Blender cup assembly and food processor
By setting a flange and a heating plate in the mixing cup assembly for a tight connection, and using a plate sealing ring to achieve a seal, the problem of the large height of the mixing cup assembly is solved, achieving space saving and improved sealing performance.
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
- 2026-06-26
Smart Images

Figure CN224403483U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of food processing, and more particularly to a blending cup assembly and a food processor. Background Technology
[0002] With the continuous improvement of people's living standards, many different types of food processors have appeared on the market. The functions of food processors mainly include, but are not limited to, making soy milk, juicing, rice paste, mincing meat, shaved ice, making coffee, and / or preparing face masks. Food processors can include soy milk makers, blenders, or high-speed blenders—machines that pulverize and mix food. Food processors generally include a blending jar assembly; existing food processors have the problem of a large blending jar assembly, resulting in a taller processor that occupies a large amount of space. Utility Model Content
[0003] This application provides a blending cup assembly and a food processor to solve at least some of the problems in the related art.
[0004] This application provides a mixing cup assembly, including:
[0005] The cup body has a flange at its bottom end that extends radially inward.
[0006] The heating plate is located inside the cup body and presses downward against the flange;
[0007] A disc sealing ring is disposed between the edge of the heating plate and the flange, and the inner ring of the disc sealing ring has a groove portion that covers the edge of the heating plate;
[0008] A motor mounting bracket is located below the cup body and presses upward against the flange; the motor mounting bracket is securely connected to the heating plate.
[0009] The motor is mounted on the motor mounting bracket.
[0010] Thus, by providing a flange radially inward at the bottom of the cup body, and securely connecting the heating plate above the flange to the motor mounting bracket below the flange, the heating plate is fixed inside the cup body, reducing the height of the blender assembly and consequently the overall height of the blender. Furthermore, the sealing ring forms a seal between the heating plate and the flange. By covering the edge of the heating plate with a groove, a seal is achieved between the heating plate and the cup body, simultaneously sealing the gap between the heating plate and the cup wall, as well as the gap between the lower surface of the heating plate's edge and the upper surface of the flange, resulting in excellent sealing performance.
[0011] Optionally, the lower surface of the motor mounting bracket is recessed upwards to form a recessed portion, and the motor is at least partially accommodated within the recessed portion. This reduces the overall height of the assembled motor and motor mounting bracket, thereby reducing the height of the stirring cup assembly.
[0012] Optionally, the upper surface of the motor mount is recessed downwards to form an annular receiving portion, which surrounds the recess; the heating plate includes a heating tube, which is received within the receiving portion. This ensures that the heating tube on the side of the heating plate facing the motor mount is located within the receiving portion on the side of the motor mount facing the heating plate. This facilitates full utilization of the space in the motor mount, saving on the overall height of the assembled motor mount and heating plate, and further reducing the height of the stirring cup assembly.
[0013] Optionally, the motor mounting bracket further includes a laterally extending support portion that presses upward against the flange and is connected to the receiving portion. Thus, after assembling the motor mounting bracket from bottom to top with the bottom end of the cup body, the flange and the support portion abut against each other, with the support portion supporting the flange.
[0014] Optionally, the receiving part is provided with a first connecting part, and the heating plate is provided with a second connecting part. The first connecting part and the second connecting part are fastened together, which facilitates the connection between the heating plate and the motor fixing bracket to clamp the flange and realize the assembly of the heating plate and the cup body.
[0015] Optionally, one of the first connecting part and the second connecting part is a stud, and the other part has a threaded hole adapted to the stud, wherein the stud and the threaded hole are fastened together. The threaded connection method is simple and secure.
[0016] Optionally, the upper surface of the first connecting portion protrudes beyond the receiving portion, and the first connecting portion is provided with a plurality of upwardly protruding reinforcing ribs in its circumferential direction, the reinforcing ribs connecting the first connecting portion and the receiving portion. This enhances the strength of the first connecting portion.
[0017] Optionally, the cup body is square, the heating plate is square, and the plate sealing ring is a square annular structure adapted to the heating plate. Thus, the cup body has a square cross-section, allowing it to be made shorter while maintaining the same volume, and providing better airflow. The shapes of the heating plate and the plate sealing ring are adapted to the shape of the cup body, facilitating assembly between the heating plate and the cup body.
[0018] Optionally, the disc sealing ring includes a main body and an upper lip and a lower lip extending inward from the main body. The upper lip, the lower lip, and the main body together constitute the groove. The main body is provided with a first protruding rib extending outward and a second protruding rib extending downward. The lower lip is provided with a third protruding rib extending downward. In this way, the first and second protruding ribs achieve tight pressure against the cup wall, and the second and third protruding ribs achieve tight pressure against the flange, thereby increasing the sealing performance.
[0019] Optionally, the mixing cup assembly further includes a cup base and a cup sealing ring. The cup base is assembled to the lower part of the cup body, and the cup sealing ring is disposed between the cup body and the cup base, forming a seal between the cup body and the cup base. This ensures a sealed connection between the lower part of the cup body and the cup base, preventing water from entering the cup base.
[0020] Optionally, the cup holder 30 is integrally formed with the motor mounting bracket. This facilitates manufacturing and reduces assembly steps.
[0021] Optionally, the inner wall of the cup holder is provided with multiple inwardly protruding limiting ribs, which abut against the cup sealing ring. In this way, the limiting ribs compress the cup sealing ring, which can restrict the movement of the cup sealing ring, thereby ensuring the sealing effect between the cup holder and the cup body.
[0022] Optionally, the motor is located on the side of the motor mounting bracket opposite to the heating plate. The motor includes an output shaft, the motor mounting bracket has a through hole, and the heating plate has a shaft hole corresponding to the through hole. The output shaft passes through the through hole and the shaft hole. This makes the stirring cup assembly structure compact.
[0023] Optionally, the mixing cup assembly further includes a bottom cover, and the motor is fixed between the bottom cover and the motor mounting bracket. Thus, the space between the bottom cover and the motor mounting bracket serves to accommodate and protect the motor.
[0024] This application also provides a food processor, including the aforementioned blending cup assembly;
[0025] The base includes a base and a support extending upward from the base, the stirring cup assembly being assembled to the base;
[0026] The machine cover is connected to the support base and is positioned above the mixing cup assembly.
[0027] It should be understood that the above general description and the following detailed description are exemplary and explanatory only, and do not limit this application. Attached Figure Description
[0028] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.
[0029] Figure 1 This is an exploded view of one embodiment of the stirring cup assembly of this application;
[0030] Figure 2 for Figure 1 A cross-sectional view of the mixing cup assembly shown;
[0031] Figure 3 for Figure 1 An enlarged structural schematic diagram of the heating plate and the plate sealing ring shown;
[0032] Figure 4 for Figure 1 A schematic diagram of the motor mounting bracket from one perspective;
[0033] Figure 5 for Figure 1 The diagram shows another view of the motor mounting bracket.
[0034] Figure 6 for Figure 1 The diagram shows the structure of the heating plate facing the motor mounting bracket.
[0035] Figure 7 This is a schematic diagram of the structure of one embodiment of the food processor of this application;
[0036] Figure 8 for Figure 7 The diagram shows the structure of the food processor in one of its states.
[0037] Figure 9 for Figure 7 The diagram shows the structure of the food processor in another state. Attached image description:
[0039] Mixing cup assembly 1, cup body 10, flange 11, cup sealing ring 12, heating plate 20, plate sealing ring 21, groove 211, main body 212, upper lip 213, lower lip 214, first rib 215, second rib 216, third rib 217, heating tube 22, second connecting part 23, protrusion 24, shaft hole 201, cup base 30, motor fixing bracket 33, fixing frame 31, support part 32, limiting rib 311, receiving part 34, recessed part 35, first connecting part 36, reinforcing rib 37, through hole 301, motor 40, output shaft 41, bottom cover 50, coupler 51, cup lid 13, food processor 100, base 2, lid 3, base 202, support base 203. Detailed Implementation
[0040] This application provides a blending cup assembly and a food processor. The blending cup assembly and food processor of this application will be described in detail below with reference to the accompanying drawings. Unless otherwise specified, the features of the following embodiments and implementations can be combined with each other.
[0041] Please see Figure 1 and Figure 2 , Figure 1 This is an exploded view of one embodiment of the stirring cup assembly 1 of this application. Figure 2 for Figure 1A cross-sectional view of the mixing cup assembly shown. (As shown) Figure 1 and Figure 2 As shown, the stirring cup assembly 1 includes:
[0042] The cup body 10 has a flange 11 extending radially inward at its bottom end. The cup body 10 is used to hold food and provide space for it. The flange 11 extending radially inward at the bottom end of the cup body 10 is an inwardly bent flange that can support the heating plate 20.
[0043] The heating plate 20 is located inside the cup body 10 and presses downward against the flange 11. The heating plate 20 is located inside the cup body 10 and presses downward against the flange 11, which prevents the heating plate 20 from falling off the bottom of the cup body 10.
[0044] A disc sealing ring 21 is disposed between the edge of the heating plate 20 and the flange 11. The disc sealing ring 21 covers the edge of the heating plate 20. By disposing of the disc sealing ring 21 between the edge of the heating plate 20 and the flange 11, a seal is formed between the heating plate 20 and the flange 11. Please refer to [reference needed]. Figure 3 , Figure 3 for Figure 1 The diagram shows the structure of the heating plate 20 and the plate sealing ring 21. Figure 3 As shown, the inner ring of the disc sealing ring 21 has a groove 211 that covers the edge of the heating plate 20. By covering the edge of the heating plate 20 with the groove 211, a seal is achieved between the heating plate 20 and the cup body 10. This seal can simultaneously seal the gap between the heating plate 20 and the cup wall of the cup body 10, as well as the gap between the lower surface of the edge of the heating plate 20 and the upper surface of the flange 11, resulting in good sealing performance. The shape of the disc sealing ring 21 matches the shape of the cup body 10 and the heating plate 20.
[0045] exist Figure 1 In the example shown, the cup body 10 is a square cup, the heating plate 20 is square, the cross-section of the cup body 10 and the shape of the heating plate 20 are approximately square, and the plate sealing ring 21 is a square annular structure adapted to the heating plate 20. By setting the plate sealing ring 21, a seal is formed between the heating plate 20 and the flange 11, which can make the connection between the heating plate 20 and the cup body 10 tight and prevent the food inside the cup body 10 from being lost through the gap between the heating plate 20 and the flange 11.
[0046] The motor mounting bracket 33 is located below the cup body 10 and presses upward against the flange 11. The motor mounting bracket 33 is securely connected to the heating plate 20, and the motor 40 is mounted on the motor mounting bracket 33. The motor mounting bracket 33 is located inside the cup holder 30 of the cup body 10.
[0047] Thus, by providing a flange 11 radially inward at the bottom end of the cup body 10, and securely connecting the heating plate 20 above the flange 11 and the motor mounting bracket 33 below the flange 11, the heating plate 20 is fixed to the cup body 10, thereby reducing the height of the blender assembly 1 and consequently reducing the height of the blender 100. Furthermore, the sealing ring 21 forms a seal between the heating plate 20 and the flange 11, ensuring a tight connection between the heating plate 20 and the cup body 10.
[0048] During assembly, the heating plate 20, which is wrapped by the sealing ring 21, is inserted into the opening of the cup body 10 and pressed onto the flange 11. Then, the motor mounting bracket 33 is locked to the heating plate 20 from bottom to top. Specifically, the motor mounting bracket 33 and the heating plate 20 are locked together by fasteners, so that the heating plate 20, the cup body 10 and the motor mounting bracket 33 can be fixed together, making assembly convenient.
[0049] In some embodiments, the cup body 10 includes a handle and a spout, the spout being positioned opposite the handle. The cup body 10 is a square cup, meaning its cross-section can be square, allowing it to be made shorter while maintaining the same volume and providing better airflow. The heating plate 20 is square, and the sealing ring 21 is a square annular shape adapted to the heating plate 20. When the cross-section of the cup body 10 is square, both the heating plate 20 and the sealing ring 21 are square. The shapes of the heating plate 20 and the sealing ring 21 are adapted to the shape of the cup body 10, facilitating assembly between them. In other embodiments, the cross-section of the cup body 10 can also be circular or other shapes.
[0050] The cup body 10 is provided with baffles at its four corners, or the baffles may not be provided. The heating plate 20 is used to heat the food inside the cup body 10. In some embodiments, the stirring cup assembly 1 also includes a stirring part for stirring the food inside the cup body 10.
[0051] The disc sealing ring 21 includes a main body 212 and an upper lip 213 and a lower lip 214 extending inward from the main body 212. The upper lip 213, the lower lip 214, and the main body 212 together constitute the groove 211. In this embodiment, the groove 211 is an annular groove. The main body 212 is provided with an outwardly protruding first rib 215 and a downwardly protruding second rib 216. The lower lip 214 is provided with a downwardly protruding third rib 217. Thus, the first rib 215 and the second rib 216 achieve tight pressure against the cup wall, while the second rib 216 and the third rib 217 achieve tight pressure against the flange 11, thereby increasing the sealing performance.
[0052] like Figure 1 and Figure 2As shown, the motor mounting bracket 33 is disposed within the cup holder 30, and the cup holder 30 and the motor mounting bracket 33 are integrally formed. This facilitates manufacturing and reduces assembly steps.
[0053] The mixing cup assembly 1 also includes a cup sealing ring 12, which is disposed between the cup body 10 and the cup base 30, forming a seal between the lower part of the cup body 10 and the cup base 30 through the cup sealing ring 12. It is understood that the shape of the cup sealing ring 12 matches the shape of the cup body 10 and the cup base 30, facilitating the formation of a seal between the lower part of the cup body 10 and the cup base 30, thus preventing water from entering the cup base 30.
[0054] When assembling the stirring cup assembly 1 with the disc sealing ring 21 and the cup sealing ring 12, the disc sealing ring 21 is first placed on the outside of the heating plate 20. The heating plate 20 and the disc sealing ring 21 are then inserted from the opening of the cup body 10. The disc sealing ring 21 is pressed onto the flange 11. Then, the cup seat 30 with the cup sealing ring 12 is fastened to the bottom end of the cup body 10 from bottom to top. The motor fixing bracket 33 and the heating plate 20 are locked together with fasteners. This fixes the heating plate 20, the cup body 10 and the cup seat 30 together, and achieves a seal between the cup seat 30 and the cup body 10, and between the cup body 10 and the heating plate 20.
[0055] Please continue to refer to this. Figure 1 The inner wall of the cup holder 30 is provided with multiple inwardly protruding limiting ribs 311, which abut against the cup sealing ring 12. In this way, the limiting ribs 311 compress the cup sealing ring 12, which can restrict the movement of the cup sealing ring 12 and ensure the sealing effect between the cup holder 30 and the cup body 10.
[0056] Please refer to Figure 4 , Figure 4 for Figure 1 The diagram shows a structural schematic of the motor mounting bracket 33 from one perspective, specifically the side of the motor mounting bracket 33 facing away from the heating plate 20. Figure 4 As shown, the lower surface of the motor mounting bracket 33 is recessed upward to form a recess 35, and the motor 40 is at least partially accommodated within the recess 35. In this way, the height of the motor 40 and the motor mounting bracket 33 after assembly can be reduced, thereby reducing the height of the stirring cup assembly 1.
[0057] Please also refer to Figure 4 , Figure 5 and Figure 6 , Figure 5 for Figure 1 The diagram shows another view of the motor mounting bracket 33, specifically the view of the motor mounting bracket 33 facing the heating plate 20. Figure 5 for Figure 1 The diagram shows the structure of the heating plate 20 facing the motor mounting bracket 33.
[0058] like Figure 4 , Figure 5 and Figure 6 As shown, the upper surface of the motor mounting bracket 33 is recessed downwards to form an annular receiving portion 34, which surrounds the recessed portion 35. The heating plate 20 includes a heating tube 22, which is received within the receiving portion 34. This ensures that the heating tube 22, located on the side of the heating plate 20 facing the motor mounting bracket 33, is located within the receiving portion 34 on the side of the motor mounting bracket 33 facing the heating plate 20. This facilitates full utilization of the space in the motor mounting bracket 33, saving on the overall height of the assembled motor mounting bracket 33 and heating plate 20, and further reducing the height of the stirring cup assembly 1.
[0059] like Figure 5 As shown, the motor mounting bracket 33 also includes a laterally extending support portion 32, which presses upward against the flange 11 and is connected to the receiving portion 34. Thus, when the motor mounting bracket 33 is fastened to the bottom end of the cup body 10 from bottom to top, the flange 11 and the support portion 32 abut against each other, and the support portion 32 supports the flange 11. The motor mounting bracket 33 is located on the periphery of the bottom end of the cup body 10, which can restrict the horizontal movement of the cup body 10.
[0060] exist Figure 5 In the illustrated embodiment, the cup holder 30 and the motor mounting bracket 33 are integrally formed. The cup holder 30 includes a fixing frame 31, and the support portion 32 is formed by extending inward from the inner wall of the fixing frame 31. The cup sealing ring 12 is disposed between the bottom of the cup body 10 and the fixing frame 31, which can further restrict the relative movement between the cup body 10 and the fixing frame 31 of the motor mounting bracket 33 and achieve waterproof sealing.
[0061] like Figure 5 As shown, the limiting rib 311 is disposed on the inner wall of the fixing frame 31. The limiting rib 311 compresses the cup sealing ring 12, which can restrict the movement of the cup sealing ring 12, thereby further preventing the cup body 10 from moving within the motor fixing bracket 33. In some embodiments, multiple limiting ribs 311 are evenly distributed on the inner wall of the fixing frame 31, and there is space for the cup sealing ring 12 to deform between adjacent limiting ribs 311, so that multiple limiting ribs 311 uniformly compress the cup sealing ring 12, which can prevent the cup body 10 from moving on the motor 40 fixing bracket, and at the same time prevent the cup sealing ring 12 from aging and losing its elasticity.
[0062] Please also refer to Figure 5 and Figure 6 The receiving part 34 is provided with a first connecting part 36, and the heating plate 20 is provided with a second connecting part 23. The first connecting part 36 and the second connecting part 23 are fastened together. In this way, the heating plate 20 and the motor fixing bracket 33 are connected through the first connecting part 36 and the second connecting part 23 to clamp the flange 11, so as to realize the assembly of the heating plate 20 and the cup body 10, which is convenient for assembly.
[0063] In some embodiments, one of the first connecting portion 36 and the second connecting portion 23 is a stud, and the other has a threaded hole adapted to the stud, with the stud and the threaded hole being fastened together. The heating plate 20 and the motor mounting bracket 33 are fastened together by the stud and the threaded hole. The threaded connection provides strong fastening force, ensuring a stable and reliable connection between the heating plate 20 and the motor mounting bracket 33. Furthermore, the threaded connection facilitates assembly and disassembly.
[0064] exist Figure 5 and Figure 6 In the embodiment shown, the first connecting part 36 is a screw hole and the second connecting part 23 is a stud. When the heating plate 20 and the motor mounting bracket 33 are connected, the stud passes through the screw hole and the screw hole and stud are fixed by fasteners.
[0065] like Figure 5 and Figure 6 As shown, the upper surface of the first connecting portion 36 protrudes outward from the receiving portion 34. That is, the screw hole is a cylindrical screw hole with a certain height. This not only enhances the firmness of the connection between the heating plate 20 and the motor mounting bracket 33, but also, when the motor mounting bracket 33 is assembled with the cup body 10 from bottom to top, the screw hole in the first connecting portion 36 can guide the second connecting portion 23, making it easier for the second connecting portion 23 to pass through the first connecting portion 36.
[0066] Please refer to Figure 5 The first connecting portion 36 is provided with a plurality of upwardly protruding reinforcing ribs 37 in its circumferential direction, and the reinforcing ribs 37 connect the first connecting portion 36 and the receiving portion 34. In this way, the strength of the first connecting portion 36 can be enhanced, thereby enhancing the strength of the connection between the heating plate 20 and the motor mounting bracket 33. The plurality of reinforcing ribs 37 are evenly distributed in multiple directions in the circumferential direction of the first connecting portion 36, which can prevent the first connecting portion 36 from tilting in any direction.
[0067] like Figure 1 and Figure 2 As shown, the motor 40 is located on the side of the motor mounting bracket 33 opposite to the heating plate 20. Specifically, the motor 40 has mounting holes on its exterior, and the motor mounting bracket 33 has mounting posts at its bottom, with the mounting posts passing through the mounting holes to fix the motor 40 to the motor mounting bracket 33. The stirring cup assembly 1 also includes a bottom cover 50, which is located at the bottom of the motor mounting bracket 33, and the motor 40 is fixed between the bottom cover 50 and the motor mounting bracket 33. Figure 1 and Figure 2 In the embodiment shown, a coupler 51 is also provided between the motor mounting bracket 33 and the bottom cover 50. The coupler 51 includes a high-voltage coupler and a low-voltage coupler. The coupler 51 is connected to the motor 40 and is used to control the start, stop and speed of the motor 15.
[0068] exist Figure 1 and Figure 2 In the illustrated embodiment, the motor 40 includes an output shaft 41, which is connected to a stirring assembly located inside the cup body 10, driving the stirring assembly to rotate and stir the food inside the cup body 10. This makes the stirring cup assembly compact and reduces the noise of the motor 40 during operation.
[0069] like Figure 2 , Figure 4 and Figure 6 As shown, the motor mounting bracket 33 has a through hole 301, and the heating plate 20 has a shaft hole 201 corresponding to the through hole 301. The output shaft 41 passes through the through hole 301 and the shaft hole 201 into the cup body 10 and is connected to the stirring assembly located in the cup body 10. The motor 40 rotates to drive the stirring assembly to rotate and stir the food in the cup body 10.
[0070] Please refer to Figure 7 , Figure 8 and Figure 9 , Figure 7 This is a schematic diagram of the structure of one embodiment of the food processor 100 of this application; Figure 8 for Figure 7 The diagram shows the structure of the food processor 100 in one of its states. Figure 9 for Figure 7 The diagram shows the structure of the food processor 100 in another state. The food processor 100 provided in this application includes a blending cup assembly 1, a base 2, and a lid 3. The base 2 includes a base 202 and a support 203 extending upward from the base 202, and the blending cup assembly 1 is assembled to the base 202.
[0071] The support base 203 and the base 202 can be integrally molded, or they can be molded separately and then assembled together. The cover 3 is assembled to the support base 203, and the cover 3 covers the top of the mixing cup assembly 1. Figure 8 As shown, the cover 3 is rotatably assembled to the support base 203. In some other embodiments, the cover 3 is rotatably assembled to the support base 203, and in other still embodiments, the cover 3 is movably assembled to the support base 203.
[0072] The mixing cup assembly 1 includes a cup lid 13 that covers the cup body 10. The cup lid 13 is positioned below the cover 3 to provide heat insulation, preventing the cover 3 from getting too hot and thus protecting the control panel located inside the cover 3. In the illustrated embodiment, the cup lid 13 has a recess for easy gripping by the user.
[0073] Other embodiments of this application will readily occur to those skilled in the art upon consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of this application that follow the general principles of this application and include common knowledge or customary techniques in the art not disclosed herein. The specification and examples are to be considered exemplary only, and the true scope and spirit of this application are indicated by the following claims.
[0074] It should be understood that this application is not limited to the precise structure described above and shown in the accompanying drawings, and various modifications and changes can be made without departing from its scope. The scope of this application is limited only by the appended claims.
Claims
1. A stirring cup assembly, characterized in that, include: The cup body (10) has a flange (11) at its bottom end that extends radially inward. The heating plate (20) is located inside the cup body (10) and presses downward against the flange (11); A disc sealing ring (21) is disposed between the edge of the heating plate (20) and the flange (11). The inner ring of the disc sealing ring (21) has a groove (211) that covers the edge of the heating plate (20). The motor mounting bracket (33) is located below the cup body (10) and presses upward against the flange (11). The motor mounting bracket (33) is fastened to the heating plate (20). The motor (40) is mounted on the motor mounting bracket (33).
2. The stirring cup assembly according to claim 1, characterized in that, The lower surface of the motor mounting bracket (33) is recessed upward to form a recess (35), and the motor (40) is at least partially accommodated in the recess (35).
3. The stirring cup assembly according to claim 2, characterized in that, The upper surface of the motor mounting bracket (33) is recessed downward to form an annular receiving portion (34), and the receiving portion (34) is arranged around the recessed portion (35); the heating plate (20) includes a heating tube (22), and the heating tube (22) is received in the receiving portion (34).
4. The stirring cup assembly according to claim 3, characterized in that, The motor mounting bracket (33) also includes a support portion (32) extending laterally, which presses upward against the flange (11) and is connected to the receiving portion (34).
5. The stirring cup assembly according to claim 3, characterized in that, The receiving part (34) is provided with a first connecting part (36), and the heating plate (20) is provided with a second connecting part (23). The first connecting part (36) and the second connecting part (23) are fastened together.
6. The stirring cup assembly according to claim 5, characterized in that, One of the first connecting part (36) and the second connecting part (23) is a stud, and the other has a screw hole adapted to the stud, and the stud is fastened to the screw hole.
7. The stirring cup assembly according to claim 5, characterized in that, The upper surface of the first connecting part (36) protrudes outward from the receiving part (34), and a plurality of upwardly protruding reinforcing ribs (37) are provided circumferentially on the first connecting part (36), and the reinforcing ribs (37) connect the first connecting part (36) and the receiving part (34).
8. The stirring cup assembly according to claim 1, characterized in that, The cup body (10) is a square cup, the heating plate (20) is square, and the plate sealing ring (21) is a square ring structure adapted to the heating plate (20); and / or, the plate sealing ring (21) includes a main body (212) and an upper lip (213) and a lower lip (214) extending inward from the main body (212), the upper lip (213), the lower lip (214) and the main body (212) together constitute the groove (211), the main body (212) is provided with an outwardly protruding first rib (215) and a downwardly protruding second rib (216), and the lower lip (214) is provided with a downwardly protruding third rib (217).
9. The stirring cup assembly according to claim 1, characterized in that, The stirring cup assembly (1) also includes a cup holder (30) and a cup sealing ring (12). The cup holder (30) is assembled on the lower part of the cup body (10), and the cup sealing ring (12) is disposed between the cup body (10) and the cup holder (30). The cup body (10) and the cup holder (30) are sealed together by the cup sealing ring (12).
10. The stirring cup assembly according to claim 9, characterized in that, The cup holder (30) is integrally formed with the motor mounting bracket (33); and / or, the inner wall of the cup holder (30) is provided with a plurality of inwardly protruding limiting ribs (311), and the limiting ribs (311) abut against the cup sealing ring (12).
11. The stirring cup assembly according to any one of claims 1-10, characterized in that, The motor (40) is located on the side of the motor mounting bracket (33) away from the heating plate (20). The motor (40) includes an output shaft (41). The motor mounting bracket (33) has a through hole (301). The heating plate (20) has a shaft hole (201) corresponding to the through hole (301). The output shaft (41) passes through the through hole (301) and the shaft hole (201). And / or, the stirring cup assembly (1) also includes a bottom cover (50). The motor (40) is fixed between the bottom cover (50) and the motor mounting bracket (33).
12. A food processor, characterized in that, Includes the stirring cup assembly (1) as described in any one of claims 1-11; The base (2) includes a base (202) and a support (203) extending upward from the base (202), wherein the stirring cup assembly (1) is assembled to the base (202); The cover (3) is connected to the support base (203) and the cover (3) covers the top of the stirring cup assembly (1).