the above description for details, and is not repeated herein.

In one embodiment, the driver 210 is located at the bottom or top of the cup 100. It is understood that the driver 210 can be provided at the bottom of the cup 100, such that the food processor adopts the structure of the underlying driver 210; of course, the driver 210 can also be provided on the top of the cup 100, such that the food processor adopts the structure of the upper driver 210. The above two modes can be selected according to the needs, and are not limited herein.

Referring to fig. 1 and 4, in the above embodiment, the food processor further includes a lid 400, the lid 400 is disposed on the top of the cup 100 to open or close the mouth of the cup 100, and the lid 400 is provided with a feeding opening 410.

It will be appreciated that lid 400 may be configured to open or close the mouth of cup 100 to facilitate removal and installation of blender assembly 300. In addition, the feeding port 410 is formed in the cup cover 400, food can be directly fed into the upper chamber 111 through the feeding port 410, and feeding can be performed without taking down the cup cover 400, so that the feeding port 410 is formed in the cup cover 400, and convenience in feeding is improved; and simultaneously, the safety of feeding is ensured.

In one embodiment, the feed opening 410 is formed with a feed cylinder 500, and the food processor further comprises a pusher bar 600 for pushing food from the feed cylinder 500 into the upper chamber 111, the pusher bar 600 being in interposed connection with the feed cylinder 500. It can be understood that the feeding cylinder 500 is arranged on the outer surface of the cup cover 400, the feeding cylinder 500 is communicated with the feeding port 410, the distance between the feeding port 410 and the stirring knife 310 is increased by arranging the feeding cylinder 500, the safety distance is increased for feeding, the situation that the stirring knife 310 hurts people due to misoperation is avoided, and the safety of the food processor is improved. In addition, the material pushing rod 600 can push the food in the feeding cylinder 500 into the upper chamber 111 to prevent the food from being stuck in the feeding cylinder 500, thereby improving the feeding smoothness.

Further, the material pushing rod 600 comprises a rod body and an annular boss arranged on the outer peripheral wall of the rod body, the annular boss is arranged at one end of the rod body, the rod body is connected with the material feeding barrel 500 in an inserting mode, and the annular boss is borne at the end of the material feeding barrel 500, so that the material pushing rod 600 can be stably installed on the cup cover 400.

In an embodiment, the material guiding channel for communicating the upper chamber 111 with the outside of the cup body 100 is disposed on the material pushing rod 600, the material guiding channel penetrates through the material pushing rod 600 along the axial direction of the cup body 100, and the bottom end of the material guiding channel is disposed in the accommodating cavity 110 and spaced from the stirring blade 310. So set up, can lead to food through the guide passageway, like the less rhizome class vegetables of volume, avoided vegetable class food crooked and difficult cutting in holding chamber 110 to be the condition emergence of graininess edible material, and then improved the reliability that food processor was right.

In the above embodiment, the first carrying tray 320 and/or the second carrying tray 340 are provided with the assembly holes 370, the first carrying tray 320 and/or the second carrying tray 340 are sleeved on the mounting base 360 through the assembly holes 370, and the first carrying tray 320 and/or the second carrying tray 340 are detachably connected with the mounting base 360. So configured, the first carrier tray 320 and/or the second carrier tray 340, and the mounting seat 360 can be easily disassembled, stored, and transported.

In the above embodiment, the first carrier tray 320 and/or the second carrier tray 340 are provided with pick-up holes 380, and the pick-up holes 380 are spaced from the outer edge of the first carrier tray 320 and/or the outer edge of the second carrier tray 340. By providing the pick-up holes 380, the first carrier tray 320 and the second carrier tray 340 can be easily taken out, so that the first carrier tray 320 and the second carrier tray 340 can be easily replaced.

The above only is the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all under the inventive concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims

1. A food processor, characterized in that it comprises:

a cup body having an accommodating chamber;

a drive assembly; and

2. A food processor, characterized in that it comprises:

a cup body having an accommodating chamber;

a drive assembly; and

3. A food processor, characterized in that it comprises:

the cup body is provided with an accommodating cavity;

a drive assembly;

4. The food processor of claim 1 or 3, wherein the first carrier plate is fixedly disposed in the receiving cavity, and the first carrier plate is detachably connected to the cup body; alternatively, the first and second electrodes may be,

first bearing plate rotationally locates the holding intracavity, first bearing plate's periphery wall with the inside wall interval in holding chamber sets up to form first feed opening.

5. The food processor of claim 2 or 3, wherein the second carrying tray is fixedly disposed in the receiving cavity, and the second carrying tray is detachably connected to the cup body; alternatively, the first and second electrodes may be,

6. The food processor of claim 2 or 3, wherein the second carrier tray includes a tray body and a plurality of dividers, the dividers having first and second ends disposed opposite to each other, the first ends of the dividers being connected to the tray body, the second ends of the dividers being spaced from the outer peripheral wall of the tray body in a radial direction of the tray body, and the second ends of the dividers being sequentially spaced around a circumferential direction of the tray body to form the plurality of blanking passages.

7. The food processor of claim 6, wherein there are N dividers, N blanking channels, and a diameter of the second carrier platter is D, wherein N is pi x D/15 and N is pi x D/8.

8. The food processor of claim 6, wherein the plurality of feeding channels are divided into at least two groups around the circumference of the second carrier plate, and the two groups of feeding channels are distributed inside and outside along the radial direction of the second carrier plate.

9. The food processor of any of claims 1-3, wherein the blending assembly further comprises a mount, the blending blade comprising at least two blades; the two blades are arranged on the mounting seat, are oppositely arranged along the radial direction of the mounting seat and are arranged at intervals along the axial direction of the mounting seat; or

10. A food processor according to claim 2 or 3, wherein the minimum spacing between the outer edge of the second carrier plate and the inner side wall of the cup body is L,0.1mm < L ≦ 3mm.