Food processor

By placing the power and control components inside the base of the food processor and arranging them side-by-side horizontally, the vibration problem caused by the power board and control board is solved, resulting in a more compact and stable design that improves the overall user experience and aesthetics.

CN224461567UActive 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
2025-05-22
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing food processors are bulky and prone to vibration during use because the power board and control board are located below the mixing cup.

Method used

The power supply and control components are housed within the base, and the mixing cup is assembled within the semi-enclosed space formed by the base, support, and lid. The power supply and control components are arranged side by side in the horizontal direction, utilizing the horizontal space of the base to reduce the vertical space occupied. Furthermore, they are integrated with the power supply components through a partition, resulting in a more compact structure.

Benefits of technology

It effectively avoids vibration during use, simplifies the wiring between the power and control components, saves costs, improves the stability and aesthetics of the whole machine, and reduces the overall height of the machine.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application provides a food processor, comprising: a base including a base and a supporting seat extending upward from the base; a power supply assembly and a control assembly, both arranged in the base, and the power supply assembly being electrically connected with the control assembly; a stirring cup assembly assembled to the base; and a cover rotatably assembled to the supporting seat and covering the stirring cup assembly. Arranging the power supply assembly and the control assembly in the base and assembling the stirring cup in the semi-enclosed space formed by the base, the supporting seat and the cover can make the structure compact and stable and avoid vibration of the food processor during use.
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Description

Technical Field

[0001] This application relates to the field of food processing, and more particularly to 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. Currently, the power board and control board of existing food processors are located below the blending cup. To facilitate user operation, the control board is generally placed along the height of the base, resulting in a relatively large and tall food processor, which can easily cause vibration during use. Utility Model Content

[0003] This application provides a food processor to solve at least some of the problems in the related art.

[0004] This application provides a food processor, including:

[0005] A base, including a base and a support extending upward from the base;

[0006] A power supply assembly is disposed within the base;

[0007] A control component is disposed within the base and electrically connected to the power supply component;

[0008] The stirring cup assembly is assembled on the base;

[0009] The lid is rotatably assembled to the support base and covers the mixing cup assembly.

[0010] With the above setup, the power supply and control components are both located inside the base, and the blending cup is assembled within the semi-enclosed space formed by the base, support, and lid, resulting in a compact and stable structure that avoids vibrations during the use of the food processor.

[0011] Furthermore, the power supply component and the control component are arranged side by side in the horizontal direction within the base. By utilizing the horizontal space of the base to arrange the power supply component and the control component, the vertical space occupied is reduced, and the base can be made shorter and thinner, thereby reducing the overall height of the machine. This further avoids the problem of easy vibration during use, and makes the food processor more compact and exquisite, occupying less space.

[0012] Furthermore, the base also includes a partition disposed within the base, and the power supply assembly is fixedly connected to the lower part of the partition. By integrating the partition and the power supply assembly into a single unit, the structure becomes more compact.

[0013] Furthermore, the bottom of the partition is recessed upward to form a receiving groove, and at least a portion of the power assembly is located within the receiving groove. The receiving groove can limit the position of the power assembly.

[0014] Furthermore, the base includes a mounting portion for assembling the blender cup assembly. The base also includes an extension portion extending from the mounting portion away from the support base. The extension portion includes an operating portion, with the power supply component positioned corresponding to the mounting portion and the control component positioned corresponding to the operating portion. Utilizing the lateral extension of the base to form the extension portion does not occupy the longitudinal space of the base. Positioning the power supply component and control component corresponding to the mounting portion and operating portion respectively improves the stability of the blender during use.

[0015] Furthermore, the operation unit includes an operation panel, and the control component includes a control board box, with the operation panel positioned above the control board box. Positioning the operation panel above the control board box facilitates user operation.

[0016] Furthermore, the power supply component and the control component are stacked vertically within the base, with the control component positioned above the power supply component. Utilizing the longitudinal space of the base to arrange the power supply component and the control component results in a more compact structure.

[0017] Furthermore, the base includes a mounting portion for assembling the blender cup assembly, and the base also includes an extension portion extending from the mounting portion away from the support base. The extension portion includes an operating portion, and the control component is provided corresponding to the operating portion. Utilizing the lateral extension of the base to form the extension portion does not occupy the longitudinal space of the base, thereby reducing the overall height of the machine, further avoiding the problem of vibration during use, and making the blender more compact and aesthetically pleasing, occupying less space.

[0018] Furthermore, the base also includes a partition plate that fixes the power supply component and the control component together. The power supply component is located below the partition plate, and the control component is located above the partition plate. Alternatively, the operation unit includes an operation panel, and the control component includes a control board box, with the operation panel located above the control board box. Positioning the control component above the partition plate facilitates its correspondence with the operation unit. Positioning the operation panel above the control board box facilitates user operation.

[0019] Furthermore, the bottom of the partition is recessed upward to form a receiving groove, and at least a portion of the power assembly is located within the receiving groove. The receiving groove can limit the position of the power assembly.

[0020] Furthermore, the food processor includes a motor assembly disposed at the bottom of the mixing cup assembly. The motor assembly includes a motor frame, a motor, a high-voltage upper coupler, and a low-voltage upper coupler. The motor, the high-voltage upper coupler, and the low-voltage upper coupler are respectively fixed to the motor frame, and the high-voltage and low-voltage upper couplers are arranged around the motor. The high-voltage and low-voltage upper couplers at least partially overlap with the motor in the height direction. The base is provided with a high-voltage lower coupler that connects to the high-voltage upper coupler and a low-voltage lower coupler that connects to the low-voltage upper coupler. This effectively reduces the height of the mixing cup assembly, thereby reducing the overall height of the food processor.

[0021] With the above-described design, both the power supply and control components are housed within the base, effectively simplifying the wiring and assembly between them. The short lead wires between the two components reduce costs and facilitate assembly, significantly simplifying the food processor's structure and allowing for a smaller overall size, saving space. The absence of assembly structures and electrical components within the lid allows for a thinner, more aesthetically pleasing, and simpler design. Attached Figure Description

[0022] Figure 1 The image shown is a three-dimensional schematic diagram of the food processor of this application;

[0023] Figure 2 yes Figure 1 Top view;

[0024] Figure 3 The image shown is a cross-sectional view of one embodiment of the food processor of this application;

[0025] Figure 4 The diagram shown is an exploded view of one embodiment of the food processor of this application;

[0026] Figure 5 and Figure 6 The diagram shown is an exploded view of the blending cup assembly of the food processor of this application;

[0027] Figure 7 The diagram shown is an exploded view of another embodiment of the food processor of this application. Detailed Implementation

[0028] Exemplary embodiments will now be described in detail, examples of which are illustrated in the accompanying drawings. When the following description relates to the drawings, unless otherwise indicated, the same numerals in different drawings denote the same or similar elements. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with this application. Rather, they are merely examples of apparatuses consistent with some aspects of this application as detailed in the appended claims.

[0029] The terminology used in this application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, the technical or scientific terms used in this application should be understood in their ordinary sense by one of ordinary skill in the art to which this invention pertains. The use of terms such as “a” or “one” in this specification and claims does not indicate a limitation of quantity, but rather indicates the presence of at least one. The terms “comprising” or “including” and similar expressions mean that the element or object preceding “comprising” or “including” encompasses the element or object listed following “comprising” or “including” and its equivalents, and does not exclude other elements or objects. The terms “connected” or “linked” and similar expressions are not limited to physical or mechanical connections and can include electrical connections, whether direct or indirect. The singular forms “a,” “the,” and “the” used in this specification and appended claims are also intended to include the plural forms, unless the context clearly indicates otherwise. It should also be understood that the term “and / or” as used herein refers to and includes any or all possible combinations of one or more associated listed items.

[0030] The food processor of this application will now be described in detail with reference to the accompanying drawings. Unless otherwise specified, the features of the following embodiments and implementation methods can be combined with each other.

[0031] Please see Figures 1 to 4 As shown, this application provides a food processor, which can be a frame-type high-speed blender. The food processor can be used to make soy milk, rice paste, juice, etc. The food processor includes a base 10, a power supply assembly 13, a control assembly 14, a blending cup assembly 20, and a lid 30. The power supply assembly 13 may include a power drive board, and the control assembly 14 may include a control board.

[0032] The base 10 includes a base 11 and a support 12 extending upward from the base 11. A power supply assembly 13 and a control assembly 14 are both disposed within the base 11, and the control assembly 14 is electrically connected to the power supply assembly 13. A mixing cup assembly 20 is assembled to the base 11. A cover 30 is assembled to the support 12 and covers the mixing cup assembly 20. The power supply assembly 13 and the control assembly 14 can be integrated or separate. The support 12 and the base 11 can be integrally formed or separately formed and then assembled. The top view of the base 10 can be circular, rectangular (with rounded corners), square (with rounded corners), polygonal (with rounded corners), elliptical, etc. The top view of the mixing cup assembly 20 can be the same as or different from the shape of the base 10.

[0033] With the above-described configuration, both the power supply and control components are housed within the base. The blending cup is assembled within the semi-enclosed space formed by the base, support, and lid, resulting in a compact and stable structure that prevents vibration during operation. Furthermore, housing both the power supply and control components within the base effectively simplifies wiring and assembly between them, resulting in shorter lead wires that save costs and facilitate assembly. This also avoids electromagnetic interference caused by crossed lead wires, improving the overall EMC immunity of the machine.

[0034] exist Figure 1 and Figure 2 In the illustrated embodiment, the cover 30 is rotatably assembled to the support base 12. In another embodiment, the cover 30 is rotatably assembled to the support base 12 in a horizontal direction. In another embodiment, the cover 30 is detachably assembled to the support base 12. In another embodiment, the cover 30 is fixed to the support base 12, and the stirring cup assembly 20 is pushed into the base 10 from the side or front. In another embodiment, the cover 30 is vertically connected to the support base 12.

[0035] See Figure 5 and Figure 6 As shown, the mixing cup assembly 20 includes a mixing cup 21, a lid 25 disposed on the top of the mixing cup 21, a heating plate 22 disposed on the bottom of the mixing cup 21, and a blade assembly 23. In other embodiments, the mixing cup assembly 20 includes a mixing cup 21, a base disposed on the bottom of the mixing cup 21, and a blade assembly 23. The heating element can be disposed on the base 11, and heat is conducted from the heating element to the base, thereby heating the food inside the mixing cup 21. The mixing cup 21 is used to hold food, the heating plate 22 is used to heat the food inside the mixing cup 21, and the blade assembly 23 is used to mix and grind the food inside the mixing cup 21.

[0036] The stirring cup 21 includes a handle 218 and a spout 2191, which is positioned opposite to the handle 218. The support base 12 has a mating groove corresponding to the spout 2191, and the spout 2191 is located within the mating groove. The cross-section of the stirring cup 21 can be approximately square, allowing it to be made shorter while maintaining the same volume. Baffles 214 are provided at the four corners of the inner wall of the stirring cup 21, or they may not be provided. In other embodiments, the cross-section of the stirring cup 21 can be circular or other shapes.

[0037] The food processor includes a motor assembly 40, which is disposed at the bottom of the mixing cup 21 of the mixing cup assembly 20 or within the base 11. In the illustrated embodiment, the motor assembly 40 is disposed at the bottom of the mixing cup 21, and includes a motor frame 41 and a motor 42, with the output shaft 43 of the motor 42 directly connected to the blade assembly 23. In another embodiment, the motor assembly 40 is disposed within the base 11, and the output shaft 43 of the motor 42 and the blade assembly 23 are connected via a clutch structure.

[0038] The food processor 100 includes a motor assembly 40 disposed at the bottom of the mixing cup 21. The motor assembly 40 includes a motor frame 41, a motor 42, a high-voltage upper coupler 481, and a low-voltage upper coupler 482. The motor 42, the high-voltage upper coupler 481, and the low-voltage upper coupler 482 are respectively fixed to the motor frame 41, and the high-voltage upper coupler 481 and the low-voltage upper coupler 482 are arranged around the motor 42. The high-voltage upper coupler 481 and the low-voltage upper coupler 482 at least partially overlap with the motor 42 in the height direction. The base 11 is provided with a high-voltage lower coupler 115 that docks with the high-voltage upper coupler 481 and a low-voltage lower coupler 116 that docks with the low-voltage upper coupler 482. Since both the high-voltage upper coupler 481 and the low-voltage upper coupler 482 are smaller than conventional upper couplers, there is sufficient space between the side wall of the motor frame 41 and the motor 42 to accommodate the high-voltage upper coupler 481 and the low-voltage upper coupler 482. This allows the high-voltage upper coupler 481 and the low-voltage upper coupler 482 to be positioned around the motor 42, ensuring that they at least partially overlap with the motor 42 in the height direction. The stirring cup assembly 20 also includes a bottom cover 488, located at the bottom of the stirring cup 21. After the motor 42, the high-voltage upper coupler 481, and the low-voltage upper coupler 482 are fixed to the motor frame 41, the bottom cover 488 is finally installed, with the high-voltage upper coupler 481 and the low-voltage upper coupler 482 passing through the holes in the bottom cover 488. In this way, the height of the mixing cup assembly 20 is effectively reduced, thereby reducing the overall height of the food processor 100, making the food processor 100 more compact and exquisite, and taking up less space; because the overall height of the food processor 100 is lower, the vibration generated by the food processor 100 during operation can be reduced.

[0039] The motor 42 is fixed to the motor frame 41. The bottom end of the stirring cup 21 has a flange 211 extending radially inward. The heating plate 22 presses downward against the flange 211, and the motor frame 41 presses upward against the flange 211. The motor frame 41 and the heating plate 22 are locked together, and a seal is formed between the heating plate 22 and the flange 211 by a disc sealing ring 221. During assembly, the disc sealing ring 221 is first fitted onto the edge of the heating plate 22. Then, the heating plate 22 is inserted into the mouth of the stirring cup 21 and pressed onto the flange 211 by the disc sealing ring 221. Then, the motor frame 41, which is equipped with a cup sealing ring 490, is fastened to the bottom end of the stirring cup 21 from bottom to top, and the motor frame 41 and the heating plate 22 are locked together by fasteners. This fixes the heating plate 22, the stirring cup 21, and the motor frame 41 together, making assembly convenient and reliable. In addition, the motor frame 41 has two through slots 499. The fuse 498 and the thermostat 497 are placed in the two through slots 499 respectively. The fuse 498 and the thermostat 497 are pressed against the heating plate 22 by the pressure plate 496. The pressure plate 496 is fixed to the motor frame 41 by fasteners. Then the motor 42 is fixed to the motor frame 41.

[0040] In one embodiment, the motor 42 is a brushless motor without a rear end cover, which results in a lower height for the motor 42, thus reducing the overall height of the food processor. In other embodiments, the motor 42 may also be a conventional brushed motor or a brushless motor.

[0041] In one embodiment, the blade assembly 23 is detachably mounted on the bottom of the blending cup 21. The motor 42 is located at the bottom of the blending cup 21, and its output shaft 43 passes through the heating plate 22. A rotating shaft 48 is located at the top of the output shaft 43, and the blade assembly 23 is detachably assembled to the rotating shaft 48. Specifically, the rotating shaft 48 has multiple longitudinally extending ribs that deflect circumferentially along the rotating shaft 48. The blade assembly 23 includes a blade holder 231 sleeved on the rotating shaft 48 and blades 232 fixed to the blade holder 231. The blade holder 231 has protruding angles that match the ribs. After use, the blade assembly 23 can be disassembled for cleaning. In another embodiment, the blade assembly 23 can be fixedly mounted on the bottom of the blending cup 21. In yet another embodiment, the blade assembly 23 and the heating plate 22 are configured as a blade assembly, which is detachably mounted as a whole on the bottom of the blending cup 21. In another embodiment, the blade assembly 23 and the chassis are configured as a blade disc assembly, which is detachably mounted as a whole at the bottom of the mixing cup 21, and the heating element is mounted on the motor frame 41, which can serve as a cup holder.

[0042] exist Figure 3 and Figure 4In the example shown, the power supply component 13 and the control component 14 are arranged side by side in the horizontal direction within the base 11. By utilizing the horizontal space of the base 11 to arrange the power supply component 13 and the control component 14, the vertical space occupied is reduced, and the base 11 can be made shorter and thinner, thereby reducing the overall height of the machine and further avoiding the problem of easy vibration during use. It also makes the food processor more compact and exquisite, taking up less space and making it more beautiful and simple.

[0043] The base 10 may further include a partition 15 disposed within the base 11, with the power supply assembly 13 fixedly connected below the partition 15. By integrating the partition 15 and the power supply assembly 13 into a single unit, the structure becomes more compact. Optionally, the partition 15 may be made of plastic, resulting in a lighter weight. The partition 15 can be fixedly connected to the base 11 using screws or other fasteners.

[0044] like Figure 4 As shown, the bottom of the partition 15 is recessed upward to form a receiving groove 152, and at least a portion of the power assembly 13 is located in the receiving groove 152. The receiving groove 152 can limit the position of the power assembly 13.

[0045] Furthermore, the partition 15 has a first fixing part 151 on the side facing the power assembly 13, and the power assembly 13 has a second fixing part 131 on the side facing the partition 15. The second fixing part 131 is fixedly connected to the first fixing part 151, making the connection between the power assembly 13 and the partition 15 more secure. Optionally, one of the first fixing part 151 and the second fixing part 131 can be a through hole, and the other can be a screw hole. Fasteners such as screws pass through the through hole and are fixedly connected to the screw hole, thereby fixing the partition 15 and the power assembly 13. It should be noted that there can be one or more first fixing parts 151 and second fixing parts 131. The control assembly 14 can be fixedly connected to the base 11 by fasteners such as screws.

[0046] The base 11 includes a mounting portion 111 for assembling the blender cup assembly 20 of a food processor. The base 11 also includes an extension portion 114 extending from the mounting portion 111 away from the support base 12. The extension portion 114 includes an operating section. The power assembly 13 is disposed corresponding to the mounting portion 111, and the control assembly 14 is disposed corresponding to the operating section. Thus, utilizing the lateral space of the base 11, the extension portion 114, extending from the mounting portion 111 on the front side of the base 11, is used to house the control assembly 14 without occupying the longitudinal space of the base 11. By distributing the power assembly 13 and the control assembly 14 corresponding to the mounting portion 111 and the operating section, respectively, the stability of the food processor during use can be improved. Optionally, the base 11 also includes a base plate 113, which can be fixedly connected to the mounting portion 111 and the extension portion 114 by screws or other fasteners. The partition 15 can be fixedly connected to the mounting portion 111 by screws or other fasteners.

[0047] Furthermore, the operation unit includes an operation panel, and the control component 14 includes a control panel box 112, which is disposed on the extension 114, with the operation panel positioned above the control panel box 112. Positioning the operation panel on the control panel box 112 facilitates user operation. Optionally, the operation panel can be made of glass, PC, IMD, or PVC, and is not limited to these materials.

[0048] See Figure 7 As shown, in some optional embodiments, the power supply assembly 13 and the control assembly 14 are stacked vertically within the base 11, with the control assembly 14 positioned above the power supply assembly 13. Utilizing the longitudinal space of the base 11 to arrange the power supply assembly 13 and the control assembly 14 results in a more compact structure.

[0049] The base 11 includes a mounting portion 111 for assembling the blender cup assembly 20. The base 11 also includes an extension portion 114 extending from the mounting portion 111 away from the support base 12. The extension portion 114 includes an operating portion, and the control component 14 is disposed corresponding to the operating portion. Thus, utilizing the lateral space of the base 11, the front side of the base 11 extends from the mounting portion 111 to form the extension portion 114 for housing the control component 14 and the power component 13, without occupying the longitudinal space of the base 11. By housing both the power component 13 and the control component 14 in the extension portion 114, the structure becomes more compact, reducing the overall height of the machine and further avoiding vibration issues during use. This also makes the blender more compact and aesthetically pleasing, occupying less space. It is understandable that to simultaneously arrange the power component 13 and the control component 14 in the vertical direction, the extension portion 114 can be heightened to increase the accommodating space. Optionally, the base 11 also includes a base plate 113, which can be fixedly connected to the mounting portion 111 and the extension portion 114 by screws or other fasteners. The control component 14 can be fixedly connected to the extension 114 by fasteners such as screws.

[0050] Furthermore, the operation unit includes an operation panel, and the control component 14 includes a control panel box 112, which is disposed on the extension 114, with the operation panel positioned above the control panel box 112. Positioning the operation panel on the control panel box 112 facilitates user operation. Optionally, the operation panel can be made of glass, PC, IMD, or PVC, etc., and is not limited to these materials. Figure 7 As shown, the base 10 may further include a partition 15, which fixes the power supply assembly 13 and the control assembly 14. The power supply assembly 13 is located below the partition 15, and the control assembly 14 is located above the partition 15. Positioning the control assembly 14 above the partition 15 facilitates its alignment with the operating unit. The partition 15 both separates the power supply assembly 13 and the control assembly 14 and integrates them into a single unit, resulting in a more compact structure. Optionally, the partition 15 may be made of plastic, making it lightweight. The partition 15 can be fixedly connected to the control board box 112 using screws or other fasteners.

[0051] Furthermore, the partition 15 has a first fixing part 151 on the side facing the power assembly 13, and the power assembly 13 has a second fixing part 131. The second fixing part 131 is fixedly connected to the first fixing part 151, making the connection between the power assembly 13 and the partition 15 more secure. Optionally, the first fixing part 151 can be a screw hole, and the second fixing part 131 can be a through hole. Fasteners such as screws pass through the through hole and are fixedly connected to the screw hole, thereby fixing the partition 15 and the power assembly 13. It should be noted that there can be one or more first fixing parts 151 and second fixing parts 131.

[0052] The partition 15 has a third fixing part on the side facing the control component 14, and the control component 14 has a fourth fixing part 141, which is fixedly connected to the third fixing part. This makes the connection between the power supply component, the control component, and the partition more secure. It also makes the connection between the control component 14 and the partition 15 more secure. Optionally, the third fixing part can be a screw hole, and the fourth fixing part 141 can be a through hole. Fasteners such as screws pass through the through hole and are fixedly connected to the screw hole, thereby fixing the partition 15 and the control component 14 together. It should be noted that there can be one or more third and fourth fixing parts 141.

[0053] like Figure 7 As shown, the bottom of the partition 15 is recessed upward to form a receiving groove 152, and at least a portion of the power assembly 13 is located in the receiving groove 152. The receiving groove 152 can limit the position of the power assembly 13.

[0054] Through the above technical solution, the food processor of this application places the power supply and control components inside the base of the machine, and assembles the blending cup assembly within the semi-enclosed space formed by the base, support, and lid. This makes the overall structure compact and stable, preventing vibration during use. Furthermore, the fact that both the power supply and control components are located within the base effectively simplifies the wiring and assembly between them. Shorter leads save costs and facilitate assembly, while also avoiding electromagnetic interference caused by crossed leads, thus improving the overall EMC anti-interference performance. Moreover, by arranging both the power supply and control components horizontally on the base, the overall height of the machine is reduced, further preventing vibration during use, and making the food processor more compact and aesthetically pleasing, occupying less space.

[0055] The above description is merely a preferred embodiment of this application and is not intended to limit this application. Any 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 food processor, characterized in that, include: The base (10) includes a base (11) and a support (12) extending upward from the base (11); The power supply assembly (13) and the control assembly (14) are both disposed within the base (11); the power supply assembly (13) and the control assembly (14) are electrically connected. The stirring cup assembly (20) is assembled on the base (11); The cover (30) is rotatably assembled to the support base (12) and the cover (30) covers the mixing cup assembly (20).

2. The food processor as described in claim 1, characterized in that, The power supply assembly (13) and the control assembly (14) are arranged side by side in the horizontal direction within the base (11).

3. The food processor as described in claim 2, characterized in that, The base (10) also includes a partition (15) disposed inside the base (11), and the power supply assembly (13) is fixedly connected to the bottom of the partition (15).

4. The food processor as described in claim 3, characterized in that, The bottom of the partition (15) is recessed upward to form a receiving groove (152), and at least a portion of the power supply assembly (13) is located in the receiving groove (152).

5. The food processor as described in claim 2, characterized in that, The base (11) includes a mounting portion (111) for assembling the blender cup assembly (20) of the food processor. The base (11) also includes an extension portion (114) extending from the mounting portion (111) in a direction away from the support base (12). The extension portion (114) includes an operating portion. The power supply assembly (13) is provided corresponding to the mounting portion (111), and the control assembly (14) is provided corresponding to the operating portion.

6. The food processor as described in claim 5, characterized in that, The operation unit includes an operation panel, and the control component (14) includes a control board box (112), with the operation panel disposed above the control board box (112).

7. The food processor as described in claim 1, characterized in that, The power supply assembly (13) and the control assembly (14) are stacked vertically inside the base (11), with the control assembly (14) located above the power supply assembly (13).

8. The food processor as described in claim 7, characterized in that, The base (11) includes a mounting portion (111) for assembling a blender cup assembly (20) of a food processor. The base (11) also includes an extension portion (114) extending from the mounting portion (111) in a direction away from the support base (12). The extension portion (114) includes an operating portion, and the control component (14) is provided corresponding to the operating portion.

9. The food processor as described in claim 8, characterized in that, The base (10) further includes a partition (15) for fixedly connecting the power supply assembly (13) and the control assembly (14). The power supply assembly (13) is located below the partition (15), and the control assembly (14) is located above the partition (15). Alternatively, the operation unit includes an operation panel, and the control assembly (14) includes a control board box (112). The operation panel is located above the control board box (112).

10. The food processor as described in claim 9, characterized in that, The bottom of the partition (15) is recessed upward to form a receiving groove (152), and at least a portion of the power supply assembly (13) is located in the receiving groove (152).

11. The food processor as described in any one of claims 1-10, characterized in that: The food processor includes a motor assembly (40) disposed at the bottom of the mixing cup assembly (20). The motor assembly (40) includes a motor frame (41), a motor (42), a high-voltage upper coupler (481), and a low-voltage upper coupler (482). The motor (42), the high-voltage upper coupler (481), and the low-voltage upper coupler (482) are respectively fixed to the motor frame (41), and the high-voltage upper coupler (481) and the low-voltage upper coupler (482) are arranged around the motor (42). The high-voltage upper coupler (481) and the low-voltage upper coupler (482) overlap with the motor (42) at least partially in the height direction. The base (11) is provided with a high-voltage lower coupler (115) that docks with the high-voltage upper coupler (481) and a low-voltage lower coupler (116) that docks with the low-voltage upper coupler (482).