Food processing cup assembly and food processor

By designing a corner contact surface at the bottom of the blender cup and using a combination of multiple sealing rings, the problem of poor sealing in blenders is solved, achieving better sealing performance and simplified assembly.

CN224461563UActive Publication Date: 2026-07-07ZHEJIANG SHAOXING SUPOR DOMESTIC ELECTRICAL APPLIANCE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG SHAOXING SUPOR DOMESTIC ELECTRICAL APPLIANCE CO LTD
Filing Date
2025-05-13
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing food processors, the seal between the food jar and the plate is not good, leading to liquid leakage from the food container.

Method used

The bottom of the blending cup is designed with the first and second contact surfaces intersecting to form a corner, and the first and second sealing rings respectively abut against these contact surfaces, combined with the third sealing ring to form a triple sealing structure, which increases the sealing area and contact area and improves the sealing effect.

Benefits of technology

By improving the sealing structure, the sealing effect between the cooking cup and the plate is enhanced, preventing liquid leakage from the food container cavity, simplifying the assembly process, and reducing the weight of the ring cup.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a food cup assembly and a food processor. The food cup assembly comprises a ring-shaped cup, a disc body, a first sealing ring and a second sealing ring. The ring-shaped cup comprises a bottom end. The top surface of the bottom end comprises a first contact surface and a second contact surface, the first contact surface and the second contact surface intersect and form a corner at the intersection; the first contact surface abuts against the first sealing ring and the second contact surface abuts against the second sealing ring to form a seal between the disc body and the top surface. Thus, compared with the case that the top surface is a plane and the sealing ring abuts against the plane, the area of the seal is larger, and the sealing effect between the disc body and the bottom end is better.
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Description

Technical Field

[0001] This application relates to small household appliances, and in particular to food processor cup components and food processors. Background Technology

[0002] The food processor includes a plate assembly and an annular cup. The plate assembly includes a plate and a sealing ring. The plate is sealed to the annular cup via the sealing ring to form a food receiving cavity for holding food. When the food processor includes a motor and a blade assembly, the motor drives the blades of the blade assembly to rotate within the food receiving cavity to process the food, such as making soy milk. When the food processor includes a heating element, the heating element can heat the food within the food receiving cavity.

[0003] In either case, the sealing ring needs to provide a good seal between the plate and the annular cup to prevent leakage of liquids from the food container. Utility Model Content

[0004] The purpose of this application is to disclose a food processor cup assembly and a food processor. The food processor cup assembly has a good sealing effect between the plate and the bottom of the ring cup.

[0005] In a first aspect, this application discloses a cooking cup assembly. The cooking cup assembly includes an annular cup, a plate, a first sealing ring, and a second sealing ring. The annular cup includes a bottom end; the top surface of the bottom end includes a first contact surface and a second contact surface, the first contact surface and the second contact surface intersect and form a corner at the intersection; the first contact surface abuts against the first sealing ring and the second contact surface abuts against the second sealing ring to form a seal between the plate and the top surface.

[0006] As described above, since the first contact surface and the second contact surface intersect and form a corner at the intersection, the first sealing ring abuts against the first contact surface, and the second sealing ring abuts against the second contact surface. Compared with the bottom top surface being a plane and the top surface abutting against the sealing ring, the sealing area is larger, and therefore, the sealing effect between the disc body and the bottom top surface is better.

[0007] In some implementations, the first contact surface is inclined upward relative to the second contact surface.

[0008] As described above, since the first contact surface is inclined upward relative to the second contact surface, at least one of the first sealing ring and the second sealing ring is in contact with the inclined surface. Thus, at least one of the contact areas between the first contact surface and the first sealing ring and the contact areas between the second contact surface and the second sealing ring is larger. Therefore, the first sealing ring and the second sealing ring together provide a good sealing effect between the disc body and the top surface of the bottom end.

[0009] In some embodiments, the second contact surface is a plane perpendicular to the centerline of the annular cup.

[0010] As described above, since the second contact surface is a plane and perpendicular to the center line of the annular cup, it can support the second sealing ring. Combined with the fact that the first contact surface is inclined upward relative to the second contact surface, it is more conducive to the first sealing ring abutting against the first contact surface, and the second sealing ring abutting against the second contact surface. As a result, the sealing effect between the disc body and the top surface is better.

[0011] In some embodiments, at least one of the first contact surface and the second contact surface is a plane.

[0012] As described above, since at least one of the first contact surface and the second contact surface is a plane, and at least one of the first sealing ring and the second sealing ring is in contact with the corresponding plane, the interference fit can be larger, and the sealing effect between the disc body and the top surface can be better.

[0013] In some embodiments, the corner formed by the first contact surface and the second contact surface is an obtuse angle.

[0014] As described above, since the corner is an obtuse angle, this facilitates the contact between the first sealing ring and the first contact surface, as well as the contact between the second sealing ring and the second contact surface, thereby improving the sealing effect between the disc body and the top surface of the bottom end.

[0015] In some implementations, the degree measure of the obtuse angle is a, where 145 degrees ≤ a ≤ 175 degrees.

[0016] As described above, since 145 degrees ≤ a ≤ 175 degrees, this design is more conducive to the first sealing ring abutting against the first contact surface and the second sealing ring abutting against the second contact surface, thereby improving the sealing effect between the disc body and the top surface of the bottom end.

[0017] In some embodiments, the bottom end includes an upper side extending upward from the top surface; the cooking cup assembly includes a third sealing ring abutting between the upper side and the plate body.

[0018] As described above, the third sealing ring abuts against the upper side and the disc body, forming a first seal. Combined with the first sealing ring abutting against the first contact surface and the second sealing ring abutting against the second contact surface, a triple seal is formed, resulting in a better sealing effect between the disc body and the bottom. Furthermore, since the third sealing ring is integral with the first and second sealing rings, and during the locking process between the disc body and the cup holder as described later, the tighter the locking, the closer the third sealing ring abuts against the upper side, resulting in a larger contact area and thus a better sealing effect.

[0019] In some embodiments, the cooking cup assembly includes a cup base; the bottom end, the first sealing ring, and the second sealing ring are held by the cup base and the plate body.

[0020] As described above, the tighter the disc body and cup holder clamp the bottom end, the first sealing ring, and the second sealing ring, the larger at least one of the contact area between the first contact surface and the first sealing ring, and the contact area between the second contact surface and the second sealing ring, resulting in a better sealing effect between the disc body and the top surface of the bottom end. Furthermore, since the bottom end, the first sealing ring, and the second sealing ring are clamped between the disc body and the cup holder, this arrangement effectively reduces the mounting structure of the bottom end of the annular cup, achieving material reduction in the mounting structure and thus reducing the weight of the annular cup.

[0021] In some embodiments, as the bottom end, the first sealing ring, and the second sealing ring are clamped between the disc body and the cup holder, the first sealing ring and the second sealing ring flip in opposite directions.

[0022] As described above, since the first sealing ring and the second sealing ring are flipped in opposite directions, the first sealing ring can better abut against the first contact surface, and the second sealing ring can better abut against the second contact surface, thereby improving the sealing effect between the disc body and the top surface of the bottom end.

[0023] In some embodiments, the cooking cup assembly includes a cup base; the cup base includes a mounting cavity, and the bottom end is located within the mounting cavity; the mounting cavity includes an outer wall; the cooking cup assembly includes a cup base sealing ring, the cup base sealing ring abutting against the outer surface of the outer wall of the mounting cavity and the bottom end.

[0024] As described above, the bottom end is located inside the mounting cavity, and then the plate and cup holder are assembled to clamp the bottom end, the first sealing ring, and the second sealing ring. The cup holder sealing ring abuts against the outer wall of the mounting cavity and the outer surface of the bottom end of the annular cup. In this way, the assembly of the cooking cup assembly is simpler, and the seal between the annular cup and the cup holder is better.

[0025] In some embodiments, the mounting cavity includes an inner wall, the bottom end includes a lower side extending downward from the top surface, and the second sealing ring also abuts against the inner surface of the inner wall and the lower side.

[0026] As described above, since the second sealing ring also abuts against the inner sidewall of the mounting cavity and the lower side, the contact area between the second sealing ring and the bottom end is larger, and the sealing effect between the disc body and the bottom end is better.

[0027] In some embodiments, the outer surface of the bottom end includes a bottom end corner, and the inner surface of the outer wall of the mounting cavity includes an outer wall corner; the cup seat sealing ring includes a first sealing ring corner and a second sealing ring corner, the first sealing ring corner abutting against the bottom end corner; the second sealing ring corner abutting against the outer wall corner.

[0028] As described above, since the first corner of the sealing ring abuts against the bottom corner, and the second corner of the sealing ring abuts against the outer wall corner, the cup seat sealing ring can be well pressed together and is not easy to loosen. Moreover, they can abut against each other, resulting in a better seal between the bottom of the annular cup and the cup seat.

[0029] In some embodiments, the cup holder sealing ring includes a groove, and the outer wall of the mounting cavity includes a protrusion that protrudes upward; the protrusion is inserted into the groove.

[0030] As described above, since the protrusion is inserted into the groove, it serves two purposes: firstly, it provides a positioning function, facilitating the assembly of the annular cup, cup seat, and cup seat sealing ring; secondly, the protrusion faces upward and forms a limiting groove with the annular cup and cup seat, with the cup seat sealing ring located within the limiting groove, preventing the cup seat sealing ring from being squeezed and protruding outward from the annular cup, thus ensuring good sealing and aesthetics.

[0031] In some embodiments, the cooking cup assembly includes a cup base; the bottom end includes a bottom surface, which is a plane and abuts against the cup base.

[0032] As described above, the bottom surface is a plane, which makes it easier to assemble the bottom surface with the cup holder compared to a non-planar bottom surface, and also makes it easier to process the annular cup.

[0033] In some embodiments, the width of the bottom end face is w, where w ≤ 10 mm.

[0034] As described above, since w ≤ 10mm, the width w is relatively small, making it easier to cut the annular cup, thereby facilitating the manufacture of the annular cup.

[0035] In some embodiments, the bottom end includes a ramp that is connected to the bottom end face and is inclined upward relative to the bottom end face.

[0036] As described above, since the bottom end includes the inclined surface, which is inclined upward relative to the bottom end face, it can better ensure that the width of the bottom end face is small, making it easier to cut the annular cup and thus easier to process.

[0037] Secondly, this application discloses a food processor. The food processor includes a base and any of the aforementioned food processor cup assemblies, the food processor cup assembly being located on the base.

[0038] As described above, the food processor has at least the beneficial effects of the food processor cup assembly, which will not be elaborated further. Attached Figure Description

[0039] Figure 1 This is a schematic diagram of a ring-shaped cup according to this application;

[0040] Figure 2 yes Figure 1 A top view of the assembly consisting of the ring cup and the handle shown;

[0041] Figure 3 yes Figure 1 The cross-sectional view of the annular cup shown is referenced from [reference point]. Figure 2 AA line;

[0042] Figure 4 yes Figure 3 An enlarged view of part A;

[0043] Figure 5 This is a cross-sectional view of the cooking cup component of this application;

[0044] Figure 6 yes Figure 5 An enlarged view of part B;

[0045] Figure 7 This is a schematic diagram of a ring-shaped cup in related technologies;

[0046] Figure 8 yes Figure 7 An enlarged view of part C;

[0047] Figure 9 This is a schematic diagram of a food processor according to this application, showing the lid in the open position. Detailed Implementation

[0048] The technical solutions in the embodiments (or "implementations") of this application will be clearly and completely described herein with reference to the accompanying drawings. When the following description relates to the drawings, unless otherwise indicated, the same numbers in different drawings represent the same or similar elements.

[0049] If the embodiments of this application contain terms relating to directional indications or positional relationships (such as up, down, left, right, front, back, inside, outside, top, bottom, center, vertical, horizontal, longitudinal, transverse, length, width, counterclockwise, clockwise, axial, radial, circumferential, etc.), such terms are only used to explain the relative positional relationships and movements between components in a specific posture (as shown in the attached figures); if the specific posture changes, the directional indications or positional relationships will also change accordingly. Furthermore, the terms "first" and "second" used in the embodiments of this application are only for descriptive convenience and should not be construed as indicating or implying relative importance.

[0050] See Figures 3 to 6 This application discloses a food processor assembly. The food processor assembly includes a ring-shaped cup 1, a plate 31, a first sealing ring 321, and a second sealing ring 322. In this embodiment, the plate 31, the first sealing ring 321, and the second sealing ring 322 constitute a plate assembly 3. In other embodiments, they may be independent components. Regardless of whether they constitute a plate assembly 3, the plate 31 is provided with a heating element 39, thus the food processor assembly (or food processor) has a heating function and can heat the food inside the food processor assembly. The plate 31 may also not have a heating element 39; in this case, the food processor assembly (or food processor) does not have a heating function. The plate 31 may also be equipped with a blade assembly, which, driven by a motor, can blend the food inside the food processor assembly. Of course, the plate 31 may have both a heating element and a blade assembly. The shape of the plate 31 is not limited to the shape shown in the image. Figure 5 It is roughly flat in shape.

[0051] See Figure 1 and Figure 2 The annular cup 1 includes a bottom end 10. The annular cup 1 also includes an upper end 11 extending upward from the bottom end 10. The projections of the bottom end 10 and the upper end 11 onto a plane perpendicular to the center line of the annular cup 1 are both square; that is, the annulus of the annular cup 1 is a square ring. In other embodiments, the annulus of the annular cup 1 may also be a circular ring. Regardless of the shape of the annular cup 1, the top surface of the bottom end 10 includes a first contact surface 121 and a second contact surface 122. The first contact surface 121 and the second contact surface 122 can be as follows: Figure 4 In this way, both are planar surfaces. Furthermore, the first contact surface 121 and the second contact surface 122 can also be one planar surface and the other curved surface (such as an arc surface), or both can be curved surfaces. Of course, the shapes of the first contact surface 121 and the second contact surface 122 are not limited to the shapes listed above. Regardless of the individual shapes of the first contact surface 121 and the second contact surface 122, the first contact surface 121 and the second contact surface 122 intersect and form a corner at the intersection. Figure 4 The corner is shown as 'a'. In this application, the bottom end 10 includes a mounting platform 12. The top surface of the bottom end 10 is the top surface of the mounting platform 12. The mounting platform 12 is annular around the annular cup 1. In other embodiments, there may be multiple mounting platforms 12, distributed circumferentially around the annular cup 1. Regardless of the shape, the mounting platform 12 can at least accommodate the disc body 31 for mounting, and support the first sealing ring 321 and the second sealing ring 322, and ultimately the first sealing ring 321 and the second sealing ring 322 can seal with the mounting platform 12 and the disc body 31. Figure 4 and Figure 6In some embodiments, the bottom surface of the mounting platform 12 is coplanar with the bottom end surface 124 of the bottom end 10. In other embodiments, the bottom surface of the mounting platform 12 is not coplanar with the bottom end surface 124, but is higher than the bottom end surface 124.

[0052] The first contact surface 121 abuts against the first sealing ring 321, and the second contact surface 122 abuts against the second sealing ring 322, to form a seal between the disc body 31 and the top surface. The first sealing ring 321 and the second sealing ring 322 can be independent components, or they can be integrally formed as the disc body sealing ring 32, as shown in the figure, with the disc body sealing ring 32 wrapping around the edge of the disc body 31. The first sealing ring 321 and the second sealing ring 322 can be the lips of the disc body sealing ring 32. As for how the first contact surface 121 abuts against the first sealing ring 321 and the second contact surface 122 abuts against the second sealing ring 322, it is not limited to the method described later, in which the disc body 31 is locked to the cup seat 2 to clamp the mounting platform 12 of the bottom end 10, the first sealing ring 321, and the second sealing ring 322.

[0053] As described above, since the first contact surface 121 and the second contact surface 122 intersect and form a corner at the intersection, the first sealing ring 321 abuts against the first contact surface 121, and the second sealing ring 322 abuts against the second contact surface 122. Compared with the bottom end 10 having a flat top surface that abuts against the sealing ring, the sealing area is larger, and therefore, the sealing effect between the disc body 31 and the top surface of the bottom end 10 is better.

[0054] See Figure 4 and Figure 6 In this embodiment, the first contact surface 121 is inclined upward relative to the second contact surface 122. The first contact surface 121 can be a plane or an arc surface, etc. Furthermore, in this case, the second contact surface 122 is a plane, parallel to the cross-section, and the cross-section is perpendicular to the center line L of the annular cup 1; or, the second contact surface 122 is inclined upward toward the cross-section. In this case, the second contact surface 122 can be a plane or an arc surface, etc.

[0055] As described above, since the first contact surface 121 is inclined upward relative to the second contact surface 122, at least one of the first sealing ring 321 and the second sealing ring 322 is in contact with the inclined surface. Thus, at least one of the contact areas of the first contact surface 121 and the first sealing ring 321 and the contact areas of the second contact surface 122 and the second sealing ring 322 is larger. Therefore, the first sealing ring 321 and the second sealing ring 322 together provide a good sealing effect between the disc body 31 and the top surface of the bottom end 10.

[0056] See Figure 4 and Figure 6 The second contact surface 122 is a plane, and the plane is perpendicular to the center line of the annular cup. In this embodiment, the first contact surface 121 can be a plane, an arc surface, etc.

[0057] As described above, since the second contact surface 122 is a plane and perpendicular to the center line of the annular cup, it can support the second sealing ring 322. Combined with the fact that the first contact surface 121 is inclined upward relative to the second contact surface 122, it is more conducive to the first sealing ring 321 abutting against the first contact surface 121, and the second sealing ring 322 abutting against the second contact surface 122. As a result, the sealing effect between the disc body 31 and the top surface is better.

[0058] See Figure 4 and Figure 6 The first contact surface 121 is a plane, and the second contact surface 122 is a plane. When both are planes, the intersection of the two can be a rounded transition, or it can be a direct connection without a rounded transition. Those skilled in the art will understand that it is sufficient for either the first contact surface 121 or the second contact surface 122 to be a plane.

[0059] As described above, since at least one of the first contact surface 121 and the second contact surface 122 is a plane, and at least one of the first sealing ring 321 and the second sealing ring 322 is in contact with the corresponding plane, the interference fit can be larger, and the sealing effect between the disc body 31 and the top surface can be better.

[0060] See Figure 4 Both the first contact surface 121 and the second contact surface 122 are planes, and the corner formed by them is an obtuse angle. When both the first contact surface 121 and the second contact surface 122 are arc surfaces, the obtuse angle is the angle formed by their respective tangents. Based on this, it can be extended to: when one of the first contact surface 121 and the second contact surface 122 is not a plane, the obtuse angle is the angle formed by the tangent and the other.

[0061] As described above, since the corner is an obtuse angle, it is beneficial for the first sealing ring 321 to abut against the first contact surface 121 and for the second sealing ring 322 to abut against the second contact surface 122, thereby improving the sealing effect between the disc body 31 and the top surface of the bottom end 10.

[0062] In either case, the obtuse angle is α, where 145° ≤ α ≤ 175°, for example, 145°, 148°, 150°, 152°, 155°, 158°, 160°, 165°, 168°, 170°, 173°, or 175°.

[0063] As described above, since 145 degrees ≤ a ≤ 175 degrees, this design is more conducive to the first sealing ring 321 abutting against the first contact surface 121 and the second sealing ring 322 abutting against the second contact surface 122, thereby improving the sealing effect between the disc body 31 and the top surface of the bottom end 10.

[0064] See Figure 6 and Figure 5 The bottom end 10 includes an upper side surface 120 extending upward from the top surface. The cooking cup assembly includes a third sealing ring 323. The third sealing ring 323 abuts between the upper side surface 120 and the plate body 31. The third sealing ring 323 can form the plate body sealing ring 32 together with the first sealing ring 321 and the second sealing ring 322, or it can be a separate component.

[0065] As described above, the third sealing ring 323 abuts against the upper side surface 120 and the disc body 31, forming a first seal. Combined with the first sealing ring 321 abutting against the first contact surface 121 and the second sealing ring 322 abutting against the second contact surface 122, a triple seal is formed, resulting in a better sealing effect between the disc body 31 and the bottom end 10. Furthermore, since the third sealing ring 323 is integral with the first sealing ring 321 and the second sealing ring 322, and as described later during the locking process between the disc body 31 and the cup holder 2, the tighter the locking, the closer the third sealing ring 323 abuts against the upper side surface 120, resulting in a larger contact area and thus a better sealing effect.

[0066] See Figure 5 The cooking cup assembly includes a cup base 2. The bottom end 10, the first sealing ring 321, and the second sealing ring 322 are clamped by the cup base 2 and the plate body 31. In this embodiment, the mounting platform 12 of the bottom end 10, the first sealing ring 321, and the second sealing ring 322 are clamped by the cup base 2 and the plate body 31. The clamping can be achieved in ways such as: a) the plate body 31 is provided with a stud, the cup base 2 is provided with a screw hole, and a screw passes through the screw hole and locks with the stud, so that the mounting platform 12 is clamped by the plate body 31 and the cup base 2; b) the cooking cup assembly may also include a bracket, which is locked to the plate body 31 and connected to the cup base 2, thereby clamping the bottom end 10, the first sealing ring 321, and the second sealing ring 322 by the cup base 2 and the plate body 31. See also Figure 6 and Figure 4 Through the aforementioned clamping, the first contact surface 121 abuts against the first sealing ring 321 and the second contact surface 122 abuts against the second sealing ring 322.

[0067] As described above, the tighter the disc body 31 and cup holder 2 clamp the bottom end 10, the first sealing ring 321, and the second sealing ring 322, the larger at least one of the contact area between the first contact surface 121 and the first sealing ring 321 and the contact area between the second contact surface 122 and the second sealing ring 322 becomes. This results in a better sealing effect between the disc body 31 and the top surface of the bottom end 10. Furthermore, since the bottom end 10, the first sealing ring 321, and the second sealing ring 322 are clamped between the disc body 31 and the cup holder 2, this arrangement effectively reduces the material requirements of the mounting structure of the bottom end 10 of the annular cup 1, thereby reducing the weight of the annular cup 1.

[0068] Based on the clamping mechanism that allows the first sealing ring 321 to abut against the first contact surface 121, and the second sealing ring 322 to abut against the second contact surface 122, the movement of the first sealing ring 321 and the second sealing ring 322 during the clamping process to achieve the abutment is not limited. In some embodiments, during the clamping of the bottom end 10, the first sealing ring 321, and the second sealing ring 322 between the disc body 31 and the cup base 2, the first sealing ring 321 and the second sealing ring 322 rotate in opposite directions. For example, the first sealing ring 321 rotates towards the direction of the annular cup 1 away from the second contact surface 122 (e.g., ...). Figure 6 (As indicated by the middle arrow R) flips over, and the second sealing ring 322 is oriented away from the first contact surface 121 (e.g., Figure 6 (As indicated by the middle arrow r) Flip.

[0069] As described above, since the first sealing ring 321 and the second sealing ring 322 are flipped in opposite directions, the first sealing ring 321 can better abut against the first contact surface 121, and the second sealing ring 322 can better abut against the second contact surface 122, thereby improving the sealing effect between the disc body 31 and the top surface of the bottom end 10.

[0070] See Figure 6 The cup holder 2 includes a mounting cavity 21, and the bottom end 10 is located within the mounting cavity 21. The bottom end 10 may be partially located within the mounting cavity 21 as shown in the figure, but its location within the mounting cavity 21 is not limited. The mounting cavity 21 includes an outer wall 211. The cooking cup assembly includes a cup holder sealing ring 4, which abuts against the outer wall 211 of the mounting cavity and the outer surface of the bottom end 10.

[0071] As described above, the bottom end 10 is located inside the mounting cavity 21, and then the plate body 31 and the cup holder 2 are assembled to clamp the bottom end 10, the first sealing ring 321 and the second sealing ring 322. The cup holder sealing ring 4 abuts against the outer wall 211 of the mounting cavity and the outer surface of the bottom end 10 of the annular cup 1. In this way, the assembly of the cooking cup assembly is simpler, and the seal between the annular cup 1 and the cup holder 2 is better.

[0072] See Figure 6 The mounting cavity 21 includes an inner sidewall 212. The inner sidewall 212 may or may not abut against the disk body 31. See also... Figure 6 and Figure 4 The bottom end 10 includes a lower side surface 123 extending downward from the top surface. That is, the lower side surface 123 is connected to the second contact surface 122. The lower side surface 123 can be connected to the second contact surface 122 via a rounded corner surface, or it can be directly connected without a rounded corner surface. The second sealing ring 322 also abuts against the inner sidewall 212 of the mounting cavity and the lower side surface 123.

[0073] As described above, since the second sealing ring 322 also abuts against the inner sidewall 212 of the mounting cavity and the lower sidewall 123, the contact area between the second sealing ring 322 and the bottom end 10 is larger, and the sealing effect between the disc body 31 and the bottom end 10 is better.

[0074] See Figure 4 and Figure 6 The outer surface of the bottom end 10 includes a bottom end corner 13. The outer wall 211 of the mounting cavity includes an outer wall corner 2111. The cup seat sealing ring 4 includes a first sealing ring corner 41 and a second sealing ring corner 42. The first sealing ring corner 41 abuts against the bottom end corner 13. The second sealing ring corner 42 abuts against the outer wall corner 2111. The number of each of the bottom end corner 13, the outer wall corner 2111, the first sealing ring corner 41, and the second sealing ring corner 42 is not limited to the two shown. They may include perpendicular connecting walls connected by rounded corners; or they may be composed of perpendicular connecting walls; or they may be arc-shaped, etc.

[0075] As described above, since the first corner 41 of the sealing ring abuts against the bottom corner 13, and the second corner 42 of the sealing ring abuts against the outer wall corner 2111, the cup seat sealing ring 4 can be well pressed together and is not easy to loosen. Moreover, they can abut against each other, resulting in a better seal between the bottom end 10 of the annular cup 1 and the cup seat 2.

[0076] See Figure 6The cup seat sealing ring 4 includes a groove 43, and the outer wall 211 of the mounting cavity includes a protrusion 2112. The shape of the protrusion 2112 is not limited, and the protrusion 2112 protrudes upward (for example, protruding upward along the depth direction of the annular cup 1). The protrusion 2112 is inserted into the groove 43.

[0077] As described above, since the protrusion 2112 is inserted into the groove 43, it serves two purposes: firstly, it provides a positioning function, facilitating the assembly of the annular cup 1, the cup seat 2, and the cup seat sealing ring 4; secondly, the protrusion 2112 protrudes upwards, forming a limiting groove with the annular cup 1 and the cup seat 2, with the cup seat sealing ring 4 located within the limiting groove, preventing the cup seat sealing ring 4 from being squeezed outwards from the annular cup 1. Figure 5 and Figure 6 The arrow (in the direction of b) protrudes to ensure good sealing and aesthetics.

[0078] See Figure 6 and Figure 5 The cooking cup assembly includes a cup base 2. The bottom end 10 includes a bottom surface 124. The bottom surface 124 is a plane and abuts against the cup base 2. In some embodiments, the bottom surface 124 may not be a plane but abuts against the cup base 2.

[0079] As described above, the bottom surface 124 is a plane, which makes it easier to assemble the bottom end 10 with the cup holder 2 compared to a non-plane bottom surface 124, and also makes it easier to process the annular cup 1.

[0080] See Figure 4 When the bottom surface 124 is a plane, the width of the bottom surface 124 is w, where w ≤ 10 mm.

[0081] As described above, since w ≤ 10mm, the width w is relatively small, which makes it easier to cut the annular cup 1, thereby facilitating the manufacture of the annular cup 1.

[0082] See Figure 4 When the bottom end face 124 is a plane, the bottom end 10 includes an inclined surface 14, which is connected to the bottom end face 124 and is inclined upward relative to the bottom end face 124.

[0083] As described above, since the bottom end 10 includes the inclined surface 14, and the inclined surface 14 is inclined upward relative to the bottom end surface 124, compared to Figure 7 and Figure 8 The annular cup 1 shown further ensures that the width of the bottom end face 124 is smaller, making it easier to cut the annular cup 1 and thus easier to process. Because Figure 7 and Figure 8 In the middle, the bottom end face 124 is perpendicular to the outer surface of the bottom end of the ring cup, which will make w larger and make it difficult to cut the ring cup 1.

[0084] On the other hand, see Figure 9 This application discloses a food processor. The food processor includes any of the aforementioned food processor cup assembly 100 and a base 200, wherein the food processor cup assembly 100 is located on the base 200. Here, the food processor cup assembly 100 being located on the base 200 includes: a) as... Figure 9 As shown, the blending cup assembly 100 and the base 200 are separate structures. When food needs to be processed, the blending cup assembly 100 is placed on the base 200. More specifically, the base 200 includes a base 201 and a support 202 extending upward from the base 201. The cover 300 is assembled with the support 201. The blending cup assembly 100 is placed on the base 201, and the cover 300 can cover the top of the blending cup assembly 100 (e.g., a cup lid); when food needs to be poured out, the blending cup assembly can be removed from the base; b) the blending cup assembly and the base are an integral structure; when food is poured out or processed, the blending cup assembly cannot be removed from the base. For the blender, if the blender includes a blade assembly, the motor driving the blade assembly can be located in the blending cup assembly or in the base 200.

[0085] As described above, the food processor has at least the beneficial effects of the blade assembly.

[0086] It should be noted that the technical solutions or features described in the above embodiments can be combined or supplemented with each other without conflict. The scope of protection of this application is not limited to the precise structures described in the above embodiments and shown in the accompanying drawings; all modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the scope of protection of this application.

Claims

1. A cooking cup assembly, characterized in that, The cooking cup assembly includes a ring cup (1), a plate (31), a first sealing ring (321), and a second sealing ring (322), wherein: The annular cup (1) includes a bottom end (10); the top surface of the bottom end (10) includes a first contact surface (121) and a second contact surface (122), the first contact surface (121) and the second contact surface (122) intersect and form a corner at the intersection; The first contact surface (121) abuts against the first sealing ring (321) and the second contact surface (122) abuts against the second sealing ring (322) to form a seal between the disc body (31) and the top surface.

2. The cooking cup assembly according to claim 1, characterized in that, The first contact surface (121) is inclined upward relative to the second contact surface (122).

3. The cooking cup assembly according to claim 2, wherein the second contact surface (122) is a plane, and the plane is perpendicular to the center line of the annular cup.

4. The cooking cup assembly according to claim 1, characterized in that, At least one of the first contact surface (121) and the second contact surface (122) is a plane.

5. The cooking cup assembly according to claim 1, characterized in that, The corner formed by the first contact surface (121) and the second contact surface (122) is an obtuse angle.

6. The cooking cup assembly according to claim 5, characterized in that, The obtuse angle is measured in degrees 'a', where 145 degrees ≤ a ≤ 175 degrees.

7. The cooking cup assembly according to claim 1, characterized in that, The bottom end (10) includes an upper side surface (120) extending upward from the top surface; The cooking cup assembly includes a third sealing ring (323) that abuts between the upper side surface (120) and the plate body (31).

8. The cooking cup assembly according to claim 1, characterized in that, The cooking cup assembly includes a cup base (2); the bottom end (10), the first sealing ring (321) and the second sealing ring (322) are held by the cup base (2) and the plate body (31).

9. The cooking cup assembly according to claim 8, characterized in that, During the process of the bottom end (10), the first sealing ring (321) and the second sealing ring (322) being held between the plate body (31) and the cup seat (2), the first sealing ring (321) and the second sealing ring (322) flip in opposite directions.

10. The cooking cup assembly according to claim 1 or 8, characterized in that, The cooking cup assembly includes a cup base (2); the cup base (2) includes a mounting cavity (21), and the bottom end (10) is located within the mounting cavity (21); The mounting cavity (21) includes an outer wall (211) of the mounting cavity; the cooking cup assembly includes a cup seat sealing ring (4), which abuts against the outer surface of the outer wall (211) of the mounting cavity and the bottom end (10).

11. The cooking cup assembly according to claim 10, characterized in that, The mounting cavity (21) includes an inner wall (212) of the mounting cavity, and the bottom end (10) includes a lower side surface (123) extending downward from the top surface. The second sealing ring (322) also abuts against the inner surface of the inner wall (212) of the mounting cavity and the lower side surface (123).

12. The cooking cup assembly according to claim 10, characterized in that, The outer surface of the bottom end (10) includes a bottom end corner (13), and the inner surface of the outer wall of the mounting cavity (211) includes an outer wall corner (2111). The cup seat sealing ring (4) includes a first corner (41) and a second corner (42). The first corner (41) abuts against the bottom corner (13); the second corner (42) abuts against the outer wall corner (2111).

13. The cooking cup assembly according to claim 10, characterized in that, The cup seat sealing ring (4) includes a groove (43), and the outer wall (211) of the mounting cavity includes a protrusion (2112) that protrudes upward; the protrusion (2112) is inserted into the groove (43).

14. The cooking cup assembly according to claim 1, characterized in that, The cooking cup assembly includes a cup base (2); the bottom end (10) includes a bottom end surface (124), which is a plane and abuts against the cup base (2).

15. The cooking cup assembly according to claim 14, characterized in that, The width of the bottom end face (124) is w, where w ≤ 10 mm.

16. The cooking cup assembly according to claim 14 or 15, characterized in that, The bottom end (10) includes a slope (14) that is connected to the bottom end face (124) and is inclined upward relative to the bottom end face (124).

17. A food processor, characterized in that, The food processor includes a base (200) and a food processor assembly (100) as described in any one of claims 1 to 16, the food processor assembly (100) being located on the base (200).