CN210611939U - Stirring cup assembly and food processor - Google Patents

Abstract

The utility model provides a stirring cup subassembly and food processor, stirring cup subassembly includes: a bottom housing assembly; the cup body is arranged on the bottom shell assembly, and a first opening and a second opening are respectively arranged at two ends of the cup body; the cup body includes: the top end of the containing part is provided with a first opening; the top end of the connecting part is connected with the bottom end of the containing part, the connecting part is in smooth transition with the connecting part of the inner side wall of the containing part, the inner side wall of the connecting part is gradually inclined from the top end of the connecting part to the bottom end of the connecting part towards the central line direction of the cup body, and the bottom end face of the connecting part encloses a second opening forming the cup body; the stirring cup subassembly still includes: and the chassis assembly is arranged at the bottom of the cup body and covers the second opening, and comprises a blade, and at least part of the blade is rotatably arranged in a space formed by the surrounding of the connecting part. The food materials are enabled to have more chances of contacting with the blades in the connecting part, and therefore the crushing effect of the product is improved.

Description

Stirring cup assembly and food processor

Technical Field

The utility model belongs to the technical field of kitchen utensil, particularly, relate to a stirring cup subassembly and a food processor.

Background

Due to the fact that the food processor has rich and various food processing functions, the food processor is more and more popular among families. To cooking machine, the function of its core is smashing, and crushing module has complicated principle, for promoting kibbling effect, and most research directions are concentrated on cup and crushing blade. However, in the food processor in the related art, as shown in fig. 1 and fig. 2, a space formed at a portion of the bottom of the cup body 20 'close to the blade 364' is large, and a gap between the blade 364 'and the inner wall of the cup body 20' is large, so that the matching effect of the blade 364 'and the cup body 20' is poor, the food material in the cup body 20 'has few chances of contacting the inner wall of the cup body 20', and most of the food crushing processes are performed at this point, so that the crushing effect of the food processor is greatly limited, the crushing effect of the food processor is poor, and the use experience of a user is seriously affected.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least.

The utility model discloses a first aspect provides a stirring cup subassembly.

A second aspect of the present invention provides a food processor.

In view of the above, according to a first aspect of the present invention, there is provided a stirring cup assembly comprising: a bottom housing assembly; the cup body is arranged on the bottom shell assembly, and a first opening and a second opening are respectively arranged at two ends of the cup body; the cup body includes: the top end of the containing part is provided with a first opening; the top end of the connecting part is connected with the bottom end of the containing part, the connecting part is in smooth transition with the connecting part of the inner side wall of the containing part, the inner side wall of the connecting part is gradually inclined from the top end of the connecting part to the bottom end of the connecting part towards the central line direction of the cup body, and the bottom end face of the connecting part is surrounded to form a second opening; the stirring cup subassembly still includes: and the chassis assembly is arranged at the bottom of the cup body and covers the second opening, and comprises a blade, and at least part of the blade is rotatably arranged in a space formed by the surrounding of the connecting part.

The utility model provides a stirring cup subassembly includes the drain pan subassembly, cup and chassis subassembly, wherein the cup is both ends open-ended tube-shape, the both ends of cup are equipped with first opening and second opening respectively, the cup is including holding portion and connecting portion, it is connected with connecting portion to hold the portion, the top that holds the portion is equipped with the first opening of cup, the bottom terminal surface of connecting portion encloses the second opening of establishing formation cup, the top of connecting portion is connected with the bottom that holds the portion, the inside wall of connecting portion and the junction smooth transition of the inside wall that holds the portion, also the junction between the inside wall of connecting portion and the inside wall that holds the portion does not have the step, do not have the protrusion, can guarantee that the inside wall of cup is level and smooth, the inside cleanness of the inside wall of connecting portion and the junction smooth transition of the inside wall that holds the portion on the one hand, make the cup have easy clear advantage, on the other hand can prevent that the inside wall of, Crushing and the like; furthermore, the inner side wall of the connecting part is gradually inclined from the top end of the connecting part to the bottom end of the connecting part towards the central line direction of the cup body, so that the connecting part of the cup body gradually shrinks to form a smaller space compared with a straight cylinder structure, the chassis component is installed at the bottom of the cup body and covers the second opening to prevent the food material from flowing out from the second opening, at least part of the blades are rotatably arranged in the space formed by the surrounding of the connecting part, because the connecting part surrounds to form a smaller space compared with the straight cylinder structure, and because the food material can have more chances of contacting and colliding with the blades in the small space, the same food can have better crushing effect in the smaller space than in the larger space, namely, the inner side wall of the connecting part is gradually inclined towards the central line direction of the cup body from the top end of the connecting part to the bottom end of the connecting part, so that the inner side wall of the connecting part is, such design makes connecting portion enclose to establish and has formed a littleer space for eat the material and have more chances that contact with the blade in the connecting portion, thereby promoted the crushing effect of product, and then solved among the correlation technique the position space corresponding with the blade great in the cup, the blade is poor with the cooperation effect of cup, leads to smashing the not good technical problem of effect.

It is understood that the connecting portion and the containing portion are integrally formed, and herein, the regions are divided for the convenience of distinguishing.

Additionally, the utility model provides an among the above-mentioned technical scheme food processor can also have following additional technical characterstic:

in the above technical solution, preferably, the stirring cup assembly further includes: the vortex muscle, at least a part setting of vortex muscle is on the inside wall of connecting portion.

In this technical scheme, set up the vortex muscle on the inside wall of cup, the vortex muscle can play the effect of supplementary vortex, and further, at least a part setting of vortex muscle is on the inside wall of connecting portion, and the blade of chassis component rotationally sets up in the space that connecting portion enclose and establish the formation for the blade can cooperate with the vortex muscle when rotating in the cup, further promotes the crushing performance of product. Specifically, to food processor, its food hygiene requires more highly, what most adopted is the cup of glass material, the machine-shaping degree of freedom of glass cup will be little more than the metallic cup, and the utility model discloses a stirring cup subassembly, the inside wall through design connecting portion sets up towards the central line direction of cup from the top of connecting portion to the bottom of connecting portion gradually inclining towards the central line direction of cup for the inside wall of connecting portion is the inclined plane to the central line direction slope of cup, such design has thoroughly solved the cup bottom and has set up the vortex muscle and can't go out the fashioned problem of mould, can extend the vortex muscle to the cup bottom, and this point is significant to the crushing performance in the product: as everyone knows, the crushing process of eating the material mainly relies on eating the collision of material and blade, and whole process is concentrated on going on in near the connecting portion of blade, and the cup first half, keeps away from the part of blade promptly, and it only rotates along with water material to eat the material, does not take place collision in the essence with the blade and smashes, the utility model provides a stirring cup subassembly, vortex muscle extensible to blade crushing region, participate in the crushing in-process of eating the material, according to the momentum theorem: ft ═ mv, promptly in instantaneous contact, the size of collision force depends on the speed difference of two collision objects, use the in-process of eating the material at blade crushing, because the stirring cup subassembly among the correlation technique, the bottom of cup can't set up the vortex muscle, blade drive rivers are rotatory, rivers drive and eat the material and rotate along with the blade together, because the vortex muscle can't extend to the bottom and the blade cooperation of cup, lead to blade and edible material all rotating at high speed, the speed difference of the two is not big enough, crushing power is not enough naturally. And the utility model provides a stirring cup subassembly, the inside wall through design connecting portion sets up towards the central line direction of cup from the top of connecting portion to the bottom of connecting portion slope gradually, make the inside wall of connecting portion be the inclined plane to the central line direction slope of cup, such design has thoroughly solved the cup bottom and has set up the vortex muscle and can't the fashioned problem of demolding, can extend the vortex muscle to the cup bottom, the vortex muscle has hindered to eat the rotation of material along with rivers, form the swirl simultaneously, dissipation falls rotatory kinetic energy, make the speed of eating the material reduce by a wide margin, nevertheless the blade is still high-speed rotatory under the drive of motor this moment, the high-speed rotatory blade bumps the edible material of hitting the low-speed motion, the impact promotes by a wide margin, it is more thorough to eat the more garrulous of being beat. And, the vortex muscle also can be with eating the material book to central zone, makes the blade contact more easily and eats the material, improves the collision probability, further promotes the crushing performance of product.

It should be understood that the present disclosure is not limited thereto, and those skilled in the art can select a ceramic cup, a metal cup, a plastic cup, etc. accordingly, and the specific cases are not illustrated herein, but all fall within the protection scope of the present disclosure without departing from the design concept.

In any one of the above technical solutions, preferably, one end of the spoiler rib extends to a bottom end of the connecting portion.

In this technical scheme, the one end of specifically having explained the vortex muscle extends to the bottom of connecting portion, further ensures that the vortex muscle can extend to the blade and smashes the region, participates in the crushing in-process of eating the material for the blade can cooperate with the vortex muscle when rotating in the cup, further promotes the crushing performance of product.

In any one of the above technical solutions, preferably, the spoiler rib is convexly disposed on an inner side wall of the cup body.

In the technical scheme, the turbulence ribs are arranged on the inner side wall of the cup body in a protruding mode, so that the turbulence ribs can easily block the food materials from rotating along with water flow, and simultaneously form vortexes to dissipate rotating kinetic energy, so that the speed of the food materials is greatly reduced, however, the blades still rotate at a high speed under the driving of the motor, the blades rotating at the high speed collide with the food materials moving at a low speed, the collision force is greatly improved, and the food materials are broken more thoroughly; specifically, the vortex muscle can be perpendicular to the inside wall setting of cup, also can be for the inside wall slope setting of cup, and likewise, the vortex muscle can design for the linearity, also can design for curve form, the form of buckling etc. here just no longer lists one by one to this aspect particular case, nevertheless all belongs to the protection scope of this scheme under the prerequisite that does not deviate from this design concept.

In any of the above technical solutions, preferably, the cup body is in threaded connection with the bottom shell assembly, and a step is formed at a connection position of an outer side wall of the connecting portion and an outer side wall of the containing portion; the outer side wall of the connecting part is gradually inclined from the top end of the connecting part to the bottom end of the connecting part towards the central line direction of the cup body, and an external thread is arranged on the outer side wall of the connecting part; the bottom shell assembly is provided with an installation part matched with the connecting part, an internal thread matched with the external thread is arranged on the inner side wall of the installation part, and the connecting part is screwed on the installation part.

In this technical scheme, cup and drain pan subassembly threaded connection, threaded connection is firm, inseparable, can promote the leakproofness between cup and the drain pan subassembly, avoids the junction of cup and drain pan to appear leaking the scheduling problem, and threaded connection also makes things convenient for the operation, can promote the packaging efficiency of product. Furthermore, a step is formed at the joint of the outer side wall of the connecting part and the outer side wall of the containing part, the outer side wall of the connecting part is gradually inclined from the top end of the connecting part to the bottom end of the connecting part towards the central line direction of the cup body, external threads are arranged on the outer side wall of the connecting part, an installation part matched with the connecting part is arranged on the bottom shell assembly, internal threads matched with the external threads are arranged on the inner side wall of the installation part, the connecting part is screwed on the installation part, the external threads are arranged on the outer side wall of the connecting part, because the inner side wall of the connecting part is gradually inclined from the top end of the connecting part to the bottom end of the connecting part towards the central line direction of the cup body, the problem that the inner side wall of the connecting part is provided with turbulence ribs and can not be subjected to mold stripping in the glass molding process is thoroughly, the vortex rib can better play the vortex effect, promotes the crushing effect of product.

In any of the above technical solutions, preferably, a top end of the mounting portion is located below the step, and an outer side wall of the mounting portion and an outer side wall of the cup body are in smooth transition.

In this technical scheme, when connecting portion close on the installation department soon, the top of installation department is located the below of step, the lateral wall of installation department is smooth transition with the lateral wall of cup, also be the top and the step looks adaptation of installation department, make the lateral wall of installation department not have protrusion in the lateral wall of cup, prevent that the installation department protrusion from influencing the feeling of user in the use in the lateral wall of cup, or cause the washing of the junction of installation department and step inconvenient, also can promote the aesthetic property of product simultaneously.

In any of the above technical solutions, preferably, the height of the cup body is H0, and the height of the connecting part is H1, wherein 0.1 < H1/H0 < 0.5.

In the technical scheme, the height of the cup body is H0, the height of the connecting part is H1, 0.1 & lt H1/H0 & lt 0.5, and the ratio of the height H1 of the connecting part to the height H0 of the cup body determines the proportion of the connecting part to the whole cup body, because the connecting part contracts to form a smaller space compared with other parts of the cup body, if the ratio of the height H1 of the connecting part to the height H0 of the cup body is too large and is more than 0.5, the large part of the cup body is in a contracted state, the volume of the cup body is reduced, the contraction of the connecting part is not concentrated enough, the technical effect that the crushing effect of the same food in the smaller space is better than that in the large space cannot be realized, and the crushing effect of the product is improved to a smaller extent; if the ratio of the height H1 of the connecting part to the height H0 of the cup body is too small and smaller than 0.1, the height of the connecting part is not enough, the arrangement position of the external thread arranged on the outer side wall of the connecting part is possibly not enough, the connection firmness and the sealing performance between the cup body and the bottom shell assembly are affected, and abnormal problems such as leakage and the like at the connecting part of the cup body and the bottom shell assembly are possibly caused.

In any of the above solutions, preferably, the inner diameter of the top end of the connecting part is D0, and the inner diameter of the bottom end of the connecting part is D1, wherein 0.65 < D1/D0 < 0.8.

In the technical scheme, the inner diameter of the top end of the connecting part is D0, the inner diameter of the bottom end of the connecting part is D1, then 0.65 < D1/D0 < 0.8, and D1/D0 (the ratio of the inner diameter of the bottom end of the connecting part to the inner diameter of the top end of the connecting part) determines the shrinkage degree of the connecting part, if the value of D1/D0 is too large and is larger than 0.8, the shrinkage degree of the connecting part is not enough, the improvement on the molding process of the turbulence ribs arranged on the inner side wall of the connecting part and the external threads arranged on the outer side wall of the connecting part is small, the turbulence ribs cannot extend to the bottom of the connecting part to a sufficient depth, meanwhile, the internal space of the connecting part is not concentrated enough, the technical effect that the crushing effect of the same food in a smaller space is better than that in a large space is not realized, and further the improvement on; because the chassis assembly is installed in the lower part of connecting portion to in the second opening part that is formed by the bottom end face of connecting portion packs into the connecting portion, if D1/D0's value is undersize, is less than 0.65, it is too violent to explain the shrink degree of connecting portion, can lead to the second opening that the bottom end face of connecting portion formed less, and then leads to the area of chassis assembly less, and many spare parts in the chassis assembly can't be placed, influence the quality of product.

In any of the above solutions, preferably, the inner diameter of the top end of the connecting part is D0, the inner diameter of the bottom end of the connecting part is D1, and the height of the connecting part is H1, wherein 0.2 < (D0-D1)/H1 < 0.6.

In the technical scheme, the inner diameter of the top end of the connecting part is D0, the inner diameter of the bottom end of the connecting part is D1, the height of the connecting part is H1, and 0.2 < (D0-D1)/H1 < 0.6, (D0-D1)/H1 (the ratio of the difference between the inner diameter of the bottom end of the connecting part and the inner diameter of the top end of the connecting part to the height of the connecting part) determines the slope of the inclination of the inner side wall of the connecting part, and by setting the slope of the inclination of the inner side wall of the connecting part in the range, the turbulence ribs arranged on the inner side wall of the cup body can extend to the bottom end of the connecting part, so that the turbulence ribs are matched with the blade to improve the crushing effect, and meanwhile, the slope of the inclination of the side wall of the connecting part is.

In any of the above solutions, preferably, the chassis assembly includes: the cutter head assembly is arranged at the bottom of the cup body and covers the second opening; a sealing member mounted on the cutter head assembly to seal a gap between the cutter head assembly and the cup body; the cutter assembly is rotatably arranged on the cutter head assembly and comprises a cutter shaft rotatably arranged on the cutter head assembly and a blade fixedly arranged on the upper part of the cutter shaft.

In the technical scheme, the chassis assembly comprises a cutter head assembly, a sealing element and a cutter assembly, the cutter head assembly is arranged at the bottom of the cup body and covers the second opening of the cup body, the sealing element is arranged on the cutter head assembly, and the sealing element can be used for sealing a gap between the cutter head assembly and the cup body and preventing the leakage and other problems at the joint of the cup body and the bottom shell assembly; the cutter assembly is rotatably installed on the cutter head assembly, and specifically, the cutter assembly comprises a cutter shaft rotatably installed on the cutter head assembly and a blade fixedly arranged on the upper portion of the cutter shaft, and the cutter shaft can drive the blade to rotate when rotating on the cutter head assembly, so that food materials are crushed by the blade.

In any of the above technical solutions, preferably, the cutter head assembly includes: a heating plate body; the extension part is connected with the heating disc body, the extension part is arranged on the periphery of the heating disc body, and the upper surface of the extension part is flush with the upper surface of the heating disc body.

In the technical scheme, the cutter head assembly is specifically described to comprise a heating disc body and an extension part arranged on the periphery of the heating disc body, wherein the heating disc body is used for realizing the heating function of a product; the extension part is arranged on the periphery of the heating disc body, the upper surface of the extension part is flush with the upper surface of the heating disc body, namely a plane is formed by the upper surface of the extension part and the upper surface of the heating disc body and used for sealing the second opening of the cup body, and the sealing performance between the cutter head assembly and the cup body can be ensured; further, compare the blade disc subassembly in the correlation technique, the utility model discloses with the blade disc subassembly design for not taking turn-ups structure, reduced the technology degree of difficulty and the cost of processing blade disc subassembly. Wherein, the dish body that generates heat can be for having the integral type structure of the function of generating heat, also can form by a plurality of disk bodies and heating member combination. Preferably, the heating plate body comprises a first plate body, a second plate body and a heating element, the first plate body and the second plate body are stacked, the top surface of the second plate body is connected with the bottom surface of the first plate body, and the heating element is arranged at the bottom of the second plate body, so that the heating function of a product is realized. Preferably, welded connection between first disk body and the second disk body, first disk body can be the corrosion resistant plate that rigidity is good for first disk body non-deformable, thereby can ensure the sealing performance between first disk body and the cup, and the second disk body can be made for the aluminium material that the heat conductivility is good, promotes the heating efficiency of product.

In any of the above technical solutions, preferably, the sealing element is annular, the inner wall of the sealing element is provided with a circle of groove, the sealing element is sleeved on the extension portion, and the extension portion is matched with the groove.

In the technical scheme, the sealing element is specifically described to be annular, and a circle of groove is formed in the inner wall of the sealing element, so that the sealing element can be clamped on the extension part through the groove, the connection between the sealing element and the extension part is realized, the connection between the sealing element and the extension part is stable and is not easy to fall off, and the sealing performance of a product is ensured; further, the extension is adapted to the groove.

In any one of the above technical solutions, preferably, the bottom case assembly includes: the bottom cover is in threaded connection with the cup body; the shell is arranged around the periphery of the bottom cover and connected with the bottom cover; and the cup seat cover is arranged at the bottom of the bottom cover.

In the technical scheme, the bottom shell assembly comprises a bottom cover, a shell and a cup seat cover, wherein the bottom cover is in threaded connection with the cup body, namely threads are arranged on the bottom cover, so that the bottom shell assembly is connected with the cup body; the shell is arranged around the periphery of the bottom cover and plays a role in supporting and decorating; the bottom of whole stirring cup subassembly is located to the cup stand lid, provides mounting surface for placing of stirring cup subassembly to can provide the interface for the installation between the base of stirring cup subassembly and food processor.

In any one of the above technical schemes, preferably, the stirring cup assembly further comprises a cup cover, and the cup cover is arranged on the first opening of the cup body.

In the technical scheme, the stirring cup assembly further comprises a cup cover covering the first opening of the cup body, so that food materials in the cup body are prevented from being spilled out of the first opening of the cup body, foreign matters can be prevented from entering the cup body, and the sanitation and the safety of the food materials are ensured; preferably, a cup mouth is arranged on the first opening of the cup body, food materials in the cup body can be poured out through the cup mouth, and the use experience of a user is improved.

According to the utility model discloses a second aspect, the utility model provides a food processor, including the stirring cup subassembly that any embodiment of base and first aspect provided, because the utility model discloses a food processor has the stirring cup subassembly that any embodiment of first aspect provided, consequently, the embodiment of the utility model provides a food processor has the whole beneficial effects of the stirring cup subassembly that any embodiment of first aspect provided, does not enumerate one by one here.

In any one of the above technical solutions, preferably, the food processor is a food processor or a wall breaking machine or a soybean milk machine.

In this technical scheme, the food processor is cooking machine or broken wall machine or soybean milk machine, also can be other equipment that need the stirring cutter to rotate the cutting, for example minced steak machine etc. the utility model discloses a protection scope is not limited to above-mentioned three kinds of equipment.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of a cup body of a blender cup assembly of the related art;

FIG. 2 is a schematic diagram showing the construction of a portion of a blender cup assembly of the related art;

FIG. 3 is a schematic view of the food material flow path during crushing of food by the blades of a blender cup assembly of the related art;

FIG. 4 is a schematic view of the impeller assembly of a blender cup assembly of the related art;

FIG. 5 illustrates a schematic structural view of a blending cup assembly according to an embodiment of the present invention;

FIG. 6 illustrates an exploded view of a blender cup assembly in accordance with an embodiment of the present invention;

FIG. 7 illustrates a schematic structural view of a cup body of a blending cup assembly according to an embodiment of the present invention;

FIG. 8 illustrates a schematic structural view of a portion of a blending cup assembly according to an embodiment of the present invention;

figure 9 shows a schematic view of the food material flow path during crushing of food by the blades of the blender cup assembly according to an embodiment of the present invention;

FIG. 10 illustrates a schematic structural view of a cutter head assembly of a blending cup assembly according to an embodiment of the present invention;

fig. 11 shows a further schematic structural view of the cup body of a blending cup assembly according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 4 is:

20 ' cup, 202 ' receiving portion, 204 ' connecting portion, 206 ' spoiler rib, 210 ' second opening, 212 ' external thread, 30 ' chassis component, 32 ' cutter head component, 326 ' flanging, 34 ' sealing member, 364 ' blade.

The correspondence between the reference numerals and the names of the components in fig. 5 to 11 is:

1 stirring cup assembly, 10 bottom shell assemblies, 102 bottom covers, 104 shells, 106 cup seat covers, 20 cups, 202 containing parts, 204 connecting parts, 206 turbulence ribs, 208 first openings, 210 second openings, 211 steps, 212 external threads, 214 cup mouths, 30 bottom shell assemblies, 32 cutter head assemblies, 322 extending parts, 324 heating disc bodies, 34 sealing parts, 36 cutter assemblies, 362 cutter shafts, 364 blades and 40 cup covers.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

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 therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

The blending cup assembly 1 and the food processor according to some embodiments of the present invention will be described with reference to fig. 5 to 11.

As shown in fig. 5 to 9, a stirring cup assembly 1 according to an embodiment of the first aspect of the present invention includes: a bottom case assembly 10; the cup body 20 is arranged on the bottom shell assembly 10, and a first opening and a second opening are respectively arranged at two ends of the cup body 20; the cup body 20 includes: a containing part 202, wherein a first opening 208 is arranged at the top end of the containing part 202; the top end of the connecting part 204 is connected with the bottom end of the containing part 202, the connection part of the inner side wall of the connecting part 204 and the inner side wall of the containing part 202 is in smooth transition, the inner side wall of the connecting part 204 is gradually inclined from the top end of the connecting part 204 to the bottom end of the connecting part 204 towards the central line direction of the cup body 20, and the end surface of the bottom end of the connecting part 204 encloses a second opening 210 forming the cup body 20; stirring cup subassembly 1 still includes: and a bottom plate assembly 30 mounted on the bottom of the cup body 20 and covering the second opening 210, wherein the bottom plate assembly 30 includes a blade 364, and at least a portion of the blade 364 is rotatably disposed in the space defined by the connecting portion 204.

The utility model provides a stirring cup assembly 1, which comprises a bottom shell assembly 10, a cup body 20 and a chassis assembly 30, wherein the cup body 20 is in a cylindrical shape with two open ends, the two ends of the cup body 20 are respectively provided with a first opening 208 and a second opening 210, the cup body 20 comprises a containing part 202 and a connecting part 204, the containing part 202 is connected with the connecting part 204, the top end of the containing part 202 is provided with the first opening 208 of the cup body 20, the bottom end surface of the connecting part 204 is surrounded with the second opening 210 forming the cup body 20, the top end of the connecting part 204 is connected with the bottom end of the containing part 202, the connecting part between the inner side wall of the connecting part 204 and the inner side wall of the containing part 202 is in smooth transition, namely, the connecting part between the inner side wall of the connecting part 204 and the inner side wall of the containing part 202 has no step and no protrusion, the inner side wall of the, on one hand, the inside of the cup body 20 is convenient to clean, so that the cup body 20 has the advantage of easy cleaning, and on the other hand, the inner side wall of the cup body 20 is prevented from having step surfaces and the like to influence the stirring, crushing and the like of food; further, the inner side wall of the connecting portion 204 is gradually inclined from the top end of the connecting portion 204 to the bottom end of the connecting portion 204 toward the center line of the cup body, so that the connecting portion 204 of the cup body 20 gradually shrinks to form a smaller space compared with the straight cylindrical structure, the chassis assembly 30 is mounted at the bottom of the cup body 20 and covers the second opening 210 to prevent the food material from flowing out from the second opening 210, at least a portion of the blade 364 is rotatably disposed in the space surrounded by the connecting portion 204, since the connecting portion 204 surrounds to form a smaller space compared with the straight cylindrical structure, and since the food material in the small space has more chance of contacting and colliding with the blade 364, the same food in the smaller space has better crushing effect than that in the larger space, that is, by designing the inner side wall of the connecting portion 204 to be gradually inclined from the top end of the connecting portion 204 to the bottom end of the connecting portion 204 toward the center line of the cup, the inner side wall of the connecting portion 204 is an inclined surface inclined towards the center line direction of the cup body, the connecting portion 204 is surrounded by the design to form a smaller space, so that more chances of contacting with the blade 364 are provided for food materials in the connecting portion 204, the crushing effect of a product is improved, and the technical problems that in the related art, the space of a part corresponding to the blade 364 'in the cup body 20' is large, the matching effect of the blade 364 'and the cup body 20' is poor, and the crushing effect is poor are solved.

It is understood that the connecting portion 204 and the containing portion 202 are integrally formed, and are divided into areas for easy distinction.

As shown in fig. 5 and 8, in an embodiment of the present invention, preferably, the stirring cup assembly 1 further includes: the spoiler rib 206, at least a part of spoiler rib 206 sets up on the inside wall of connecting portion 204.

In this embodiment, set up vortex muscle 206 on the inside wall of cup 20, vortex muscle 206 can play the effect of supplementary vortex, and further, at least a part setting of vortex muscle 206 is on the inside wall of connecting portion 204, and the blade 364 of chassis component 30 rotationally sets up in connecting portion 204 encloses the space of establishing the formation for blade 364 can cooperate with vortex muscle 206 when rotating in cup 20, further promotes the crushing performance of product. Specifically, to food processor, its food hygiene requires more highly, what most adopted is glass material's cup 20, the machine-shaping degree of freedom of glass cup is little more than the metal cup, and the utility model discloses a stirring cup subassembly 1, the inside wall through design connecting portion 204 sets up towards cup 20's central line direction from connecting portion 204's top to connecting portion 204's bottom slope gradually, makes connecting portion 204's lateral wall be the inclined plane to cup 20's central line direction slope, and such design has thoroughly solved cup 20 bottom and has set up vortex muscle 206 and can't the fashioned problem of demolding, can extend vortex muscle 206 to cup 20 bottom, and this point is significant to the crushing performance in the product: as is well known, the crushing process of eating the material mainly relies on eating the collision of material and blade 364, and whole process is concentrated on going on in near connecting portion 204 of blade 364, and cup 20 first half, keeps away from the part of blade 364 promptly, and it is only rotatory along with water material to eat the material, does not take place collision in the essence with blade 364 and smashes, the utility model provides a stirring cup subassembly 1, vortex muscle 206 extendible to blade 364 crushing region, participate in the crushing process of eating the material, according to the momentum theorem: ft-mv, i.e. the magnitude of the impact force in the instant contact, which depends on the speed difference of the two impacting objects, is applied in the process of crushing the food material by the blade 364, as shown in figures 1 to 3, with the mixing cup assembly of the related art, the cup body 20 ' includes a containing portion 202 ' at an upper portion and a connecting portion 204 ' at a lower portion, because the outer wall surface of the connecting portion 204 'is provided with the external thread 212', the spoiler rib 206 'cannot be arranged on the inner side wall surface of the connecting portion 204' whose side wall is straight, and then the turbulence rib 206 'can not extend to the second opening 210', the blade 364 'drives the water flow to rotate, the water flow drives the food material to rotate along with the blade 364', because the spoiler rib 206 ' cannot extend to the bottom of the cup body 20 ' to be matched with the blade 364 ', the blade 364 ' and the food material rotate at high speed, the speed difference between the blade 364 ' and the food material is not large enough, and the crushing force is not sufficient naturally. As shown in fig. 7 to 9, and the utility model provides a stirring cup subassembly 1, the inside wall through design connecting portion 204 inclines gradually from the top of connecting portion 204 to the bottom of connecting portion 204 towards the central line direction of cup 20 and sets up, make the lateral wall of connecting portion 204 be the inclined plane to the central line direction slope of cup 20, such design has thoroughly solved the cup 20 bottom and has set up vortex muscle 206 and can't go out the fashioned problem of mould, can extend to the cup 20 bottom with vortex muscle 206, vortex muscle 206 has hindered eating the rotation of material along with rivers, form the swirl simultaneously, the rotatory kinetic energy of dissipation falls, make the speed of eating the material reduce by a wide margin, nevertheless blade 364 is high-speed rotatory under the drive of motor still this moment, high-speed rotatory blade 364 collides the edible material of low-speed motion, the impact promotes by a wide margin, it is more thorough to eat the more garrulous of beating. Moreover, the turbulence ribs 206 can also roll the food materials to the central area, so that the blades 364 can contact the food materials more easily, the collision probability is improved, and the crushing performance of the product is further improved.

It is understood that the present disclosure is not limited thereto, and those skilled in the art can select the ceramic cup 20, the metal cup, the plastic cup 20, etc. accordingly, and the specific cases are not illustrated herein, but all fall within the protection scope of the present disclosure without departing from the design concept.

As shown in fig. 5 and 8, in an embodiment of the present invention, it is preferable that one end of the spoiler rib 206 extends to a bottom end of the connecting portion 204.

In this embodiment, it is specifically described that one end of the turbulence rib 206 extends to the bottom end of the connecting portion 204, so as to further ensure that the turbulence rib 206 can extend to the crushing area of the blade 364, and participate in the crushing process of the food material, so that the blade 364 can be matched with the turbulence rib 206 when rotating in the cup body 20, and the crushing performance of the product is further improved.

As shown in fig. 5, 8 and 9, in an embodiment of the present invention, the spoiler rib 206 is preferably protrudingly disposed on an inner sidewall of the cup body 20.

In this embodiment, it is specifically described that the turbulence ribs 206 are convexly disposed on the inner side wall of the cup body 20, so that the turbulence ribs 206 more easily obstruct the rotation of the food material along with the water flow, and simultaneously form a vortex to dissipate the kinetic energy of the rotation, so that the speed of the food material is greatly reduced, however, the blade 364 still rotates at a high speed under the driving of the motor, the blade 364 rotating at a high speed collides with the food material moving at a low speed, the collision force is greatly increased, and the food material is more thoroughly broken; specifically, the turbulence rib 206 may be disposed perpendicular to the inner sidewall of the cup body 20, or may be disposed in an inclined manner with respect to the inner sidewall of the cup body 20, and similarly, the turbulence rib 206 may be designed to be linear, curved, bent, and the like, and specific conditions in this respect are not listed one by one here, but all belong to the protection scope of this scheme without departing from the design concept.

As shown in fig. 5 to 8 and 11, in an embodiment of the present invention, preferably, the cup body 20 is screwed to the bottom shell assembly 10, and a step 211 is formed at a connection portion between an outer side wall of the connection portion 204 and an outer side wall of the containing portion 202; the outer side wall of the connecting part 204 is gradually inclined from the top end of the connecting part 204 to the bottom end of the connecting part 204 towards the central line direction of the cup body 20, and an external thread 212 is arranged on the outer side wall of the connecting part 204; the bottom shell assembly 10 is provided with an installation part matched with the connection part 204, an inner thread matched with the outer thread 212 is arranged on the inner side wall of the installation part, and the connection part 204 is screwed on the installation part.

In this embodiment, cup 20 and drain pan subassembly 10 threaded connection, threaded connection is firm, inseparable, can promote the leakproofness between cup 20 and the drain pan subassembly 10, avoids the junction of cup 20 and drain pan to appear leaking the scheduling problem, and threaded connection also makes things convenient for the operation, can promote the packaging efficiency of product. Furthermore, a step 211 is formed at the joint of the outer side wall of the connecting portion 204 and the outer side wall of the containing portion 202, the outer side wall of the connecting portion 204 is gradually inclined from the top end of the connecting portion 204 to the bottom end of the connecting portion 204 toward the center line of the cup body 20, an external thread 212 is formed on the outer side wall of the connecting portion 204, a mounting portion adapted to the connecting portion 204 is formed on the bottom case assembly 10, an internal thread matched with the external thread 212 is formed on the inner side wall of the mounting portion, the connecting portion 204 is screwed on the mounting portion, by arranging the external thread 212 on the outer side wall of the connecting portion 204, since the inner side wall of the connecting portion 204 is gradually inclined from the top end of the connecting portion 204 to the bottom end of the connecting portion 204 toward the center line of the cup body 20, the problem that the inner side wall of the, can extend vortex muscle 206 to the cup 20 bottom, then the crushing region of blade 364 has coincided with vortex muscle 206 on the horizontal direction, and vortex muscle 206 can be better the play vortex effect, promotes the crushing effect of product.

As shown in fig. 5 to 8, in an embodiment of the present invention, preferably, the top end of the mounting portion is located below the step 211, and the outer sidewall of the mounting portion and the outer sidewall of the cup body 20 are in smooth transition.

In the embodiment, when the connecting portion 204 is screwed on the mounting portion, the top end of the mounting portion is located below the step 211, the outer side wall of the mounting portion is in smooth transition with the outer side wall of the cup body 20, that is, the top end of the mounting portion is matched with the step 211, so that the outer side wall of the mounting portion does not protrude out of the outer side wall of the cup body 20, the mounting portion is prevented from protruding out of the outer side wall of the cup body to influence the hand feeling of a user in the using process, or the cleaning of the connecting portion of the mounting portion and the step 211 is inconvenient, and meanwhile, the attracti.

As shown in fig. 11, in an embodiment of the present invention, it is preferable that the height of the cup body 20 is H0 and the height of the connecting portion 204 is H1, wherein 0.1 < H1/H0 < 0.5.

In this embodiment, if the height of the cup body 20 is H0 and the height of the connecting portion 204 is H1, then 0.1 < H1/H0 < 0.5, and the ratio of the height H1 of the connecting portion 204 to the height H0 of the cup body 20 determines the ratio of the connecting portion 204 to the whole cup body 20, since the connecting portion 204 contracts to form a smaller space compared with other parts of the cup body 20, if the ratio of the height H1 of the connecting portion 204 to the height H0 of the cup body 20 is too large and larger than 0.5, it indicates that a large part of the cup body 20 is in a contracted state, the volume of the cup body 20 will be reduced, and the contraction of the connecting portion 204 will not be concentrated enough, and the technical effect that the same food in a smaller space will be better than the crushing effect in a larger space cannot be achieved, and the crushing effect of the product will be improved less; if the ratio of the height H1 of the connection portion 204 to the height H0 of the cup body 20 is too small and less than 0.1, it indicates that the height of the connection portion 204 is not enough, the position of the external thread disposed on the outer sidewall of the connection portion 204 may not be enough, which may affect the connection firmness and sealing performance between the cup body 20 and the bottom case assembly 10, and may cause an abnormal problem such as leakage at the connection portion between the cup body 20 and the bottom case assembly 10.

As shown in fig. 11, in an embodiment of the present invention, preferably, the inner diameter of the top end of the connecting portion 204 is D0, and the inner diameter of the bottom end of the connecting portion 204 is D1, wherein 0.65 < D1/D0 < 0.8.

In this embodiment, the inner diameter of the top end of the connecting portion 204 is D0, the inner diameter of the bottom end of the connecting portion 204 is D1, 0.65 < D1/D0 < 0.8, the ratio of the inner diameter of the bottom end of the D1/D0 junction 204 to the inner diameter of the top end of the junction 204 determines the amount of constriction in the junction 204, if the value of D1/D0 is too large, greater than 0.8, this indicates that the degree of shrinkage of the joint 204 is insufficient, the minor improvement in the molding process of the spoiler rib 206 provided on the inner sidewall of the connection portion 204 and the external thread provided on the outer sidewall of the connection portion 204 may cause the spoiler rib 206 not to extend to a sufficient depth toward the bottom of the connection portion 204, meanwhile, the internal space of the connecting part 204 is not concentrated enough, and the technical effect that the same food can be better crushed in a smaller space than in a larger space cannot be realized, so that the crushing effect of the product is improved to a smaller extent; since the chassis assembly 30 is installed at the lower portion of the connecting portion 204, and the second opening 210 formed by the bottom end surface of the connecting portion 204 is installed in the connecting portion 204, if the value of D1/D0 is too small and less than 0.65, it indicates that the shrinkage degree of the connecting portion 204 is too severe, which may result in the second opening 210 formed by the bottom end surface of the connecting portion 204 being smaller, and further result in the area of the chassis assembly 30 being smaller, many parts in the chassis assembly 30 cannot be placed, and the quality of the product is affected.

As shown in fig. 11, in an embodiment of the present invention, preferably, the inner diameter of the top end of the connecting portion 204 is D0, the inner diameter of the bottom end of the connecting portion 204 is D1, and the height of the connecting portion 204 is H1, wherein 0.2 < (D0-D1)/H1 < 0.6.

In this embodiment, the inner diameter of the top end of the connecting portion 204 is D0, the inner diameter of the bottom end of the connecting portion 204 is D1, and the height of the connecting portion 204 is H1, then the ratio of the difference between the inner diameter of the bottom end of the connecting portion 204 and the inner diameter of the top end of the connecting portion 204 and the height of the connecting portion 204 is 0.2 < (D0-D1)/H1 < 0.6, (D0-D1)/H1) determines the slope of the inner sidewall inclination of the connecting portion 204, and by setting the slope of the inner sidewall inclination of the connecting portion 204 within this range, the spoiler rib 206 disposed on the inner sidewall of the cup 20 can extend to the bottom end of the connecting portion 204, so as to cooperate with the blade 364 to improve the pulverizing effect, and at the same time, the slope of the sidewall inclination of the connecting portion 204 is within this range, so that the connecting.

As shown in fig. 8 and 10, in an embodiment of the present invention, it is preferable that the chassis assembly 30 includes: the cutter disc assembly 32 is arranged at the bottom of the cup body 20, and the cutter disc assembly 32 is covered at the second opening 210; a seal 34 mounted on the impeller assembly 32 to seal a gap between the impeller assembly 32 and the cup 20; the cutter assembly 36 is rotatably mounted on the cutter head assembly 32, and the cutter assembly 36 comprises a cutter shaft 362 rotatably mounted on the cutter head assembly 32 and a cutter blade 364 fixedly arranged at the upper part of the cutter shaft 362.

In this embodiment, the chassis assembly 30 includes a cutter disc assembly 32, a sealing member 34 and a knife assembly 36, the cutter disc assembly 32 is disposed at the bottom of the cup body 20 and covers the second opening 210 of the cup body 20, the sealing member 34 is mounted on the cutter disc assembly 32, and the sealing member 34 can be used for sealing the gap between the cutter disc assembly 32 and the cup body 20, so as to prevent the problems of leakage and the like at the joint of the cup body 20 and the bottom shell assembly 10; the cutter assembly 36 is rotatably mounted on the cutter head assembly 32, specifically, the cutter assembly 36 includes a cutter shaft 362 rotatably mounted on the cutter head assembly 32 and a blade 364 fixedly arranged on the upper portion of the cutter shaft 362, and the cutter shaft 362 can drive the blade 364 to rotate when rotating on the cutter head assembly 32, so as to crush food materials through the blade 364.

As shown in fig. 10, in an embodiment of the present invention, preferably, the cutter head assembly 32 includes: a heat generating tray body 324; the extension part 322 is connected with the heating plate body 324, the extension part 322 is arranged on the periphery of the heating plate body 324, and the upper surface of the extension part 322 is flush with the upper surface of the heating plate body 324.

In this embodiment, it is specifically illustrated that the cutter head assembly 32 includes a heat generating tray body 324 and an extension portion 322 disposed at the periphery of the heat generating tray body 324, and the heat generating tray body 324 is used for realizing the heating function of the product; the extension part 322 is arranged on the periphery of the hot plate body 324, and the upper surface of the extension part 322 is flush with the upper surface of the hot plate body 324, that is, the upper surface of the extension part 322 and the upper surface of the hot plate body 324 form a plane for covering the second opening 210 of the cup body 20, so that the sealing performance between the cutter head assembly 32 and the cup body 20 can be ensured; the heating plate 324 may be an integrated structure with a heating function, or may be formed by combining a plurality of plate bodies and heating members. Preferably, the heating plate body comprises a first plate body, a second plate body and a heating element, the first plate body and the second plate body are stacked, the top surface of the second plate body is connected with the bottom surface of the first plate body, and the heating element is arranged at the bottom of the second plate body, so that the heating function of a product is realized. Preferably, welded connection between first disk body and the second disk body, first disk body can be the corrosion resistant plate that rigidity is good for first disk body non-deformable, thereby can ensure the sealing performance between first disk body and the cup, and the second disk body can be made for the aluminium material that the heat conductivility is good, promotes the heating efficiency of product. Further, as shown in fig. 2 and 4, the chassis assembly 30 'of the related art includes a cutter head assembly 32', a sealing member 34 'and a blade 364', and a flange 326 'is provided at an outer edge of the cutter head assembly 32', so that a distance from the blade 364 'to the spoiler rib 206' is increased, and thus, in a region where the blade 364 'rotates, the spoiler rib 206' does not function as an auxiliary spoiler, a crushing effect is limited, and the cutter head assembly 32 'having the flange 326' is complicated in process and high in cost. Compare cutter head assembly 32' among the correlation technique, the utility model discloses in design cutter head assembly 32 for not taking the turn-ups structure, reduced the technology degree of difficulty and the cost of processing cutter head assembly 32.

As shown in fig. 8 and 10, in an embodiment of the present invention, preferably, the sealing member 34 is annular, the inner wall of the sealing member 34 is provided with a circle of grooves, the sealing member 34 is sleeved on the extension portion 322, and the extension portion 322 is matched with the grooves.

In this embodiment, it is specifically described that the sealing element 34 is annular, and a circle of groove is provided on the inner wall of the sealing element 34, so that the sealing element 34 can be clamped on the extension portion 322 through the groove, the connection between the sealing element 34 and the extension portion 322 is realized, and the connection between the sealing element 34 and the extension portion 322 is stable and is not easy to fall off, thereby ensuring the sealing performance of the product; further, the extension 322 fits into the groove.

As shown in fig. 5, 6 and 8, in one embodiment of the present invention, preferably, the bottom case assembly 10 includes: the bottom cover 102, the bottom cover 102 is connected with the cup body 20 by screw thread; a housing 104 surrounding the bottom cover 102, the housing 104 being connected to the bottom cover 102; and a cup holder cover 106 disposed at the bottom of the bottom cover 102.

In this embodiment, the bottom shell assembly 10 includes a bottom cover 102, an outer shell 104 and a cup holder cover 106, the bottom cover 102 is screwed with the cup body 20, that is, the screw thread is disposed on the bottom cover 102, so as to connect the bottom shell assembly 10 with the cup body 20, specifically, the bottom cover 102 is disposed under the bottom shell assembly 30 and is fixed to the bottom of the cup body 20 by screwing, so as to press the bottom shell assembly 30 against the bottom of the cup body 20, so as to seal the cup body 20 and the bottom shell assembly 30; the shell 104 is arranged around the bottom cover 102 to play a role of supporting decoration; the bottom of whole stirring cup subassembly 1 is located to cup base lid 106, provides the mounting plane for placing of stirring cup subassembly 1 to can provide the interface for the installation between the base of stirring cup subassembly 1 and food processor.

In one embodiment of the present invention, as shown in fig. 5, the blending cup assembly 1 further preferably includes a cup cover 40, and the cup cover 40 is disposed on the first opening 208 of the cup body 20.

In this embodiment, the blending cup assembly 1 further includes a cup cover 40 covering the first opening 208 of the cup body 20, so as to prevent the food material in the cup body 20 from spilling out of the first opening 208 of the cup body 20, and prevent foreign matters from entering the cup body 20, thereby ensuring the sanitation and safety of the food material; preferably, a nozzle 214 is disposed on the first opening 208 of the cup body 20, and the food material in the cup body 20 can be poured out through the nozzle 214, so as to enhance the use experience of the user.

According to the utility model discloses a second aspect, the utility model provides a food processor, including the stirring cup subassembly 1 that the arbitrary embodiment of base and first aspect provided, because the utility model discloses a food processor has the stirring cup subassembly 1 that the arbitrary embodiment of first aspect provided, consequently, the embodiment of the utility model provides a food processor has the whole beneficial effect of the stirring cup subassembly 1 that the arbitrary embodiment of first aspect provided, and not enumerate one by one here.

In an embodiment of the present invention, preferably, the food processor is a food processor or a wall breaking machine or a soybean milk machine.

In this embodiment, the food processor is a food processor or a wall breaking machine or a soymilk machine, or other devices requiring the rotation cutting of the stirring tool, such as a stuffing twisting machine, etc., and the protection scope of the present invention is not limited to the above three devices.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. 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 description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means 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 do not necessarily 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 above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (14)

1. A blender cup assembly, comprising:

a bottom housing assembly;

the cup body is arranged on the bottom shell assembly, and a first opening and a second opening are respectively formed in two ends of the cup body; the cup body includes:

the top end of the containing part is provided with the first opening;

the top end of the connecting part is connected with the bottom end of the containing part, the connecting part of the inner side wall of the connecting part and the inner side wall of the containing part is in smooth transition, the inner side wall of the connecting part is gradually inclined from the top end of the connecting part to the bottom end of the connecting part towards the central line direction of the cup body, and the end face of the bottom end of the connecting part encloses to form the second opening;

the blender cup assembly further comprises: and the chassis assembly is arranged at the bottom of the cup body and covers the second opening, and comprises a blade, and at least part of the blade is rotatably arranged in a space formed by the surrounding of the connecting part.

2. The blending cup assembly of claim 1, further comprising:

the spoiler rib, at least a part of the spoiler rib sets up on the inside wall of connecting portion.

3. The blender cup assembly of claim 2,

one end of the turbulence rib extends to the bottom end of the connecting portion.

4. The blender cup assembly of claim 2,

the turbulence rib is convexly arranged on the inner side wall of the cup body.

5. The blender cup assembly of claim 1,

the cup body is in threaded connection with the bottom shell assembly, and a step is formed at the connection position of the outer side wall of the connecting part and the outer side wall of the containing part;

the outer side wall of the connecting part is gradually inclined from the top end of the connecting part to the bottom end of the connecting part towards the central line direction of the cup body, and an external thread is arranged on the outer side wall of the connecting part;

the bottom shell assembly is provided with an installation part matched with the connecting part, an internal thread matched with the external thread is arranged on the inner side wall of the installation part, and the connecting part is screwed on the installation part.

6. The blender cup assembly of claim 5,

the top of installation department is located the below of step, the lateral wall of installation department with the lateral wall of cup is smooth transition.

7. The blender cup assembly of any one of claims 1 to 6,

the height of the cup body is H0, the height of the connecting part is H1, wherein H1/H0 is more than 0.1 and less than 0.5.

8. The blender cup assembly of any one of claims 1 to 6,

the inner diameter of the top end of the connecting part is D0, the inner diameter of the bottom end of the connecting part is D1, wherein D1/D0 is more than 0.65 and less than 0.8.

9. The blender cup assembly of any one of claims 1 to 6,

the inner diameter of the top end of the connecting part is D0, the inner diameter of the bottom end of the connecting part is D1, the height of the connecting part is H1, and 0.2 < (D0-D1)/H1 < 0.6.

10. The blender cup assembly of any one of claims 1 to 6,

the chassis assembly includes:

the cutter head assembly is arranged at the bottom of the cup body and covers the second opening;

a seal mounted on the cutterhead assembly to seal a gap between the cutterhead assembly and the cup;

the cutter assembly is rotatably installed on the cutter head assembly and comprises a cutter shaft rotatably installed on the cutter head assembly and blades fixedly arranged on the upper portion of the cutter shaft.

11. The blender cup assembly of claim 10,

the cutter disc assembly comprises:

a heating plate body;

the extension part is connected with the heating disc body, the extension part is provided with the periphery of the heating disc body, and the upper surface of the extension part is flush with the upper surface of the heating disc body.

12. The blender cup assembly of claim 11,

the sealing element is annular, the inner wall of sealing element is provided with the round recess, the sealing element cover is established on the extension, the extension with recess looks adaptation.

13. The blender cup assembly of any one of claims 1 to 6,

the bottom case assembly includes:

the bottom cover is in threaded connection with the cup body;

the shell is arranged around the periphery of the bottom cover and connected with the bottom cover;

and the cup seat cover is arranged at the bottom of the bottom cover.

14. A food processor, comprising:

a base; and

a blender cup assembly as claimed in any one of claims 1 to 13.

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