CN215687200U - Food processor with optimized cup body structure - Google Patents

Abstract

The utility model relates to the technical field of food processing devices, and discloses a food processing machine with an optimized cup body structure, which comprises a host machine and a processing cup assembly arranged on the host machine, wherein the processing cup assembly comprises a lower cup body forming a lower processing cavity, an upper cup body forming an upper processing cavity and an exhaust plug, the upper cup body is a glass cup body with an exhaust port at the upper end, a fixing frame for installing the exhaust plug is arranged in the exhaust port, a closed visual cavity is arranged between the fixing frame and the exhaust port, and the visual cavity is arranged around the exhaust port for 360 degrees. The visual cavity is arranged around the exhaust port by 360 degrees to provide a user with a circumferential view at the exhaust port, and the user can judge whether residue or slurry exists between the fixing frame and the exhaust port according to observation to ensure thorough cleaning, or observe whether the sealing structure between the exhaust plug and the fixing frame is effectively sealed when the machine works, so that the slurry is prevented from overflowing into the visual cavity through a gap between the exhaust plug and the fixing frame.

Description

Food processor with optimized cup body structure

Technical Field

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

Background

With the improvement of living standard and the acceleration of life rhythm of people, the food processor is popular to users as a kitchen utensil with high crushing efficiency.

The existing food processor is provided with an exhaust port and an exhaust plug which can be plugged into the exhaust port at the upper end of a cup body, and a fixing frame for installing and supporting the exhaust plug is arranged at the exhaust port so as to enhance the installation and fixing effects of a feeding cover at a feeding port.

However, because the exhaust port and the exhaust plug belong to detachable structures, the sealing effect between the exhaust port and the exhaust plug is not good, and in the process of long-term use, the problems that slurry or slurry foam in the cup body overflows through the exhaust port or permeates into an assembly gap between the mounting bracket and the exhaust port possibly exist, so that residues are accumulated in the assembly gap, bacteria are bred, and the food safety is influenced. Moreover, in the process of cleaning the food processor, a user cannot observe whether the residues in some assembly gaps are thoroughly cleaned, which results in poor cleaning effect.

It will thus be seen that the prior art is susceptible to further improvement and enhancement.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides a food processor with an optimized cup body structure, so that a user can obtain the view of an assembly gap between an exhaust port and a fixed frame and judge whether residues exist between the exhaust port and the fixed frame.

In order to achieve the purpose, the utility model provides a food processing machine with an optimized cup body structure, which comprises a host machine and a processing cup assembly arranged on the host machine, wherein the processing cup assembly comprises a lower cup body forming a lower processing cavity, an upper cup body forming an upper processing cavity and an exhaust plug, the upper cup body is a glass cup body provided with an exhaust port at the upper end, a fixing frame for installing the exhaust plug is arranged in the exhaust port, a closed visual cavity is arranged between the fixing frame and the exhaust port, and the visual cavity is arranged around the exhaust port for 360 degrees.

Set up inclosed visual chamber between mount and gas vent, visual chamber is along 360 surrounding settings of gas vent to provide the user peripheral field of vision in gas vent department, the user can judge whether there is residue or thick liquid between mount and the gas vent according to the observation. During cleaning, the visual cavity is arranged, so that a user can conveniently judge whether residues exist between the fixing frame and the exhaust port, and thorough cleaning is realized; in the working process of the food processor, through the visual cavity between the exhaust port and the fixing frame, a user can observe the state of the fixing frame used for fixing the exhaust plug, and observe whether the sealing structure between the exhaust plug and the fixing frame is effectively sealed.

In a preferred implementation, the fixing frame comprises an upper frame body and a lower frame body which clamp the exhaust port, and a visual cavity is formed in a gap between the upper frame body and the exhaust port.

The chamber of can looking is formed between last support body and gas vent, so that the user acquires the upside field of vision, convenience of customers directly sees through the cup and sees whether adhere to the residue between mount and the gas vent, and simultaneously, because go up the support body and be the components of a whole that can function independently structure with lower support body, inevitably there is the assembly clearance between the two, through the visual chamber between last support body and the gas vent, convenience of customers observes the sealed condition of assembly clearance between last support body and the lower support body, ensure that the assembly clearance can be closely shutoff by seal structure, avoid the thick liquid to permeate between mount and the gas vent through the assembly clearance of this department.

In a preferred implementation, the upper frame body and the lower frame body are assembled and fixed, and the visual cavity also extends to an assembly gap between the upper frame body and the lower frame body.

The visual cavity extends to the assembly gap between the upper frame body and the lower frame body, so that the visual field area observable by a user is further enlarged, the user can observe the environment in the visual cavity more clearly, the possibility that residues are hidden between the fixing frame and the exhaust port is reduced, and the cleaning effect is more thorough; go up the visual of assembly gap between support body and the lower support body, can also be convenient for the assembly of the two, in order to form visual chamber between last support body, lower support body and the gas vent, need reduce the material volume of last support body and lower support body, and then reduced the material filling cost.

In a preferred implementation mode, the upper frame body and the lower frame body are respectively connected with the upper cup body in a sealing mode.

The slurry residues overflowing through the exhaust port are prevented from entering the inner space of the upper cup body from the assembly gap between the upper frame body and the upper cup body through the sealing connection between the upper frame body and the upper cup body, and the inner space of the upper cup body is ensured not to store the residues to influence the visual cavity to provide the visual field; through the sealing connection between lower support body and the last cup, ensure the leakproofness of process chamber and last cup inner space, prevent that the thick liquid of process intracavity high velocity of flow from getting into cup inner space through the fit-up gap between lower support body and the last cup.

In a preferred implementation mode, the exhaust port sleeve is provided with a sealing element, the sealing element is provided with a first sealing part extending to the upper frame body and the upper cup body and a second sealing part extending to the lower frame body and the lower cup body, and the upper frame body and the lower frame body are respectively connected with the upper cup body through the first sealing part and the second sealing part.

The first sealing of sealing member is used for going up the sealing connection between support body and the last cup, and the second sealing of sealing member is used for support body and the sealing connection between the cup down, realizes through a sealing member that support body and lower support body are for the sealed of last cup, simplifies the structure for the intervention of sealing member does not obstruct the visual chamber's the field of vision, more does benefit to the user and looks over whether to deposit food waste between mount and the gas vent.

In a preferred implementation, the lower frame body is provided with a positioning ring for limiting the upper frame body, and the upper frame body is sleeved on the positioning ring and is in sealing connection with the positioning ring.

The position ring of lower support body has played fixed stay's effect to last support body, because the user hardly observes the condition in the fit-up gap between last support body and the holding ring from visual chamber, through the sealing connection of holding ring and last support body, avoids in food waste gets into the fit-up gap between last support body and the lower support body to make things convenient for subsequent cleaning.

In a preferred implementation mode, the upper end of the upper cup body is provided with a flow guide surface lower than the outer top wall of the upper cup body, and the exhaust port is arranged at the flow guide tail end of the flow guide surface.

The flow guide surface is lower than the outer top wall of the upper cup body, the outer top wall of the upper cup body plays a certain blocking role for slurry overflowing from the exhaust port, the slurry is prevented from being sprayed out of the top wall of the upper cup body and falling along the side wall, and the overflowed slurry can flow to the exhaust port side of the flow guide end along the flow guide surface to be temporarily accumulated at the upper end of the upper cup body or flow back into the processing cavity through the exhaust port.

In a preferred implementation, the periphery of the vent plug is provided with a radially extending brim, and the projection of the brim in the vertical direction is located in the flow guide surface.

The projection of eaves portion in vertical direction is in the water conservancy diversion face to can fall into the water conservancy diversion face after making the liquid on the eaves portion fall down and collect at last cup upper end temporarily, prevent that liquid from falling to other places. And, because the water conservancy diversion face is by last cup outer top wall undercut formation for cornice and water conservancy diversion face between formed axial clearance, in order to make things convenient for the user to take the core vent of arranging in the gas vent through this axial clearance.

In a preferred implementation mode, an arc transition angle is arranged at the transition position of the inner top wall and the inner side wall of the upper cup body, and the inner top wall of the upper cup body forms a folding section extending downwards at the air outlet.

Go up the cup inner ceiling wall and pass through circular arc transition angle transition with the inside wall and link up to form downwardly extending's the section of drawing in exhaust port department, make the inner ceiling wall of going up the cup form the surface that has the radian, so that condense in the liquid drop on the inner ceiling wall can slide back to the thick liquid in processing chamber along the radian of inner ceiling wall, and then promote intracavity liquid circulation.

In a preferred implementation, the fixing frame is made of a transparent material.

The mount adopts transparent material to make the user can see through the assembly clearance between mount and the core vent through visual chamber, convenience of customers in time judges whether have the internal structure of cup in the assembly clearance infiltration between mount and the core vent to and the position angle of adjusting the core vent in time.

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 cross-sectional view of a food processor with an optimized cup configuration in accordance with an embodiment of the present invention.

Fig. 2 is a cross-sectional view of an upper cup of a food processor with an optimized cup configuration in accordance with an embodiment of the present invention.

Fig. 3 is a partially enlarged view of a portion of the structure of fig. 2.

Fig. 4 is a partial cross-sectional view of an upper cup of a food processor with an optimized cup configuration in accordance with another embodiment of the present invention.

Fig. 5 is a partially enlarged view of a portion of the structure of fig. 4.

Wherein:

1-upper cup body, 11-exhaust port, 12-flow guide surface, 13-arc transition angle, 14-folding section, 15-sealing element, 151-first sealing part and 152-second sealing part;

2-vent plug, 21-eave;

3-a fixed frame, 31-an upper frame body, 32-a lower frame body and 321-a positioning ring;

4-visual cavity;

5-a first seal;

6-a second seal;

7-a third seal;

8-processing the cavity;

and 9-lower cup body.

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 the description of the present invention, it is to be understood that the terms "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements 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 to each other by the intermediate structure but connected to each other by the connecting 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.

The following embodiments are specifically adopted:

as shown in fig. 1 to 5, the utility model provides a food processor with an optimized cup body structure, which comprises a host and a processing cup assembly arranged on the host, wherein the processing cup assembly comprises a lower cup body 9 forming a lower processing cavity, an upper cup body 1 forming an upper processing cavity and an exhaust plug 2, the upper cup body 1 is a glass cup body with an exhaust port 11 at the upper end, a fixed frame 3 for installing the exhaust plug 2 is arranged in the exhaust port 11, a closed visual cavity 4 is arranged between the fixed frame 3 and the exhaust port 11, and the visual cavity 4 is arranged around the exhaust port 11 by 360 degrees.

According to the food processing machine with the optimized cup body structure, the upper cup body 1 and the lower cup body 9 are detachably connected, the upper processing cavity of the upper cup body 1 and the lower processing cavity of the lower cup body 9 jointly enclose the processing cavity 8 in the connection state of the upper cup body 1 and the lower cup body 9, and the upper cup body 1 is a glass cup body, so that a user can observe the processing condition in the processing cavity 8 through the upper cup body 1.

For the atmospheric pressure in the balanced process chamber 8, seted up gas vent 11 in the upper end of last cup 1, set up the mount 3 that is used for fixed core 2 along 11 inner wall peripheries of gas vent, seal assembly between core 2 and the mount 3 sets up exhaust structure on core 2, realizes process chamber 8 and external air current through this exhaust structure and is mutual. It should be noted that the exhaust port 11 can also be used as a feeding port, and in the working process of the machine, the food material can be placed into the processing cavity 8 through the exhaust port 11.

In the process of cleaning the food processor, a user cannot observe whether residues in some assembly gaps are thoroughly cleaned or not, so that the residues in the assembly gaps are still remained, and the cleaning effect is poor. In order to improve the above problem, a closed visual cavity 4 is arranged between the fixed frame 3 and the exhaust port 11, the visual cavity 4 is arranged along the exhaust port 11 in a 360-degree surrounding manner so as to provide a user with a circumferential view at the exhaust port 11, and the user can judge whether residue or slurry exists between the fixed frame 3 and the exhaust port 11 according to observation. When cleaning, the visual cavity 4 is convenient for users to judge whether residues exist between the fixing frame 3 and the exhaust port 11 or not so as to realize thorough cleaning.

In addition, in the working process of the food processor, through the visual cavity 4 between the exhaust port 11 and the fixed frame 3, a user can observe the state of the fixed frame 3 for fixing the exhaust plug 2 and observe whether the sealing structure between the exhaust plug 2 and the fixed frame 3 is effectively sealed, when the sealing structure between the exhaust plug 2 and the fixed frame 3 fails in sealing and slurry overflows into the visual cavity 4 through the gap between the exhaust plug 2 and the fixed frame 3, the user can find the sealing structure in time, and then the user can conveniently adjust the sealing structure in time to enable the sealing structure to be reliable.

As a preferred embodiment, as shown in fig. 2 and 4, the fixing frame 3 includes an upper frame 31 and a lower frame 32 that sandwich the exhaust port 11, and a gap between the upper frame 31 and the exhaust port 11 forms the visual chamber 4.

Go up support body 31 and lower support body 32 and encircle 11 internal circumferences of gas vents and centre gripping gas vents 11, wherein, go up support body 31 and be responsible for with the sealed cooperation of the last cup 1 structure of 11 upsides of gas vents, lower support body 32 is responsible for and is responsible for the sealed cooperation of the last cup 1 structure of 11 downside of gas vents, the inboard of lower support body 32 can be followed the axle and is leaned on with 2 offsets of blast plug.

For convenience of customers obtains the upside field of vision of cup 1, utilize the clearance between last support body 31 and the gas vent 11 to form visual chamber 4, convenience of customers directly sees through last cup 1 and whether adhere to the residue between mount 3 and the gas vent 11, and simultaneously, because last support body 31 and lower support body 32 are the components of a whole that can function independently structure, inevitably have the assembly clearance between the two, through the visual chamber 4 between last support body 31 and the gas vent 11, convenience of customers observes the sealed condition of assembly clearance between last support body 31 and the lower support body 32, ensure that the assembly clearance can be sealed tightly by seal structure, avoid the assembly clearance infiltration of thick liquid through this department between mount 3 and the gas vent 11.

As a more preferable embodiment, as shown in fig. 2 and 4, the upper frame body 31 and the lower frame body 32 are assembled and fixed, and the visual cavity 4 further extends to the assembly gap between the upper frame body 31 and the lower frame body 32.

The upper frame body 31 is fixed on the upper side of the lower frame body 32, the upper end and the lower end of the exhaust port 11 are clamped together with the lower frame body 32 along the axis, the visual cavity 4 is formed by utilizing the gap between the upper frame body 31 and the exhaust port 11, the visual cavity 4 extends to the assembly gap between the upper frame body 31 and the lower frame body 32, the visual field area observable by a user is further enlarged, the user can observe the environment in the visual cavity 4 more clearly, the possibility that residues are hidden between the fixed frame 3 and the exhaust port 11 is reduced, and the cleaning effect is more thorough; the assembly gap between the upper frame body 31 and the lower frame body 32 can be seen, the assembly of the upper frame body 31 and the lower frame body 32 can be facilitated, the material volume of the upper frame body 31 and the lower frame body 32 needs to be reduced in order to form the visible cavity 4 between the upper frame body 31, the lower frame body 32 and the exhaust port 11, and the material filling cost is further reduced.

As a more preferable embodiment, as shown in fig. 2 to 5, the upper frame 31 and the lower frame 32 are respectively connected to the upper cup 1 in a sealing manner.

Go up support body 31 and last cup 1's up end looks butt, clearance between last support body 31 and last cup 1 sets up first sealing member 5, in order to guarantee to go up support body 31 and last cup 1 sealing connection, through last support body 31 and last cup 1 between sealing connection, the thick liquid residue of avoiding overflowing through gas vent 11 gets into cup 1 inner space from the fit-up gap between last support body 31 and the last cup 1, guarantee that 1 inner space of last cup can not store up the residue and influence visual chamber 4 and provide the field of vision.

The second sealing element 6 is clamped in the gap between the lower frame body 32 and the inner wall surface of the upper cup body 1 and the exhaust port 11, so that the lower frame body 32 is connected with the upper cup body 1 in a sealing mode, the sealing performance of the inner space of the processing cavity 8 and the inner space of the upper cup body 1 is guaranteed through the sealing connection between the lower frame body 32 and the upper cup body 1, and high-flow-rate slurry in the processing cavity 8 is prevented from entering the inner space of the upper cup body 1 through the assembly gap between the lower frame body 32 and the upper cup body 1.

As a more preferable embodiment, the exhaust port 11 is sleeved with a sealing member 15, the sealing member 15 has a first sealing portion 151 extending to the upper frame 31 and the upper cup 1, and a second sealing portion 152 extending to the lower frame 32 and the lower cup 9, and the upper frame 31 and the lower frame 32 are respectively connected to the upper cup 1 through the first sealing portion 151 and the second sealing portion 152.

The sealing member 15 is sleeved on the inner wall of the exhaust port 11, so as to realize the sealing connection between the exhaust port 11 and the fixed frame 3, the first sealing part 151 of the sealing member 15 upwards extends into the assembly gap between the upper frame body 31 and the upper cup body 1, the second sealing part 152 of the sealing member 15 downwards extends into the assembly gap between the lower frame body 32 and the lower cup body 9, the sealing connection between the lower frame body 32 and the lower cup body 9, the sealing of the upper frame body 31 and the lower frame body 32 relative to the upper cup body 1 is realized through the sealing member 15, the structure is simplified, so that the visual field of the visual cavity 4 is not obstructed by the intervention of the sealing member 15, and whether food residues are accumulated between the fixed frame 3 and the exhaust port 11 or not is more favorably checked by a user.

As a more preferable embodiment, as shown in fig. 2 and 4, the lower frame 32 is provided with a positioning ring 321 for limiting the upper frame 31, and the upper frame 31 is sleeved on the positioning ring 321 and is hermetically connected with the positioning ring 321.

The lower frame body 32 is fixedly assembled below the upper frame body 31, and the positioning ring 321 of the upper frame body 31 extends upwards along the axial direction, so that the upper frame body 31 can be sleeved on the periphery of the positioning ring 321, and the positioning ring 321 plays a role in fixedly supporting the upper frame body 31. And, second sealing member 6 extends to the support body 31 and the holding ring 321 downside to the fitting clearance between support body 31 and the holding ring 321 carries out the shutoff, set up third sealing member 7 in last support body 31 top, with the upside of the fitting clearance between shutoff support body 31 and the holding ring 321, because the user hardly observes the condition in the fitting clearance between support body 31 and the holding ring 321 from visual chamber 4, through the sealing connection of holding ring 321 and last support body 31, avoid food waste to get into in the fitting clearance between support body 31 and the lower support body 32, in order to make things convenient for subsequent cleaning.

As a preferred embodiment, as shown in fig. 2 and 4, the upper end of the upper cup body 1 is provided with a flow guiding surface 12 lower than the outer top wall of the upper cup body 1, and the exhaust port 11 is arranged at the flow guiding end of the flow guiding surface 12.

A flow guide surface 12 is arranged at the upper end of the upper cup body 1, the flow guide surface 12 is arranged on the outer top wall of the first upper cup body 1, and the flow guide surface 12 inclines towards the exhaust port 11 so that liquid can flow to one side of the exhaust port 11 along the flow guide surface 12 under the action of self weight. The outer top wall of the upper cup body 1 plays a certain role in blocking the slurry overflowing from the exhaust port 11, the slurry is prevented from being sprayed out of the top wall of the upper cup body 1 and falling along the side wall, and the overflowed slurry can flow to the exhaust port 11 side at the tail end of the flow guide along the flow guide surface 12 to be temporarily accumulated at the upper end of the upper cup body 1 or flow back into the processing cavity 8 through the exhaust port 11.

As a more preferable embodiment, as shown in fig. 4, the outer periphery of the vent plug 2 is provided with a radially extending brim 21, and a projection of the brim 21 in the vertical direction is located in the flow guide surface 12.

Radially extend at the core 2 top and form eaves portion 21, eaves portion 21 is in the projection of vertical direction in water conservancy diversion face 12 to can fall into water conservancy diversion face 12 and temporarily collect at upper cup 1 upper end after making the liquid on eaves portion 21 fall, prevent that liquid from falling to other places. And, because water conservancy diversion face 12 is concave down by upper cup 1 outer top wall and forms, make eaves portion 21 and water conservancy diversion face 12 between form the axial clearance to make things convenient for the user to take the core vent 2 of putting in exhaust port 11 through this axial clearance.

In a preferred embodiment, as shown in fig. 2 and 4, an arc transition angle 13 is provided at the transition between the inner top wall and the inner side wall of the upper cup body 1, and the inner top wall of the upper cup body 1 forms a downwardly extending converging section 14 at the vent 11.

The inner top wall and the inner side wall of the upper cup body 1 are in transition joint through an arc transition angle 13, a folding section 14 extending downwards is formed at the exhaust port 11, the axial height of the folding section 14 is lower than that of the inner top wall of the upper cup body 1, and a second sealing element 6 used for being in sealing fit with the lower frame body 32 is arranged at the tail end of the folding section 14, so that liquid drops condensed on the folding section 14 do not flow into a gap between the lower frame body 32 and the upper cup body 1, and the liquid drops can slide back to slurry in the processing cavity 8 along an arc surface formed by the arc transition angle 13 and the folding section 14 on the inner top wall of the upper cup body 1, and further circulation of liquid in the cavity is promoted.

In a preferred embodiment, the fixing frame 3 is made of a transparent material.

Mount 3 adopts transparent material, and glass can be chooseed for use to preferred material, because last cup 1, mount 3 are transparent material, the user can see through visual chamber 4 and observe the fitting gap between mount 3 and the core vent 2, and convenience of customers in time judges whether have the thick liquid to pass through the fitting gap infiltration between mount 3 and the core vent 2 and go up the inner structure of cup 1 to and the position angle of time adjustment core vent 2.

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 one 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 utility model provides an optimize food preparation machine of cup structure, include the host computer and install in the processing cup subassembly of host computer, processing cup subassembly is including forming lower cup, the last cup and the core vent that form the upper chamber of processing down, it is equipped with the glass cup of gas vent for the upper end to go up the cup, be equipped with the installation in the gas vent the mount of core vent, its characterized in that, the mount with have inclosed visual chamber between the gas vent, visual chamber is followed 360 encircles of gas vent set up.

2. The food processor of claim 1, wherein the fixture includes an upper frame and a lower frame that hold the vent, and a gap between the upper frame and the vent forms the viewing chamber.

3. The food processor of claim 2, wherein the upper frame and the lower frame are assembled and fixed, and the visual cavity further extends to an assembly gap between the upper frame and the lower frame.

4. The food processor with the optimized cup body structure as claimed in claim 2, wherein the upper frame body and the lower frame body are respectively connected with the upper cup body in a sealing manner.

5. The optimized cup configuration food processor as defined in claim 4, wherein said vent sleeve has a seal with a first seal portion extending to said upper frame and said upper cup, a second seal portion extending to said lower frame and said lower cup, said upper frame and said lower frame being connected to said upper cup by said first seal portion and said second seal portion, respectively.

6. The food processor with the optimized cup body structure as claimed in claim 2, wherein the lower frame body is provided with a positioning ring for limiting the upper frame body, and the upper frame body is sleeved on the positioning ring and is in sealing connection with the positioning ring.

7. The food processor with the optimized cup body structure as claimed in claim 1, wherein the upper end of the upper cup body is provided with a flow guide surface lower than the top wall of the upper cup body, and the air outlet is arranged at the flow guide end of the flow guide surface.

8. The food processor of claim 7, wherein the periphery of the vent plug is provided with a radially extending brim, and a vertical projection of the brim is located within the flow guide surface.

9. The food processor with optimized cup body structure as claimed in claim 1, wherein the transition between the inner top wall and the inner side wall of the upper cup body is provided with an arc transition angle, and the inner top wall of the upper cup body forms a downwardly extending converging section at the air outlet.

10. The food processor with optimized cup body structure as claimed in claim 1, wherein the fixing frame is made of transparent material.

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