CN216724302U - Food preparation machine with optimized structure - Google Patents

Abstract

The utility model relates to the field of food processing machines, and discloses a food processing machine with an optimized structure, which comprises a host machine, a crushing assembly and a processing cup assembly, wherein the crushing assembly comprises a stirring knife assembly and a motor assembly for driving the stirring knife assembly, the food processing machine also comprises a liquid receiving cup, a void avoiding part is arranged below the motor assembly, and the liquid receiving cup can be arranged below the motor assembly in a picking and placing manner and is at least partially accommodated in the void avoiding part. The utility model provides a food preparation machine can optimize the spatial layout of host computer, has improved space utilization, is favorable to reducing the size of horizontal direction.

Description

Food preparation machine with optimized structure

Technical Field

The utility model relates to the field of food processing machines, in particular to a food processing machine with an optimized structure.

Background

When the existing food processor works, the processing cup assembly and the heating disc assembly surround to form a processing cavity, and the motor assembly works to transmit torque to drive the stirring cutter assembly to move at a high speed to cut food, so that the effect of crushing food is achieved. The existing food processor has the advantages that a common arrangement structure is that a processing cavity and a motor assembly are arranged up and down, the motor assembly is connected with a base, and the axial space of the motor assembly occupies a large space, so that a main machine is required to be provided with a radial convex part for placing components such as a rotary valve, the horizontal direction of the whole machine is large in size, and the whole appearance size is large.

Disclosure of Invention

In order to solve one or more technical problems in the prior art, or at least provide a useful choice, the utility model provides a food processor with an optimized structure, which optimizes the spatial layout of a main machine, improves the spatial utilization rate, and is beneficial to reducing the size in the horizontal direction.

The utility model provides a food processor with an optimized structure, which comprises a host machine, a crushing assembly and a processing cup assembly, wherein the crushing assembly comprises a stirring cutter assembly and a motor assembly for driving the stirring cutter assembly, the food processor also comprises a liquid receiving cup, a clearance part is arranged below the motor assembly, the liquid receiving cup can be placed below the motor assembly and at least partially accommodated in the clearance part, and the projection of the motor and the liquid receiving cup in the horizontal plane is at least partially overlapped.

The utility model provides a food processor, and provides a space avoiding arrangement structure below a motor assembly. Compared with the prior art with the host computer evagination to set up the arrangement of connecing the liquid cup in the below, in this application, motor element, connect the thick liquid cup size only partially superpose or no longer superpose in the horizontal direction, can reduce the size of host computer horizontal direction, optimize host computer spatial layout.

In a preferred embodiment of the food processor with an optimized design, the liquid-receiving cup is arranged directly below the motor assembly and can be completely accommodated in the recess.

According to the food processor, the liquid receiving cup is arranged right below the motor assembly, so that the size of the main machine in the horizontal direction can be reduced to the greatest extent, and the structure is more compact. The space of the space avoiding part can contain all the liquid receiving cups, so that the liquid receiving cups are prevented from being exposed, the spatial layout is more reasonable, the integrity of the whole machine is kept, and the attractiveness of the whole machine is better.

In a preferred embodiment of the food processor with an optimized design, the diameter of the coil of the motor assembly is D1, the height of the coil is H1, and D1 > H1.

According to the food processing machine, the motor is subjected to flattening treatment, on one hand, the axial space occupation of the motor can be further improved through the flat motor, so that the height of a clearance part below the motor is increased, and a liquid receiving cup can be placed conveniently. On the other hand, when the height of the coil of the motor is smaller than the diameter of the coil, the diameter of the rotor winding is large, the sectional area is large, the induced or passing current is large, and enough torque can be obtained, so that the stirring knife assembly is driven to rotate at a high speed.

In the preferred implementation mode of food preparation machine of a kind of configuration optimization, food preparation machine is still including installing in the water tank of the host computer and setting up the rotary valve assembly in the host computer, the rotary valve assembly is connected with the liquid outlet, connect the liquid cup including connecing thick liquid cup and surplus water box, connect the thick liquid cup to set up in the electrical machinery component below, the surplus water box sets up in the water tank below, the rotary valve assembly can drive the liquid outlet to move to connecing thick liquid cup or surplus water box top.

The food processor also comprises a water tank arranged on the main machine, thereby realizing the operation of automatically adding water and being convenient for realizing the function of self-cleaning. The automatic slurry collecting device is characterized by further comprising a rotary valve assembly arranged in the host, and the outlet of the liquid outlet nozzle moves to the position above the slurry collecting cup and the position above the residual water box respectively by means of the rotary valve assembly, so that different functions of slurry collecting and waste water collecting can be achieved. The slurry receiving cup is arranged below the motor assembly, and the residual water box is arranged below the water tank, so that the axial space occupation is reduced, and the structure compactness is ensured.

In a structurally optimized preferred implementation of the food processor, the rotary valve assembly is disposed between the motor assembly and the water tank, and the liquid outlet nozzle extends out from between the motor assembly and the water tank to below the grinding assembly.

According to the food processor, the rotary valve component is arranged between the motor component and the water tank, compared with the mode that the rotary valve component is arranged on the convex part of the main machine in the existing food processor, the space between the motor component and the water tank is fully utilized, the structure is more compact, and the integrity is good.

In a preferred realization of the structurally optimized food processor, the residual water box has a first drawing-off direction relative to the main machine, the slurry receiving cup has a second drawing-off direction relative to the main machine, and an included angle between the first drawing-off direction and the second drawing-off direction is D2 and satisfies 60 degrees to D2 degrees to 180 degrees.

According to the food processing machine, the interval angle between the slurry receiving cup and the residual water box in the pumping direction is set, so that the interference between the slurry receiving cup and the residual water box can be avoided, the taking and the placing of the residual water box and the slurry receiving cup are not influenced mutually, compared with the mode that the residual water box is placed between the slurry receiving cup and a main machine in the existing food processing machine, the residual water box can be taken only after the slurry receiving cup is taken down, and the slurry receiving cup and the residual water box can be taken independently and are convenient to take.

In a structurally optimized preferred implementation of the food processor, the motor assembly further comprises a motor body and an upper shell and a lower shell which clamp the motor body, and an air inlet duct is formed between the upper shell and the lower shell.

The food processor fixes the motor body through the upper shell and the lower shell, limits the motor body and ensures the stability of the motor body. The air inlet and outlet of the motor body can be kept through the air inlet duct between the upper shell and the lower shell, and the motor is easy to overheat in continuous operation due to the fact that the stirring knife of the food processor needs to rotate at a high speed, the operation efficiency is influenced, the motor can be burnt out even, the air inlet and outlet of the motor body is kept through the air inlet duct, and heat dissipation of the motor is facilitated.

In a preferred embodiment of the food processor with an optimized design, the motor assembly is provided with an exhaust air duct above the recess.

The air inlet and outlet of the motor body are carried out by arranging the exhaust air duct above the space avoiding part, so that the heat dissipation of the motor is facilitated. Or, the air inlet duct and the air exhaust duct are arranged simultaneously, so that convection is formed, and the heat dissipation effect is better.

In a configuration optimization's food preparation machine preferred implementation, crushing unit includes the dish that generates heat, and motor element still includes motor body and centre gripping motor body's epitheca and inferior valve, and epitheca and inferior valve pass through the fastener and connect and be fixed in the dish that generates heat, and the epitheca sets up between motor and the dish that generates heat.

According to the food processor, the motor body is clamped and fixed through the upper shell and the lower shell, and the motor assembly is fixed on the heating plate through the fastening piece, so that the assembly of the motor assembly is completed. Because the epitheca sets up between motor and the dish that generates heat, the epitheca forms between motor body and the dish that generates heat and blocks and thermal-insulated effect, avoids generating heat under the higher circumstances of dish heat, to motor body's heat-conduction, causes motor body overheated to be favorable to protecting motor body.

In a preferred implementation of the food processor with an optimized structure, the food processor further comprises a hinged cover hinged to the main machine, the processing cup assembly comprises a cup body fixed to the main machine, and the hinged cover can be connected with the main machine in a locking mode to form a sealed processing cavity surrounded by the cup body.

The food processor provided by the utility model is buckled with the cup body through the hinged cover to seal the processing cavity, so that the slurry is prevented from overflowing. Because the height of the whole machine is reduced, especially on one side of the cup processing assembly, the effective control of the whole height can be further realized by arranging the cup cover on the host machine.

In a preferred embodiment of the food processor with an optimized design, the processing cup assembly projects axially at least partially beyond the upper end face of the main body, and the projecting portion of the processing cup assembly forms a viewing window.

According to the food processing machine, the processing cup assembly partially extends out of the upper end face of the main machine, so that a 360-degree circular viewing effect at the visual window of the processing cup assembly is achieved, and a user can observe the processing condition of food materials in the processing cavity conveniently.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic structural diagram of a food processor according to an embodiment of the present invention.

FIG. 2 is an exploded view of the food processor in accordance with one embodiment of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic drawing showing the direction of drawing the slurry receiving cup and the residual water box according to an embodiment of the present invention.

Fig. 5 is a schematic view of an airflow duct according to an embodiment of the utility model.

Fig. 6 is a cross-sectional view at B-B in fig. 5.

Fig. 7 is a schematic structural diagram of a food processor according to an embodiment of the present invention.

Description of reference numerals:

1. a host; 11. an evacuation section; 12. a rotary valve assembly; 13. a frame; 131. a column; 132. supporting the salient points; 133. an air inlet; 134. an air outlet;

2. a size reduction assembly; 21. a stirring knife assembly; 22. a motor assembly; 221. a motor body; 222. an upper shell; 223. a lower case; 224. an air intake duct; 225. an exhaust duct; 23. a heating plate;

3. processing the cup assembly; 31. a cup body; 32. a hinged cover; 321. a cup cover; 322. a hinge; 323. locking;

4. a liquid receiving cup; 41. a pulp receiving cup; 42. a residual water box;

5. a liquid outlet nozzle;

6. a water tank.

Detailed Description

In order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example in conjunction with the accompanying drawings.

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

In addition, in the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc., indicate orientations and positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. However, the direct connection means that the two bodies are not connected by the transition structure, but connected by the connection structure to form a whole. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The specific scheme is as follows:

the utility model provides a food processor with an optimized structure, as shown in figures 1-4, the food processor comprises a main machine 1, a crushing assembly 2 and a processing cup assembly 3, wherein the main machine 1 comprises a frame 13, and the crushing assembly 2 and the processing cup assembly 3 are supported by the frame 13. Grinding component 2 includes stirring knife tackle spare 21 and the motor element 22 of drive stirring knife tackle spare 21, and processing cup subassembly 3 includes cup 31 and bowl cover 321, and grinding component 2 still includes heating plate 23, and motor element 22 installs in heating plate 23's below, and cup 31 is fixed in heating plate 23 top, and bowl cover 321 can lock in cup 31 to heating plate 23, cup 31, bowl cover 321 form sealed process chamber, and stirring knife tackle spare 21 locates the process intracavity. The food processor also comprises a liquid receiving cup 4, a void avoiding part 11 is arranged below the motor component 22, the liquid receiving cup 4 can be arranged below the motor component 22 in a picking and placing mode and is at least partially accommodated in the void avoiding part 11, the projection of the motor and the liquid receiving cup in a liquid receiving state in a horizontal plane is at least partially overlapped, and the liquid receiving cup can be pulled away from the side direction along the horizontal direction.

Connect liquid cup 4 including connecing thick liquid cup 41, connect thick liquid cup 41 to set up in motor element 22 below, connect thick liquid cup 4 still includes surplus water box 42, and surplus water box 42 also can place in motor element 22 below. After the slurry discharging is finished, the slurry receiving cup 41 is pumped away, and the residual water box 42 is placed below the motor assembly 22 and used for receiving the cleaned wastewater. The water tank 6 is arranged at the rear of the whole food processor and is arranged on the base. The motor assembly 22 includes a flattened motor body 221 to provide clearance below the motor assembly 22 while ensuring that the axial height dimension of the food processor is not increased.

The utility model provides a food processor, and provides a space avoiding arrangement structure below a motor assembly 22, wherein a space avoiding part 11 is arranged below a motor, and a liquid receiving cup 4 can be placed in the space avoiding part 11 in a picking and placing manner, so that the space utilization is maximized. Compared with the prior art, the main frame 1 protrudes outwards, and the arrangement mode of the liquid receiving cup 4 is arranged below the main frame, in the application, the motor assembly 22 and the size of the liquid receiving cup 41 are only partially overlapped or not overlapped in the horizontal direction, the size of the main frame 1 in the horizontal direction can be reduced, and the spatial layout of the main frame 1 is optimized.

As shown in fig. 1, in one embodiment, the liquid receiving cup 4 is provided directly below the motor unit 22 and can be entirely accommodated in the space avoiding portion 11. Wherein, connect thick liquid cup 41 to set up in motor element 22 directly below.

According to the food processor, the liquid receiving cup 4 is arranged right below the motor assembly 22, so that the size of the main machine 1 in the horizontal direction can be reduced to the greatest extent, and the structure is more compact. The space of the avoiding part 11 can contain all the liquid receiving cups 4, so that the liquid receiving cups 4 are prevented from being exposed, the spatial layout is more reasonable, the integrity of the whole machine is kept, and the attractiveness of the whole machine is better.

As shown in FIG. 2, in one embodiment, the diameter D1 of the coil of the motor assembly 22 has a coil height H1, and D1 > H1.

According to the food processing machine, the motor is subjected to flattening treatment, on one hand, the axial space occupation of the motor can be further improved through the flat motor, so that the height of the clearance part 11 below the motor is increased, and the liquid receiving cup 4 can be placed conveniently. On the other hand, when the height of the coil of the motor is smaller than the diameter of the coil, the diameter of the rotor winding is large, the sectional area is large, the induced or passed current is large, and a large enough torque can be obtained, so that the stirring knife assembly 21 is driven to rotate at a high speed.

As shown in fig. 1-3, in one embodiment, the food processor further includes a water tank 6 installed in the main body 1 and a rotary valve assembly 12 disposed in the main body 1, the rotary valve assembly 12 is connected with a liquid outlet 5, the liquid receiving cup 4 includes a slurry receiving cup 41 and a residual water box 42, the slurry receiving cup 41 is disposed below the motor assembly 22, the residual water box 42 is disposed below the water tank 6, and the rotary valve assembly 12 can drive the liquid outlet 5 to move to a position above the slurry receiving cup 41 or the residual water box 42.

The food processor also comprises a water tank 6 arranged on the main machine 1, thereby realizing the operation of automatically adding water and being convenient for realizing the function of self-cleaning. The machine also comprises a rotary valve component 12 arranged in the main machine 1, and the outlet of the liquid outlet nozzle 5 faces to the pulp receiving cup 41 and the residual water box 42 respectively by utilizing the rotary valve component 12, so that different functions of pulp receiving and waste water receiving can be realized. The residual water box 42 is arranged below the water tank 6, so that the axial space occupation is reduced on the premise of keeping large capacity.

As shown in fig. 1-3, in one embodiment, the rotary valve assembly 12 is disposed between the motor assembly 22 and the water tank 6, and the outlet nozzle 55 extends from between the motor assembly 22 and the water tank 6 to below the size reduction assembly 2.

According to the food processor, the rotary valve component 12 is arranged between the motor component 22 and the water tank 6, compared with the mode that the main machine 1 is provided with the convex part to arrange the rotary valve component 12 in the prior art, the food processor fully utilizes the space between the motor component 22 and the water tank 6, and is more compact in structure and good in integrity.

As shown in FIG. 4, in one embodiment, the residual water box 42 has a first drawing direction relative to the main machine 1, the slurry receiving cup 41 has a second drawing direction relative to the main machine 1, and an included angle between the first drawing direction and the second drawing direction is D2 and satisfies 60 DEG-D2-180 deg. Typically D2 is taken at either 90 ° or 180 °. When D2 takes 180 degrees, the host 1 is placed according to the position of figure 1, the slurry receiving cup 41 is horizontally drawn out of the host 1 to the right, and the residual water box 42 is horizontally drawn out to the left.

According to the food processing machine, the interval angle between the slurry receiving cup 41 and the residual water box 42 in the drawing-off direction is set, so that the interference between the slurry receiving cup 41 and the residual water box 42 can be avoided, the taking and the placing of the residual water box 42 and the slurry receiving cup 41 are not influenced mutually, compared with the existing food processing machine, the residual water box 42 can be taken only after the slurry receiving cup 41 is taken down in a mode that the residual water box 42 is placed between the slurry receiving cup 41 and the main machine 1, and the slurry receiving cup 41 and the residual water box 42 can be taken independently and are convenient to take. And the structure is more compact, and the wholeness is good.

As shown in fig. 6, in one embodiment, the host 1 is provided with a support structure in the clearance 11. Because the motor is arranged in a clearance below and the pulp receiving cup 41 is arranged below, the gravity center of the crushing assembly 2 and the whole machine moves upwards, and a deviation H3 exists between the gravity center position of the crushing assembly 2 and the gravity center position of the whole machine. The supporting positions of the upright posts 131 are arranged on the frame 13 in the front and back direction, the supporting salient points are arranged at the positions of the gravity centers of the crushing assemblies 2 far away from the gravity center of the whole machine, the distances between the supporting salient points and the gravity center of the crushing assembly 2 are H2, and H2 is more than 0, so that the stability of the whole machine is ensured.

As shown in fig. 3, 5 and 6, in one embodiment, the motor assembly 22 further includes a motor body 221, and an upper casing 222 and a lower casing 223 sandwiching the motor body 221, and an intake air duct 224 is formed between the upper casing 222 and the lower casing 223. The air inlet 133 is disposed on a side wall of the rear of the main body 1, the motor assembly 22 is disposed above the clearance 11 and provided with an exhaust duct 225, the air outlet 133 is disposed on the frame above the clearance 11, and an arrow direction in the figure is a gas flow direction. In one embodiment, the air outlet 134 may also be disposed on a sidewall of the main body 1.

The food processor of the utility model fixes the motor body 221 through the upper and lower shells 223, thereby ensuring the limit of the motor body 221 in the main machine 1 and ensuring the stability of the motor body 221. The air inlet and outlet of the motor body 221 can be kept through the air inlet duct 224 between the upper shell 223 and the lower shell 223, and the motor is easy to overheat in continuous operation due to the fact that the stirring knife of the food processor needs to rotate at a high speed, operation efficiency is affected, even the motor can be burnt out, the air inlet duct 224 is used for keeping the air inlet and outlet of the motor body 221, and heat dissipation of the motor is facilitated.

The air inlet and outlet of the motor body 221 are performed by arranging the air exhaust duct 225 above the space avoiding portion 11, which is beneficial for the heat dissipation of the motor. Or, the air inlet duct 224 and the air outlet duct 225 are arranged at the same time, so that convection is formed, and the heat dissipation effect is better.

As shown in fig. 3 and 5, in one embodiment, the pulverizing assembly 2 includes the heating plate 23, the motor assembly 22 further includes a motor body 221, and an upper casing 222 and a lower casing 223 clamping the motor body 221, the upper casing 222 and the lower casing 223 are connected and fixed to the heating plate 23 by fasteners, and the upper casing 222 is disposed between the motor and the heating plate 23. The fastening member may be a screw, and the upper and lower cases 223 are provided with a screw hole therethrough, which is inserted through the screw hole and mounted on the bottom wall of the heat generating plate 23. Alternatively, the fastening member may be a stud, and after the upper and lower cases 223 are fixed to each other by the stud, the upper case 222 is fixed to the heat generating plate 23 by a screw.

The food processor of the utility model clamps and fixes the motor body 221 through the upper and lower shells 223, and fixes the motor component 22 on the heating plate 23 through the fastener, thus completing the assembly of the motor component 22. Because the upper casing 222 is arranged between the motor and the heating disc 23, the upper casing 222 forms a blocking and heat insulation effect between the motor body 221 and the heating disc 23, and avoids overheating of the motor body 221 due to heat conduction of the motor body 221 under the condition that the heat of the heating disc 23 is higher, thereby being beneficial to protecting the motor body 221. As shown in the figure, a gap is formed between the heating plate 23 and the upper shell 222, through which air can flow, so as to dissipate heat from the heating plate 23 and avoid the influence of the heating plate 23 on the motor assembly 22.

As shown in fig. 2, in one embodiment, the food processor further comprises a hinged cover 32 hinged to the main body 1, the processing cup assembly 3 comprises a cup body 31 fixed to the main body 1, and the hinged cover 32 can be connected with the main body 1 in a locking manner to form a sealed processing cavity surrounded by the cup body 31. The hinged cover 32 is connected to the frame 13 by a hinge 322 and forms a fixed structure with the frame 13 in a horizontal position by a lock 323. A sealing silicone member is provided under the hinge cover 32, and when the lock 323 is fixed to the frame 13, the periphery of the cup body 31 is sealed by the sealing silicone member, thereby preventing the slurry from overflowing.

The food processor of the utility model is buckled on the cup body 31 through the hinged cover 32 to seal the processing cavity and prevent the overflow of the slurry. Because the height of the whole machine is reduced, especially on one side of the cup processing assembly, the effective control of the whole height can be further realized by arranging the cup cover on the host machine.

In one embodiment, the cup cover 321 is provided with a water inlet which is connected with the water tank 6 through a water inlet pipe, so that the processing cavity and the stirring knife are cleaned by water entering the processing cavity through the cup cover 321. Preferably, the water inlet pipe extends into the hinged cover 32 along the position between the hinged position of the hinged cover 32 and the water tank 6, the water pipe is prevented from being exposed, the water inlet is arranged at the central position of the cup cover 321, and in the water inlet process, water flow can flush the stirring knife. In one embodiment, a storage bin is arranged above the cup cover 321, the cup cover 321 is provided with a feed inlet communicated with the storage bin, and the opening and closing of the feed inlet can be controlled. Wherein, the storage silo divides a plurality of bins to can place multiple food material.

In one embodiment, as shown in fig. 7, the processing cup assembly 3 at least partially extends out of the upper end surface of the main body 1 along the axial direction, and the extended part of the processing cup assembly 3 forms a visible window. The entire cup body 31 can be exposed from the main body 1 by reducing the radial height of the water tank 6.

According to the food processing machine, the processing cup assembly 3 partially extends out of the upper end face of the main machine 1, so that a 360-degree circular viewing effect at the visible window of the processing cup assembly 3 is achieved, and a user can observe the processing condition of food materials in the processing cavity conveniently.

The technical solutions protected by the present invention are not limited to the above embodiments, and it should be noted that the combination of the technical solution of any embodiment and the technical solution of one or more other embodiments is within the protection scope of the present invention. Although the utility model has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the utility model. Accordingly, such modifications and improvements are intended to be within the scope of the utility model as claimed.

Claims (10)

1. The food processor with the optimized structure comprises a host machine, a smashing assembly and a processing cup assembly, wherein the smashing assembly comprises a stirring knife assembly and a motor assembly for driving the stirring knife assembly.

2. The food processor as claimed in claim 1, wherein the liquid receiving cup is disposed directly below the motor assembly and is entirely received in the space-avoiding portion.

3. The food processor of claim 1, wherein the motor assembly coil has a diameter D1 and a coil height H1, and D1 > H1.

4. The food processor of claim 1, further comprising a water tank mounted to the main body and a rotary valve assembly disposed in the main body, wherein the rotary valve assembly is connected to a liquid outlet, the liquid receiving cup comprises a slurry receiving cup and a residual water box, the slurry receiving cup is disposed below the motor assembly, the residual water box is disposed below the water tank, and the rotary valve assembly can drive the liquid outlet to move to a position above the slurry receiving cup or the residual water box.

5. The optimized food processor of claim 4, wherein the rotary valve assembly is disposed between the motor assembly and the water tank, and the spout extends from between the motor assembly and the water tank to below the size reduction assembly.

6. A structurally optimized food processor according to claim 4, wherein the waste water box has a first withdrawal direction relative to the main machine, the slurry cup has a second withdrawal direction relative to the main machine, and the angle between the first withdrawal direction and the second withdrawal direction is D2, which satisfies 60 ° ≦ D2 ≦ 180 °.

7. The structurally optimized food processor as set forth in claim 1, wherein the motor assembly further comprises a motor body and upper and lower shells sandwiching the motor body, the upper and lower shells forming an air intake duct therebetween;

and/or the motor component is provided with an exhaust air duct above the evacuation part.

8. The structurally optimized food processor as defined in claim 1, wherein the grinding assembly includes a heat-generating plate, the motor assembly further includes a motor body, and an upper housing and a lower housing for clamping the motor body, the upper housing and the lower housing are connected and fixed to the heat-generating plate by fasteners, and the upper housing is disposed between the motor and the heat-generating plate.

9. A food processor according to claim 1, further comprising a hinged lid hinged to the main body, the processing cup assembly comprising a cup body secured to the main body, the hinged lid being lockably connectable to the main body to form a sealed processing chamber with the cup body.

10. The food processor of claim 1, wherein the processing cup assembly extends axially at least partially beyond the upper end of the main body, and wherein the extended portion of the processing cup assembly defines the viewing window.

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