CN216439056U - Food processor adaptive to multiple food materials - Google Patents

Abstract

The utility model discloses a food processing machine adaptive to various food materials, which comprises a host machine for accommodating a motor and a stirring cup, wherein a stirring assembly driven by the motor is arranged in the stirring cup, the stirring assembly comprises a first stirring piece and a second stirring piece which are detachably connected with the motor respectively, and the second stirring piece is provided with a first speed reducing piece; the motor can drive first stirring piece to first stirring piece output first moment of torsion and rotate, and the motor can drive second stirring piece to second stirring piece output second moment of torsion through first reduction gear and rotate, and wherein, first moment of torsion is less than the second moment of torsion. The motor is when through first reduction gear speed reduction, and the moment of torsion that the increase motor exported to the second stirring piece for the second moment of torsion is greater than first moment of torsion, realizes high moment of torsion when reaching required low rotational speed, realizes that food preparation machine power is abundant, thereby is better to the processing effect of eating the material.

Description

Food processor adaptive to multiple food materials

Technical Field

The utility model belongs to the field of food processing devices, and particularly relates to a food processing machine adaptive to various food materials.

Background

With the advancement of technology and the constant pursuit of quality of life by consumers, multifunctional food processors, such as those that include both meat and vegetable mincing and dough mixing functions, are becoming increasingly popular. However, different food processing needs different processing rotating speeds, and the output of a single rotating speed cannot meet the requirements of customers, so that the existing food processing machine is provided with two working speeds of high speed and low speed for distinguishing; in order to realize low-speed work, the high-speed motor is adjusted to 1000-2000 rpm through the primary reduction gearbox, and then the rotating speed is continuously adjusted in an electric control mode to realize other low-speed shredding and slicing functions; although the output rotating speed meets the requirement, the output torque is too small, the torque is insufficient during working, the temperature of the motor rises, and the treatment effect on food materials is not good.

SUMMERY OF THE UTILITY MODEL

In view of the above disadvantages, the utility model provides a food processing machine adapted to multiple food materials, wherein the first speed reducer is used for reducing speed and increasing torque, so that the food processing machine is powerful, and the food materials are processed better.

The utility model is realized by the following technical scheme:

a food processor adaptive to multiple food materials comprises a main machine for accommodating a motor and a stirring cup, wherein a stirring assembly driven by the motor is arranged in the stirring cup, the stirring assembly comprises a first stirring piece and a second stirring piece which are detachably connected with the motor respectively, and the second stirring piece is provided with a first speed reducing piece; the motor can drive first stirring piece to first stirring piece output first moment of torsion and rotate, and the motor can drive second stirring piece to second stirring piece output second moment of torsion through first reduction gear and rotate, and wherein, first moment of torsion is less than the second moment of torsion. First stirring piece and second stirring piece can process different edible materials, nevertheless because the rotational speed of second stirring piece reduces, in order to process edible material better, the motor is when slowing down through first reduction gear, increases the moment of torsion that the motor exported to second stirring piece for the second moment of torsion is greater than first moment of torsion, realizes high moment of torsion when reaching required low rotational speed, realizes that food preparation machine power is abundant, thereby it is better to the processing effect of edible material.

Furthermore, the food processor also comprises a second speed reducer, and the motor outputs the reduced rotating speed to the first stirring piece or the second stirring piece through the second speed reducer. When the motor drives the first stirring piece to rotate, the motor only needs to decelerate through the second decelerating piece, and when the motor drives the second stirring piece to rotate, the motor can decelerate twice through the second decelerating piece and the first decelerating piece, and the torque is increased while the speed is reduced.

Further, the second speed reducer is arranged on the motor, or the second speed reducer is arranged at the bottom of the stirring cup. The mounting position of the second reduction gear can be better adapted to the structure of the food processor.

Further, the second stirring piece still includes the transmission subassembly of being connected with the motor drive and is connected to the functional block of transmission subassembly in order to process the material, and first speed reducer is located transmission subassembly department. First reduction gear can further slow down the rotational speed that the motor passes through the second reduction gear speed reduction to reach the required rotational speed of second stirring, and slow down through first reduction gear, for adjusting the rotational speed through electric control mode, not only can realize slowing down through first reduction gear, can realize improving the moment of torsion of second stirring output simultaneously, realize high moment of torsion when reaching required low rotational speed, thereby realize that food preparation machine power is abundant.

Furthermore, the food processor also comprises a second speed reducing part, the transmission assembly comprises a connecting shaft in transmission connection with the motor and an output shaft connected with the functional assembly, the first speed reducing part is in meshing transmission with the connecting shaft and the output shaft, the connecting shaft is used for outputting the rotating speed and the torque of the motor after being reduced by the second speed reducing part, and the output shaft is used for outputting the rotating speed and the torque of the connecting shaft after being reduced by the first speed reducing part. (ii) a Because the transmission assembly is used for realizing the transmission between the motor and the functional assembly, the first speed reducing part is positioned at the transmission assembly, so that the first speed reducing part connecting shaft is convenient to be meshed with the output shaft, and the structure is more compact after the transmission assembly is connected with the first speed reducing part.

Further, the second stirring piece still includes the transmission subassembly of being connected with the motor drive and is connected to the functional block of transmission subassembly in order to process the material, and first speed reducer is located functional block department. The food materials are processed through the functional components in the second stirring part, so that the first speed reducing part is arranged at the functional components, the rotating speed at the transmission components can be reduced through the first speed reducing part and then output to the functional components, the purpose that the functional components reach lower rotating speed in the second stirring part is achieved, the first speed reducing part is located at the functional components, the positions of transmission connection between the transmission components and the motor can be reduced, and the transmission structure is optimized.

Furthermore, the food processor also comprises a second speed reducing part, the functional component comprises a cutter head in transmission connection with the transmission component and a cutting knife arranged on the cutter head, the first speed reducing part is in meshing transmission with the cutter head, the transmission component is used for outputting the rotating speed and the torque of the motor after being reduced by the second speed reducing part, and the cutter head is used for outputting the rotating speed and the torque of the transmission component after being reduced by the first speed reducing part.

Furthermore, the stirring cup comprises a cup body arranged on the main machine and a cup cover buckled on the cup body, a first transmission part in transmission connection with the transmission assembly is arranged at the bottom of the cup body, and a second transmission part in transmission connection with the functional assembly is arranged on the cup cover. Realize the fixed spacing of transmission assembly through first transmission portion, and then realize the fixed spacing of functional unit through second transmission portion.

Further, the functional component is one of a shredding and slicing component, a dough mixing component and a meat cutting component.

Furthermore, the rotating speed of the first stirring piece is 1000-1500 rpm, the first torque is 1 N.m, the rotating speed of the second stirring piece is 300-500 rpm, and the second torque is 2.5-3 N.m.

Drawings

FIG. 1 is a schematic view illustrating the mounting of an exemplary embodiment of a second reduction gear in a food processor according to the present invention;

FIG. 2 is a schematic view illustrating the mounting of another exemplary embodiment of a second reduction gear in the food processor of the present invention;

FIG. 3 is a schematic view illustrating the mounting of an exemplary embodiment of a first reduction gear in the food processor of the present invention;

FIG. 4 is a schematic cross-sectional view of an exemplary embodiment of the transmission assembly of the present invention;

FIG. 5 is a schematic view illustrating the mounting of another exemplary embodiment of a first reduction gear in the food processor of the present invention;

fig. 6 is a schematic cross-sectional view illustrating an exemplary embodiment of the motor of the present invention.

Reference numerals:

1. the stirring cup comprises a main machine 11, a motor 111, a motor body 112, a rotating shaft 2, a stirring cup 21, a cup body 211, a first transmission part 22, a cup cover 221, a second transmission part 3, a first stirring piece 4, a second stirring piece 41, a transmission assembly 411, a connecting shaft 412, an output shaft 42, a functional assembly 5, a first speed reducer 6 and a second speed reducer.

Detailed Description

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

It should be noted that the terms of orientation such as left, right, up, down, front and back in the embodiments of the present invention are only relative concepts or are referred to a normal use state of the product, i.e., a traveling direction of the product, and should not be considered as limiting.

In addition, the dynamic terms such as "relative movement" mentioned in the embodiments of the present invention include not only a positional change but also a movement in which a state changes without a relative change in position such as rotation or rolling.

Finally, it is noted that when an element is referred to as being "on" or "disposed" to another element, it can be on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

As shown in fig. 1 to 6, the food processing machine adapted to multiple food materials includes a main machine accommodating a motor 11 and a stirring cup, wherein when the stirring cup and the main machine are installed, the stirring cup can be disposed above the main machine, such as a wall breaking machine, a food processor, or alternatively, the main machine can be disposed above the stirring cup, such as a meat grinder, and hereinafter, taking the example that the stirring cup is disposed above the main machine, a stirring assembly driven by the motor 11 is disposed in the stirring cup 2, the stirring assembly includes a first stirring member 3 and a second stirring member 4 detachably connected to the motor 11, and the second stirring member 4 is provided with a first speed reducer 5; the motor 11 can output a first torque to the first stirring part 3 to drive the first stirring part 3 to rotate, the motor 11 can output a second torque to the second stirring part 4 through the first speed reducer 5 to drive the second stirring part 4 to rotate, and the first torque is smaller than the second torque; the first stirring part 3 and the second stirring part 4 can process different food materials, because the motor 11 outputs to the second stirring part 4 through the first speed reducer 5, the rotating speed of the second stirring part 4 is lower than that of the first stirring part 3, so that the food materials are crushed through the high-speed rotation of the first stirring part 3, for example, the meat mincing function is realized through the first stirring part 3, and the rotating speed of the second stirring part 4 is lower, so that the food materials can be simply cut through the second stirring part 4, for example, the shredding, slicing or dough kneading function is realized through the second stirring part 4, but because the rotating speed of the second stirring part 4 is reduced, in order to process the food materials better, the motor 11 reduces the speed through the first speed reducer 5, and simultaneously increases the torque output to the second stirring part 4 by the motor 11, so that the second torque is greater than the first torque, and simultaneously achieves the high torque when reaching the required low rotating speed, therefore, the food processing machine is abundant in power, insufficient in torsion during shredding, slicing or kneading is avoided, and the food processing effect is better.

In order to better drive the first stirring part 3 or the second stirring part 4 to rotate, the motor body usually rotates at a high speed, so that the rotating speed of the first stirring part 3 is higher, and the motor 11 can decelerate for the first time when driving the first stirring part or the second stirring part 4 to rotate; preferably, the food processor further comprises a second speed reducer 6, and the motor 11 outputs the reduced rotating speed to the first stirring member 3 or the second stirring member 4 through the second speed reducer 6; that is, the motor 11 only needs to decelerate through the second decelerating part 6 when driving the first stirring part 3 to rotate, and the motor 11 decelerates twice through the second decelerating part 6 and the first decelerating part 5 when driving the second stirring part 4 to rotate, thereby increasing the torque while decelerating.

As shown in fig. 6, in the present application, the motor 11 is selected as a speed reduction motor, the motor 11 includes a motor main body 111 and a rotating shaft 112, the motor main body 111 drives the rotating shaft 112 to rotate, wherein when the second speed reducer 6 is disposed, as shown in fig. 1, the second speed reducer 6 may be disposed on the motor 11, that is, the second speed reducer 6 is respectively in meshing transmission with the motor shaft of the motor main body 111 and the rotating shaft 112, so that the motor main body 111 outputs the reduced rotating speed to the rotating shaft 112 through the second speed reducer 6, the first stirring member 3 or the second stirring member 4 is in transmission connection with the rotating shaft 112, and the rotating shaft 112 rotates to drive the first stirring member 3 or the second stirring member 4 to rotate; or as shown in fig. 2, the second speed reducer 6 is disposed at the bottom of the stirring cup 2, and the stirring cup 2 is disposed at the upper end of the main machine 1, so that the second speed reducer 6 is located at the bottom of the stirring cup 2, and the second speed reducer 6 is also located at a position close to the motor 11, so that the second speed reducer 6 is conveniently matched with the motor 11, the motor main body 111 drives the rotating shaft 112 to rotate during operation, and at this time, the second speed reducer 6 is in meshing transmission with the rotating shaft 112 and the first stirring part 3 or the second stirring part 4, so that the motor 11 outputs the decelerated rotating speed to the first stirring part 3 or the second stirring part 4 through the second speed reducer 6; by being able to arrange the second reduction gear 6 in different positions, the mounting position of the second reduction gear 6 can be better adapted to the structure of the food processor.

As for the first speed reducer 5 and the second speed reducer 6, the speed reducers can be selected as speed reduction boxes, the speed regulation function is realized through the planetary gear set and the sun gear in the speed reduction boxes, and the speed reduction boxes save space when being arranged, are reliable and durable, and have high overload bearing capacity.

In this application, first stirring piece 3 can select for the meat chopper, rubs the processing through the relatively fast rotational speed of first stirring piece 3 to eating the material promptly to improve the viscosity and the elasticity of ground meat, be convenient for digest and absorb.

When the first stirring part 3 works, the motor 11 is driven after being decelerated once by the second decelerating part 6, for example, the motor 11 outputs the rotating speed of 1000-15000 r/min and the torque of 0.8-1 N.m, and the rotating speed of 1000-1500 r/min and the torque of 1 N.m required by the first stirring part 3 are achieved after being decelerated by the second decelerating part 6.

As shown in fig. 3, the first stirring part 3 can rotate at a high speed to achieve a meat mincing function, when cutting vegetables or kneading dough, the food can be processed by the second stirring part 4, the second stirring part 4 further comprises a transmission component 41 in transmission connection with the motor 11 and a functional component 42 connected to the transmission component 41 to process the materials, and the first speed reducer 5 is located at the transmission component 41; the first speed reducer 5 can further reduce the speed of the motor 11 through the speed reduced by the second speed reducer 6, so that the speed required by the second stirring part 4 is achieved, the speed is reduced through the first speed reducer 5, and compared with the speed regulated through an electric control mode, the speed can be reduced through the first speed reducer 5, the torque output by the second stirring part 4 can be improved, the required low speed is achieved, the high torque is achieved, so that the power of the food processing machine is abundant, the insufficient torque is avoided during shredding, slicing or dough kneading, and the food processing effect is better; it will be understood that the high and low speeds in this application are relative terms of the first and second stirring members 3 and 4.

When the second stirring part 4 works, after the motor 11 is used for primary speed regulation through the second speed reducing part 6, secondary speed regulation is carried out through the first speed reducing part 5, for example, the motor 11 outputs the rotating speed of 1000-15000 rpm and the torque of 0.8-1 N.m, the rotating speed of 1000-1500 rpm and the torque of 1 N.m are achieved after speed regulation is carried out through the second speed reducing part 6, and the rotating speed of 300-500 rpm and the second torque of 2.5-3 N.m are achieved after speed regulation is carried out through the first speed reducing part 5.

Preferably, the functional component 42 is one of a shred and slice component, a dough component and a meat component; when using, will shred one in section subassembly, dough mixing subassembly and the meat cutting subassembly and first reduction gear 5 and cooperate the back, install to stirring cup 2 inside, realize the processing to eating the material after the circular telegram.

It can be understood that, when the second stirring member 4 is assembled, the shredding and slicing assembly, the dough mixing assembly or the meat cutting assembly can be respectively assembled with a first speed reducer 5 to form the second stirring member 4, so that the corresponding second stirring member 4 can be replaced according to different processing requirements for food materials; or, because the meat chopper can also realize the functions of shredding, slicing or cutting meat, the first speed reducer 5 can be molded separately, when shredding, slicing or cutting meat is needed, the first speed reducer 5 and the meat chopper can be simultaneously installed inside the stirring cup 2, and when a dough kneading assembly is needed, the dough kneading rod and the first speed reducer 5 for kneading dough can be simultaneously installed inside the stirring cup 2; or the first speed reducer 5 is separately molded, the vegetable is usually cut into shreds and slices, and in order to prevent the vegetable and the meat from contacting, the shreds and the slices can be separately manufactured and assembled with the first speed reducer 5 and then installed in the stirring cup 2; it will be understood that the meat cutting function is to cut the meat into pieces, and the first stirring member 3 is to mince the meat.

Wherein, first stirring piece 3 is the minced steak sword, and the minced steak sword can realize shredding the section or cutting into the cubic with meat equally, consequently when functional component 42 is shredding the section or cutting into the meat subassembly, also can select the minced steak sword, be different from mincing meat into meat filling, set up first speed reducer 5 when setting up the minced steak sword, thereby the rotational speed that makes the minced steak sword is less than the rotational speed when mincing the meat, thereby realize shredding the section or cutting into the cubic with meat through the minced steak sword, can reduce the supporting cutter quantity of food preparation machine, only need prepare the minced steak sword and just can realize the minced steak, shred the function of section or cutting into the piece, and then can realize the function of kneading dough through the pole of kneading dough.

Preferably, the second stirring member 4 is manufactured by assembling the transmission assembly 41 and the first speed reducer 5 into a whole, so that the functional assembly 42 is assembled to mount the shred and slice assembly, the dough kneading assembly and the meat cutting assembly on the transmission assembly 41 and the first speed reducer 5, for example, the shred and slice assembly and the first speed reducer 5 are respectively assembled on both sides of the transmission assembly 41, or the meat cutting assembly is sleeved on the transmission assembly 41, or the dough kneading assembly is assembled on the transmission assembly 41.

As shown in fig. 3 and 4, the food processor further includes a second speed reducer 6, the motor 11 outputs the reduced rotation speed to the second stirring member 4 through the second speed reducer 6, the transmission assembly 41 includes a connecting shaft 411 in transmission connection with the motor 11 and an output shaft 412 in connection with the functional assembly 42, the first speed reducer 5 is in mesh transmission with the connecting shaft 411 and the output shaft 412, the connecting shaft 411 is used for outputting the rotation speed and the torque of the motor 11 reduced by the second speed reducer 6, and the output shaft 412 is used for outputting the rotation speed and the torque of the connecting shaft 411 reduced by the first speed reducer 5; since the transmission assembly 41 is used for realizing transmission between the motor 11 and the functional assembly 42, the first speed reducer 5 is located at the transmission assembly 41, which facilitates engagement between the connecting shaft 411 of the first speed reducer 5 and the output shaft 412, so that the structure is more compact after the transmission assembly 41 is connected with the first speed reducer 5.

In the above case where the second speed reducer 6 is disposed at the bottom of the stirring cup 2, when the second speed reducer 6 is disposed on the motor 11, the second speed reducer 6 is engaged with the motor shaft of the motor body 111 and the rotating shaft 112, respectively, and the rotating shaft 112 is engaged with the connecting shaft 411 of the transmission assembly 41.

As shown in fig. 5, the second stirring member 4 further includes a transmission assembly 41 in transmission connection with the motor 11 and a functional assembly 42 connected to the transmission assembly 41 for processing the material, the first speed reducer 5 is located at the functional assembly 42; because the food material is processed through the functional component 42 in the second stirring part 4, the first speed reducer 5 is arranged at the functional component 42, the rotating speed at the position of the transmission component 41 can be reduced through the first speed reducer 5 and then output to the functional component 42, the purpose that the rotating speed of the functional component 42 in the second stirring part 4 is lower is achieved, the first speed reducer 5 is located at the functional component 42, the part of transmission connection between the transmission component 41 and the motor 11 can be reduced, and therefore the transmission structure is optimized.

The second stirring bar 4 will be described in detail below as an example of a shredding and slicing unit.

The food processor also comprises a second speed reducer 6, the motor 11 outputs the reduced rotating speed to the second stirring part 4 through the second speed reducer 6, preferably, the functional component 42 comprises a cutter head in transmission connection with the transmission component 41 and a cutting knife arranged on the cutter head, the first speed reducer 5 is in meshing transmission with the cutter head, the transmission component 41 is used for outputting the rotating speed and the torque of the motor 11 after being reduced by the second speed reducer 6, and the cutter head is used for outputting the rotating speed and the torque of the transmission component 41 after being reduced by the first speed reducer 5; can shred the section to eating the material through the cutting knife, wherein, blade disc and cutting knife when setting up, set up in the relative one side of transmission assembly 41 and motor 11 junction, and motor 11 setting can be kept away from equally when setting up to first gear reducer 5, makes the space utilization inside stirring cup 2 more abundant.

The stirring cup 2 comprises a cup body 21 arranged on the host machine 1 and a cup cover 22 buckled on the cup body 21, the bottom of the cup body 21 is provided with a first transmission part 211 in transmission connection with the transmission component 41, and the cup cover 22 is provided with a second transmission part 221 in transmission connection with the functional component 42; the first transmission part 211 is used for realizing the fixed limit of the transmission component 41, the second transmission part 221 is used for realizing the fixed limit of the functional component 42, and when the first speed reducer 5 is positioned at the transmission component 41, the first speed reducer 5 is matched and connected with the first transmission part 211, so that the first speed reducer 5 is respectively meshed and transmitted with the connecting shaft 411 and the output shaft 412; when the first speed reducer 5 is located at the functional component 42, the first speed reducer 5 is connected with the second transmission part 221 in a matching manner, so that the first speed reducer 5 is in meshing transmission with the output shaft 412 and the functional component 42 respectively.

Preferably, bowl cover 22 department is equipped with the feed inlet with external intercommunication, can descend in the condition of not opening bowl cover 22 and eat material and add to cup 21 from the feed inlet, when wanting to cut into slices and shred the function, is connected to first gear reducer 5 department with the blade disc, and the cutting knife sets up in blade disc department, and function block 42 closes on bowl cover 22 and sets up promptly, is eating material from the feed inlet add the back like this, can make and eat material and function block 42 rapid contact, realizes eating the processing of material.

It can be understood that, when the functional component 42 is a cutter head, a cutter knife and the like which can be arranged on the part close to the cup cover 22, the first speed reducer 5 can be arranged on the functional component 42, and when the functional component 42 is a dough kneading component or a meat cutting component, the first speed reducer 5 can be arranged on the transmission component 41 to facilitate the contact with food materials, and different selections can be carried out according to actual conditions.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. A food processor adaptive to multiple food materials comprises a host machine for accommodating a motor and a stirring cup, wherein a stirring assembly driven by the motor is arranged in the stirring cup;

the motor can to first stirring piece output first moment of torsion drives first stirring piece rotates, the motor can pass through first reduction gear to second stirring piece output second moment of torsion drives second stirring piece rotates, wherein, first moment of torsion is less than the second moment of torsion.

2. The food processor as claimed in claim 1, further comprising a second speed reducer, wherein the motor outputs the reduced speed to the first stirring member or the second stirring member through the second speed reducer.

3. The multi-ingredient food processor as claimed in claim 2, wherein the second speed reducer is disposed at the motor or at the bottom of the blending cup.

4. The multi-ingredient food processor as recited in claim 1, wherein the second stirring member further comprises a transmission assembly in transmission connection with the motor and a functional assembly connected to the transmission assembly for processing the materials, and the first speed reducer is located at the transmission assembly.

5. The food processor adapted to multiple food materials according to claim 4, further comprising a second speed reducer, wherein the transmission assembly comprises a connecting shaft in transmission connection with the motor and an output shaft connected with the functional assembly, the first speed reducer is in meshing transmission with the connecting shaft and the output shaft, the connecting shaft is used for outputting the rotating speed and the torque of the motor after being reduced by the second speed reducer, and the output shaft is used for outputting the rotating speed and the torque of the connecting shaft after being reduced by the first speed reducer.

6. The multi-ingredient food processor as recited in claim 1, wherein the second stirring member further comprises a transmission assembly in transmission connection with the motor and a functional assembly connected to the transmission assembly for processing the material, and the first speed reducer is located at the functional assembly.

7. The food processor of claim 6, wherein the food processor further comprises a second speed reducer, the functional assembly comprises a cutter head in transmission connection with the transmission assembly and a cutting knife arranged on the cutter head, the first speed reducer is in meshing transmission with the cutter head, the transmission assembly is used for outputting the rotating speed and the torque of the motor after being reduced by the second speed reducer, and the cutter head is used for outputting the rotating speed and the torque of the transmission assembly after being reduced by the first speed reducer.

8. The food processor capable of adapting to multiple food materials according to claim 4 or 6, wherein the blending cup comprises a cup body arranged on the main machine and a cup cover buckled on the cup body, a first transmission part in transmission connection with the transmission assembly is arranged at the bottom of the cup body, and a second transmission part in transmission connection with the functional assembly is arranged on the cup cover.

9. The food processor for adapting to a plurality of food materials of claim 4 or 6, wherein the functional component is one of a shred and slice component, a dough component and a meat component.

10. The food processor as claimed in claim 1, wherein the first stirring member rotates at a speed of 1000-1500 rpm, the first torque is 1N-m, the second stirring member rotates at a speed of 300-500 rpm, and the second torque is 2.5-3N-m.

Images