CN217118239U - Optimize motor mounting structure's food preparation machine - Google Patents

Abstract

The utility model relates to a food preparation machine field discloses a optimize motor mounting structure's food preparation machine, include: the main machine comprises a shell and a base; the processing cup assembly is fixed on the host machine, the processing cup assembly comprises a cup body, a slurry discharging assembly and a processing cutter assembly, the slurry discharging assembly comprises a slurry outlet nozzle and a rotary valve assembly communicated with the slurry outlet nozzle and an inner cavity of the cup body, and the processing cutter assembly is arranged in the inner cavity of the cup body; further comprising: the water tank is fixed on the host machine and can be communicated with the inner cavity of the cup body through the rotary valve component; the motor assembly is fixed inside the host machine, and a motor shaft extends towards the processing cup assembly to be connected with the processing cutter assembly; the base is fixedly connected with the processing cup assembly, and the motor assembly is clamped between the base and the processing cup assembly. The utility model discloses a motor element receives the clamping action of base and processing cup subassembly, and the installation is firm stable, can effectively alleviate vibrations and noise, promotes user's use and experiences.

Description

Optimize motor mounting structure's food preparation machine

Technical Field

The utility model relates to a food preparation machine field, concretely relates to optimize motor mounting structure's food preparation machine.

Background

At present, food processors are increasingly used, which mainly cut and crush food by a processing tool arranged at the bottom of a cup body of the food processor, so that the food can reach the required crushing degree and is convenient for users to eat. In the existing food processor, the arrangement mode of the motor assembly is generally as follows: the motor assembly is locked on the inner side below the stirring cutter head through the motor support, the motor shaft penetrates through the stirring cutter head assembly to be fastened with the stirring cutter, the motor support is also locked above the base, and the cup body assembly is locked above the stirring cutter head, so that the whole stress is transmitted to the base through the motor support. Realize motor element's fixed mounting through this structure to the completion is to the processing of the edible material in the cup body assembly.

Under this kind of mounting means, because the motor support is plastic part, structural strength is not enough, vibration when the motor rotates is excited easily, produces resonance for the noise grow. Further, the virtual circle of the double-screw bolt that motor support and base fastening, with the gyration central axis concentricity of stirring cutter head subassembly poor, bearing post and main atress direction skew, focus skew promptly, the vibration that produces when leading to the motor to rotate can be amplified, vibration noise is amplified, influences user's use and experiences.

Disclosure of Invention

In order to solve one or more technical problem among the prior art, or at least provide a profitable selection, the utility model provides an optimize motor mounting structure's food preparation machine, the motor element installation is stable, can effectively alleviate vibrations and noise, promotes user's use and experiences.

The utility model provides an optimize motor mounting structure's food preparation machine, include: the host comprises a shell and a base; the processing cup assembly is fixed on the host machine, the processing cup assembly comprises a cup body, a slurry discharging assembly and a processing cutter assembly, the slurry discharging assembly comprises a slurry outlet nozzle and a rotary valve assembly communicated with the slurry outlet nozzle and an inner cavity of the cup body, and the processing cutter assembly is arranged in the inner cavity of the cup body; further comprising: the water tank is fixed on the host and can be communicated with the inner cavity of the cup body through the rotary valve component; the motor assembly is fixed inside the host machine, and a motor shaft extends towards the processing cup assembly to be connected with the processing cutter assembly; the base is fixedly connected with the processing cup assembly, and the motor assembly is clamped between the base and the processing cup assembly.

The utility model discloses a food preparation machine can realize arranging the thick liquid or the state of closing through changeing the valve assembly to realize the function of automatic row thick liquid. Moreover, this application still sets up the water tank that is fixed in the host computer, through changeing valve unit spare intercommunication cup inner chamber to realize automatic adding water, not only can be used to adding water preparation thick liquid to edible material, after using moreover, can add water to treating abluent cup inner chamber for food preparation machine's self-cleaning. The functions of automatic pulping and automatic cleaning liberate both hands of a user, and are convenient and quick. The water tank is fixed on the host, so that the space utilization rate of the whole machine is improved, and the structure is more compact.

The utility model discloses a food preparation machine passes through the base and processes the cup subassembly fixed with the motor centre gripping, realizes the direct fixation of motor, guarantees the motor shaft of motor element and cup body assembly's blade disc and the axiality between the base, is favorable to processing the stability of knife tackle operation, alleviates the noise that the vibrations of motor element and processing knife tackle arouse, simultaneously, can avoid exciting because of the not enough vibrations that arouse of motor element's supporting structure intensity, can also simplify the assembly part, and the mounting structure is simpler.

In a preferred embodiment of the food processor with an optimized motor mounting, a first damping element is arranged between at least one of the base and the processing cup assembly and the motor assembly. The motor element turns into the deformation of first shock attenuation piece because of the vibrations energy that the rotation produced, plays absorbing effect to vibration reduction between base or processing cup subassembly and the motor element direct contact part can be realized to first shock attenuation piece, avoids arousing resonance, and the noise is too big, influences user's use and experiences.

In a preferred implementation of the food processor with the optimized motor mounting structure, the processing cup assembly is provided with a first mounting part parallel to the axial direction of the motor, the base is provided with a second mounting part parallel to the axial direction of the motor, and the first mounting part and the second mounting part are tightly connected to clamp and fix the motor assembly. Two installation departments can be fixed with the electrical component centre gripping, realize electrical component spacing in the axial, can avoid electrical component ascending drunkenness, guarantee the stability in the use. And two installation departments are all parallel and the motor shaft, and this kind of relative extension sets up the structural style, can avoid arbitrary installation department overlength to influence structural reliability, and two installation departments are parallel to the motor axial separately, form reliable support in motor working process, and the weight of complete machine can be through first installation department transmission to the base and finally transmit to the desktop on, overall structure is simple, and base load is effectual.

In a preferred embodiment of the food processor with an optimized motor mounting, a second damping element is arranged between the first mounting and the second mounting. The stirring cutter causes the vibration of the processing cup assembly under high-speed operation, the vibration and noise reduction between the processing cup assembly and the base can be realized by the flexible connection mode, the vibration of the processing cup assembly is prevented from being transmitted to the base, and the vibration is transmitted to the desktop through the base to generate larger noise.

In a preferred implementation of the food processor with the optimized motor mounting structure, the base comprises an upper shell and a lower shell which are fixedly assembled, an air guide channel communicated with a cavity where the motor assembly is located is formed between the upper shell and the lower shell, and the second mounting portion is arranged on the upper shell or the lower shell. The air guide channel is arranged on the base, so that heat dissipation of the motor assembly is facilitated, the service life of the food processor is prolonged, and the integrity and the attractiveness of the whole machine can be guaranteed.

In a preferred implementation of the food processor that optimizes the motor mounting structure, the first mounting portion is a mounting post of the processing cup assembly extending towards the base, the second mounting portion is a support post of the base extending towards the processing cup assembly, and the mounting post is inserted into the support post and fixed by a fastener. The mode of splicing and matching between the mounting column and the supporting column can realize quick positioning and is convenient to mount. The processing cup assembly can be directly locked on the base, the assembly size chain is short, the assembly precision is better, and the stability is high. And the support column upwards extends out along the bottom of the base, so that radial stress is avoided being directly realized through a fastening piece, the radial stress of the base and the processing cup assembly is realized through the mounting column, and the structure is reliable.

In a preferred implementation of the food processor for optimizing the motor mounting structure, the motor assembly comprises a motor support sleeved on the motor shaft, the motor support is provided with a mounting hole, the mounting column penetrates through the mounting hole and is fixedly connected with the support column, and the motor support is clamped between the mounting column and the support column. Through the centre gripping to motor support, realize the whole centre gripping to motor element, simplify the installation. Through the fixation of the motor support, the motor support can form radial support on the motor shaft, so that the radial runout of the motor shaft is avoided, and the rotation balance of the motor is ensured.

In a preferred implementation of the food processor with optimized motor mounting structure, the water tank is fixed above the main frame around the periphery of the processing cup assembly. The water tank sets up around processing cup subassembly, can effectively avoid the noise transmission in the cup to the outside, and compact structure can realize miniaturized design moreover, and on the water tank was fixed in the shell of host computer, stable in structure to can set up to the size unanimity with the host computer shell, it is more pleasing to the eye on the whole, promote user's use and experience.

In a preferred embodiment of the food processor with an optimized motor mounting, a third damping element is arranged between the processing cup assembly and the water tank. The third damping part can alleviate the cup and transmit between the water tank because of the vibrations that the high-speed rotation of stirring sword produced, avoids arousing that the water in the water tank rocks, and stability is better.

In a preferred implementation of the food processor with optimized motor mounting structure, the third damper seals against the upper cup port and the water tank. Under the sealed effect of third damper, can avoid in food thick liquid or eat the material entering installation clearance between cup and the water tank, be difficult for wasing, influence the health. And through sealed cup and water tank, also can avoid the main engine problem such as intaking, improve food preparation machine's life.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

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

Fig. 2 is an exploded view of the food processor according to an embodiment of the present invention.

Fig. 3 is a top view of a food processor according to an embodiment of the present invention.

Fig. 4 is a cross-sectional view of a food processor at a in an embodiment of the present invention.

Fig. 5 is a cross-sectional view of the food processor at B in an embodiment of the present invention.

Fig. 6 is an enlarged view at C in fig. 5.

Fig. 7 is an enlarged view at D in fig. 5.

Description of reference numerals:

1. a host; 11. a housing; 12. a base; 121. an upper housing; 122. a lower housing; 1211. a support pillar; 1212. a second mounting hole; 1213. a second damping member;

2. processing the cup assembly; 21. a cup body; 211. a slurry discharge hole; 212. a water inlet; 22. a slurry discharge assembly; 221. a pulp outlet; 222. a rotary valve assembly; 23. processing a cutter assembly; 231. a stirring knife; 232. a stirring cutter head; 24. a cup cover; 25. a temperature measuring component; 26. mounting a column; 27. a third damper;

3. a motor assembly; 31. a motor shaft; 32. a motor bracket; 321. a first mounting hole; 33. a first damper;

4. a water tank; 41. and (7) a water outlet.

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 should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations or 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 referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, 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 through a transition structure, but connected through a connection structure to form a whole. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. 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 invention. 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:

as shown in fig. 1-4, the utility model provides a food processor of optimizing motor mounting structure, includes: the machine comprises a main machine 1, a processing cup assembly 2 fixed on the main machine 1 and a motor assembly 3 fixed in the main machine 1. Wherein, host computer 1 includes casing 11 and base 12, and processing cup subassembly 2 includes cup 21, arranges thick liquid subassembly 22, processing knife tackle spare 23 and bowl cover 24, and processing knife tackle spare 23 sets up in the cup 21 inner chamber, including stirring sword 231 and stirring cutter head 232. The motor shaft 31 extends towards the processing cup assembly 2, passes through the cup body 21 from bottom to top and is tightly connected with the stirring knife 231, so that the stirring knife 231 is driven to rotate at a high speed to stir the food material in the inner cavity of the cup body 21. Arrange thick liquid subassembly 22 and include the mouth 221 of being qualified for the next round of competitions and the commentaries on classics valve unit spare 222 of intercommunication mouth 221 and cup 21 inner chamber, one side of cup 21 is provided with row thick liquid hole 211, and the mouth 221 of being qualified for the next round of competitions is connected out the thick liquid hole to realize out the state that the mouth 221 of being qualified for the next round of competitions was arranged thick liquid or was closed through changeing valve unit spare 222, thereby can realize the function of automatic row thick liquid, liberated user's both hands, convenient and fast promotes user's use and experiences.

Further, the food processor also comprises a water tank 4 for supplying washing water to perform a self-cleaning function. The bottom of the water tank 4 is locked at the upper end of the shell 11 of the host machine 1, one side of the cup body 21 is provided with a water inlet 212, and the water inlet 212 is opened through a rotary valve assembly 222 so that the water tank 4 can be communicated with the inner cavity of the cup body 21. After the use, the water in the water tank 4 flows into the cup body 21 through the water inlet 212, and is used for self-cleaning of the food processor, the space utilization rate is high, and the structure is more compact.

Further, the base 12 is fixedly connected with the processing cup assembly 2, the connection mode can be various, a fastening piece can be used for fixing or in a threaded connection mode, and the connection mode of an installation part can also be used. Motor element 3 includes motor support 32, through motor support 32 with motor element 3 centre gripping between base 12 and processing cup subassembly 2, motor support 32's structural style can set up in motor element 3's the outside and parcel motor element 3, perhaps locates motor element 3's motor shaft 31's support for the cover. Fix the motor centre gripping through base 12 and processing cup subassembly 2, realize the direct fixation of motor, guarantee the axiality between motor shaft 31 of motor element 3 and the blade disc of cup 21 subassembly and the base 12, be favorable to processing the stability of knife tackle 23 operation, alleviate the noise that the vibrations of motor element 3 and processing knife tackle 23 arouse, and simultaneously, can avoid arousing because of the not enough vibrations that arouse of motor element 3's support structural strength, can also simplify the assembly part, and mounting structure is simple.

In one embodiment, the processing cup assembly 2 further comprises a temperature measuring assembly 25, and the temperature measuring assembly 25 is disposed on one side of the cup body 21 for detecting whether there is liquid in the cup body 21 and detecting the real-time temperature of the cup body 21 to avoid slurry overflow.

In one embodiment, a first damper 33 is disposed between at least one of the base 12, the processing cup assembly 2, and the motor assembly 3. As shown in fig. 5-6, the motor assembly 3 is provided with a motor bracket 32, a first mounting hole 321 is provided on the motor bracket 32, the first shock absorbing member 33 can be an annular silica gel pad, the upper and lower ends of the first shock absorbing member are provided with lip edges extending along the radial direction of the annular body, the first shock absorbing member 33 is axially positioned by the upper and lower lip edges and is sleeved on the first mounting hole 321, and the processing cup assembly 2 can penetrate through the first shock absorbing member 33 and is connected with the motor bracket 32. The vibration energy that motor element 3 produced because of rotating turns into the deformation of first shock attenuation piece 33, plays absorbing effect to first shock attenuation piece 33 can realize processing the vibration/noise reduction between cup subassembly 2 and the 3 direct contact parts of motor element, avoids arousing resonance, and the noise is too big, influences user's use and experiences. The first shock absorbing members 33 are not shown in their entirety, and it is understood that the first shock absorbing members 33 may be disposed on a part of the base 12 directly contacting the motor assembly 3 to prevent the vibration of the motor assembly 3 from being transmitted to the base 12.

In one embodiment, the processing cup assembly 2 is provided with a first mounting portion parallel to the direction of the motor shaft 31, the base 12 is provided with a second mounting portion parallel to the direction of the motor shaft 31, and the first mounting portion and the second mounting portion are tightly connected to clamp and fix the motor assembly 3. The following clamping and fixing mode can be adopted, the motor assembly comprises a motor support 32, the motor support extends out of the mounting edge along the radial direction, the mounting edge is clamped between the first mounting part and the second mounting part, and the first mounting part, the second mounting part and the third mounting part can be fixed through fasteners. Two installation departments can be fixed with 3 centre gripping of electrical component, realize that electrical component 3 is spacing in the ascending of axial, can avoid the ascending drunkenness of electrical component 3 axial, guarantee the stability in the use. And two installation departments extend the setting relatively, can avoid arbitrary installation department overlength to influence structural reliability, and two installation departments are parallel to the motor axial separately, form reliable support in the motor working process, and the weight of complete machine is transmitted to base 12 and finally is transmitted to the desktop through first installation department, and overall structure is simple, and base 12 load is effectual.

As shown in fig. 5-6, in one embodiment, a second damper 1213 is provided between the first and second mounting portions. Second damper 1213 sets up to annular silica gel pad equally, both ends radial extension has two lip limits from top to bottom along the annular body, the second installation department is equipped with second mounting hole 1212, second damper 1213 carries out the spacing cover of axial through two lip limits and locates on second mounting hole 1212, the mode of flexonics can realize processing the vibration/noise reduction between cup subassembly 2 and the base 12, the vibrations of avoiding processing cup subassembly 2 transmit to base 12, and transmit to the desktop through base 12, produce great noise.

As shown in the drawings, in one embodiment, in a preferred implementation of the food processor with an optimized motor mounting structure, the base includes an upper casing 121 and a lower casing 122 which are fixedly assembled, a wind guide channel communicated with a cavity in which the motor assembly is located is formed between the upper casing 121 and the lower casing 122, and the second mounting portion is arranged on the upper casing 121 or the lower casing 122. The position of the lower shell 122 communicated with the air conduction channel is provided with the air dissipation hole, and the air guide channel arranged on the base is favorable for heat dissipation of the motor assembly, so that the service life of the food processor is prolonged, and the integrity and the attractiveness of the whole machine can be ensured. The upper case 121 and the lower case 122 may be coupled by a fastener, or the upper case 121 and the lower case 122 may be integrally formed. Further, the lower housing 122 extends radially out of the slurry outlet in a direction of the slurry outlet to form a mounting seat (not shown) for placing the slurry receiving cup and/or the residual water box.

As shown in fig. 5-6, in one embodiment, the processing cup assembly 2 and the motor assembly 3 are mounted in such a way that the first mounting portion is a mounting post 26 extending from the processing cup assembly 2 toward the base 12, the second mounting portion is a support post 1211 extending from the base 12 toward the processing cup assembly 2, the mounting post 26 is radially contracted at a portion close to the first mounting hole 321 to form a stepped shaft, an end face of the stepped shaft is overlapped on the motor bracket 32 to achieve axial support and limit, and the mounting post 26 is inserted into the support post 1211 and fixed by a fastener. The number of the mounting posts 26 and the number of the support posts 1211 can be several, and specifically, referring to the figure, the number of the mounting posts 26 and the number of the support posts 1211 are 4, respectively, and the mounting posts 26 and the support posts 1211 are cylindrical and uniformly distributed. The support column 1211 is provided with a second mounting hole 1212, and the mounting column 26 of the support column 1211 is radially reduced at a portion near the support, and can pass through the second shock absorbing member 1213 and be inserted into the second mounting hole 1212. The mode of splicing and matching can realize quick positioning and is convenient to install. The cup body 21 component is directly locked on the base 12, the assembly size chain is short, the assembly precision is better, and the stability is high. Moreover, the support column 1211 extends upwards along the bottom of the base 12, so that radial stress is avoided from being directly realized through a fastening piece, and radial stress of the base 12 and the processing cup assembly 2 is realized through the mounting column 26, and the structure is reliable.

As shown in fig. 5-6, in one embodiment, the motor assembly 3 includes a motor bracket 32 sleeved on the motor shaft 31, the motor bracket 32 is provided with a first mounting hole 321, the mounting post 26 passes through the first shock absorbing member 33 in the first mounting hole 321 and is fixedly connected to the supporting post 1211, and the motor bracket 32 is clamped between the mounting post 26 and the supporting post 1211. Through the centre gripping to motor support 32, realize the whole centre gripping to motor element 3, simplify the installation. And through the fixing to motor support 32, motor support 32 can form radial support on motor shaft 31, avoids motor shaft 31 radial runout, ensures motor gyration balance.

As shown in fig. 2 and 4, in one embodiment, the water tank 4 surrounds the periphery of the processing cup assembly 2 and is fixed above the main machine 1. The water tank 4 is a hollow cylinder structure, a water outlet 41 is arranged on the inner wall of the water tank 4 corresponding to the water inlet 212, the water outlet 41 is communicated with the water inlet 212, and the water inlet 212 is opened and closed through the rotary valve assembly 222. In use, the water tank 4 is filled with water, and after the food processor is started, the rotary valve assembly 222 opens the water inlet 212 to add water to the food material. After the use is finished, the water inlet 212 is opened again to add water, and self-cleaning is carried out. Water tank 4 sets up around processing cup subassembly 2, can effectively weaken by the outside noise of transmitting in the cup 21, and compact structure can realize miniaturized design moreover, and on water tank 4 was fixed in the shell of host computer 1, stable in structure to can set up to the size unanimity with the shell of host computer 1, it is more pleasing to the eye on the whole, promote user's use and experience.

As shown in fig. 4 and 7, in one embodiment, a third damper 27 is provided between the processing cup assembly 2 and the water tank 4. Third damper 27 can be for glass fiber or the silica gel pad around the cup 21 outer wall, reduces cup 21 and transmits to the outside because of the vibrations that the high-speed rotation of processing sword produced, avoids arousing that the water in the water tank 4 rocks, and stability is better.

As shown in fig. 7, further, the third shock absorbing member 27 is a silica gel pad sleeved on the upper end of the cup body 21 and is clamped by the inner wall of the water tank 4, so that the third shock absorbing member 27 can be tightly abutted to the upper end of the cup body 21 and the water tank 4, thereby preventing food slurry or food material from entering the installation gap between the cup body 21 and the water tank 4, and preventing the food slurry or food material from being easily cleaned and affecting sanitation. Moreover, the problems of water inlet and the like of the main machine 1 can be avoided by sealing the cup body 21 and the water tank 4, and the service life of the food processor is prolonged.

The technical solution protected by the present invention is not limited to the above embodiments, and it should be noted that the technical solution of any one embodiment is combined with the technical solution of one or more other embodiments in the protection scope of the present invention. Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. A food processor that optimizes a motor mounting structure, comprising:

a host comprising a housing and a base;

the processing cup assembly is fixed on the host machine, the processing cup assembly comprises a cup body, a slurry discharging assembly and a processing cutter assembly, the slurry discharging assembly comprises a slurry outlet nozzle and a rotary valve assembly communicated with the slurry outlet nozzle and the inner cavity of the cup body, and the processing cutter assembly is arranged in the inner cavity of the cup body;

it is characterized by also comprising:

the water tank is fixed on the host machine and can be communicated with the inner cavity of the cup body through the rotary valve assembly;

the motor assembly is fixed inside the host, and a motor shaft extends towards the processing cup assembly to be connected with the processing cutter assembly;

the base with processing cup subassembly fixed connection, motor element centre gripping in the base with processing between the cup subassembly.

2. The food processor of claim 1, wherein a first shock absorber is disposed between the motor assembly and at least one of the base and the processing cup assembly.

3. The food processor of claim 1, wherein the processing cup assembly has a first mounting portion parallel to an axial direction of the motor, the base has a second mounting portion parallel to the axial direction of the motor, and the first mounting portion and the second mounting portion are fastened to hold the motor assembly in place.

4. The food processor of claim 3, wherein a second shock absorbing member is disposed between the first mounting portion and the second mounting portion.

5. The food processor of claim 3, wherein the base comprises an upper housing and a lower housing which are fixedly assembled, an air guide channel communicated with a chamber in which the motor assembly is arranged is formed between the upper housing and the lower housing, and the second mounting portion is arranged on the upper housing or the lower housing.

6. A food processor as defined in claim 3, wherein the first mounting portion is a mounting post of the processing cup assembly extending toward the base, the second mounting portion is a support post of the base extending toward the processing cup assembly, and the mounting post is engaged with the support post and secured thereto by a fastener.

7. The food processor of claim 6, wherein the motor assembly comprises a motor bracket sleeved on a motor shaft, the motor bracket is provided with a mounting hole, the mounting post passes through the mounting hole and is fixedly connected with the supporting post, and the motor bracket is clamped between the mounting post and the supporting post.

8. A food processor with optimized motor mounting according to claim 1, wherein the water tank is secured around the periphery of the processing cup assembly above the main frame.

9. The food processor of claim 8, wherein a third dampener is disposed between the processing cup assembly and the water tank.

10. The food processor of claim 9, wherein the third damper seals against the cup upper port and the water tank.

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