Base and food processor
By placing the power supply and control components inside the support base and lid of the food processor respectively, and combining them with a water inlet and drain system, the problems of large size and vibration of the food processor are solved, achieving a compact, exquisite design and low vibration effect.
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
- 2026-06-19
AI Technical Summary
Existing food processors are large and tall, taking up a lot of space and are prone to vibration during use.
By placing the power supply unit inside the support base and the control components inside the cover, the overall height of the food processor is reduced by utilizing the space between the cover and the support base to accommodate the power supply unit and the control components respectively. Furthermore, the water inlet and drain system prevent water from coming into contact with the power supply unit, resulting in a compact base structure.
This design makes the food processor more compact and elegant, taking up less space, reducing vibration, avoiding electromagnetic interference and contact between water and power components, and improving stability and aesthetics.
Smart Images

Figure CN224369649U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of food processing, and more particularly to a base 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. Existing food processors are large and tall, taking up a lot of space and prone to vibration during use. Utility Model Content
[0003] This application provides a base and a food processor, which has a small overall height, occupies little space, and generates less vibration during use.
[0004] This application provides a base. The base includes: a base and a support seat disposed on the base. The support seat has a wire hole for a lead wire to pass through. A power supply assembly is disposed within the support seat. The power supply assembly includes a power box and a power component. The power box includes a top wall, a partition rib and a baffle rib extending upward from the top wall. The partition rib, the baffle rib, and the top wall together form a water receiving cavity. The water receiving cavity is located below the wire hole. The power box has a front end and a rear end disposed opposite to the front end. The front end has a receiving cavity for receiving the power component. The receiving cavity is located below the top wall. The rear end has a drainage surface adjacent to the partition rib. The partition rib has a drain hole connecting the water receiving cavity and the drainage surface. Thus, by housing the power supply unit within the support base, the height of the blender is effectively reduced, making it more compact and aesthetically pleasing, and taking up less space. The lower overall height also reduces vibration during operation. Furthermore, with the water inlet located below the cable hole and the drain hole connecting the inlet and the drainage surface, water entering the support base from the cable hole falls into the inlet and is then drained away through the drain hole and drainage surface, preventing contact between the water and the power supply unit. Additionally, since the power supply unit is located at the front of the power box and the drainage surface at the rear, water falling into the inlet is drained away through the drainage surface, further preventing contact between water and the power supply unit.
[0005] Furthermore, the support base includes an outer wall, an inner wall, and a top wall, with the wire hole passing through the top wall and the partition rib abutting against the top wall. By providing the partition rib, water entering the support base from the wire hole can be guided into the water receiving cavity.
[0006] Furthermore, the support base includes an outer wall, an inner wall, and a top wall. The wire hole passes through the top wall, and a water-blocking rib is provided between the wire hole and the inner wall. The water-blocking rib extends downward and cooperates with the partition rib to block water. Through the cooperation of the water-blocking rib and the partition rib, water entering the support base from the wire hole can be guided into the water receiving cavity.
[0007] Furthermore, the baffle also includes a guide rib located above the drain hole, the guide rib extending downwards at an angle. By providing the guide rib, the water falling from the drain hole can be better guided.
[0008] Furthermore, the base includes a base housing and a bottom cover at the bottom of the base housing, the bottom cover being provided with a water outlet. By providing the water outlet, water falling from the drainage surface is ultimately discharged from the base through the water outlet.
[0009] Furthermore, the bottom cover has a recess, and the water outlet is located within the recess. By placing the water outlet within the recess, water easily collects in the recess, making it easier for falling water to drain out through the water outlet.
[0010] Furthermore, the height of the bottom wall of the drain hole is not lower than the height of the drainage surface, and the height of the bottom wall of the water receiving cavity is not lower than the height of the bottom wall of the drain hole. In this way, water falling into the water receiving cavity from the wire hole can flow more smoothly through the drain hole to the drainage surface, resulting in better drainage.
[0011] Furthermore, the height of the drainage surface gradually decreases from the middle to both ends, and the two ends of the drainage surface are respectively connected to the two sides of the power supply box. In this way, water flowing from the drain hole to the drainage surface can flow towards the two ends of the drainage surface and fall down from the two sides of the power supply box.
[0012] This application provides a food processor. The food processor includes: a base as described above; a mixing cup assembly assembled on the base, the mixing cup assembly including a mixing cup, a heating plate, and a blade assembly, the heating plate and the blade assembly being disposed at the bottom of the mixing cup; a lid assembled on the support base, the lid covering the mixing cup assembly, and a control component housed within the lid; and a motor assembled within the base or at the bottom of the mixing cup, the motor driving the blade assembly to rotate. Because the control component is disposed within the lid and the power supply component within the support base, the space within the lid can accommodate the control component, and the space within the support base can accommodate the power supply component, avoiding stacking the control component and power supply component within the base. This reduces the height of the base, thereby effectively reducing the height of the food processor, making the overall food processor more compact and space-saving. The lower overall height of the food processor also reduces vibration during operation. Furthermore, this arrangement of the control component and power supply component ensures a greater distance between them, preventing electromagnetic interference.
[0013] Furthermore, the cover is rotatably assembled to the support base via two pivots, with the wire hole located between the two pivots. This allows the wire passing through the wire hole to be concealed, resulting in a more aesthetically pleasing appearance for the food processor. Attached Figure Description
[0014] Figure 1 The image shown is a cross-sectional view of the food processor of this application;
[0015] Figure 2 As shown Figure 1 A cross-sectional view of the machine base shown;
[0016] Figure 3 As shown Figure 1 An exploded view of the machine base shown;
[0017] Figure 4 As shown Figure 3 A three-dimensional schematic diagram of the power supply box shown.
[0018] Figure 5 As shown Figure 4 Another three-dimensional schematic diagram of the power supply box shown. Detailed Implementation
[0019] 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.
[0020] 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.
[0021] Please see Figures 1 to 5 The food processor 100 can be used to make soy milk, rice paste, juice, etc. The food processor 100 includes a base 10, a mixing cup assembly 20, a lid 30, and a motor 40.
[0022] The base 10 includes a base 11 and a support 12 disposed on the base 11. The support 12 and the base 11 can be integrally formed, or they can be formed separately and then assembled together.
[0023] The support base 12 is provided with a wire hole 122 for the lead wire to pass through. A power supply assembly 18 is provided inside the support base 12. The power supply assembly 18 includes a power box 121 and a power component 13. The power box 121 includes a top wall 1211, a partition 1212 extending upward from the top wall 1211, and a baffle 1213. The power component 13 is located below the top wall 1211. The partition 1212, the baffle 1213, and the top wall 1211 together form a water receiving cavity 1214. 14 is located below the wire hole 122. The power box 121 has a front end 1219 and a rear end 1218 disposed opposite to the front end 1219. The front end 1219 is provided with a receiving cavity 1217 for receiving the power component 13. The receiving cavity 1217 is located below the top wall 1211. The rear end 1218 is provided with a drainage surface 1215 adjacent to the partition 1212. The partition 1212 is provided with a drain hole 1216 connecting the water receiving cavity 1214 and the drainage surface 1215.
[0024] The power supply component 13 can be a wired or wireless power source, such as a power board or a storage battery, and is not limited thereto. The power supply component 13 can be fixed in the receiving cavity 1217 of the power box 121 by means of fasteners, clips, adhesives, etc.
[0025] The mixing cup assembly 20 is assembled on the base 11. The mixing cup assembly 20 includes a mixing cup 21, a heating plate 22, and a blade assembly 23. The heating plate 22 and the blade assembly 23 are disposed at the bottom of the mixing cup 21. The mixing cup 21 is used to hold food ingredients, the heating plate 22 is used to heat the food ingredients in the mixing cup 21, and the blade assembly 23 is used to stir and grind the food ingredients in the mixing cup 21.
[0026] The cover 30 is assembled on the support base 12, and the cover 30 covers the mixing cup assembly 20. The control component 31 is provided inside the cover 30. The control component 31 is electrically connected to the power supply component 13 through a lead wire, which passes through a wire hole 122 on the top wall of the support base 12.
[0027] The cover 30 includes a cover housing 37, an operation panel 36, and a control box 35. The control component 31 is disposed inside the cover housing 37, the control box 35 covers the control component 31, and the operation panel 36 is fixed on the control box 35. The cover housing 37 is provided with another wire hole (not shown) for the lead wire to pass through, which corresponds to the position of the aforementioned wire hole 122.
[0028] The motor 40 is assembled inside the base 11 or at the bottom of the stirring cup 21, and the motor 40 is used to drive the blade assembly 23 to rotate. Figure 2 In the illustrated embodiment, the motor 40 is assembled within the base 11, and the output shaft of the motor 40 is connected to the blade assembly 23 via a clutch structure. In another embodiment, the motor 40 is assembled at the bottom of the mixing cup 21, and the output shaft of the motor 40 is directly driven connected to the blade assembly 23.
[0029] Since the control component 31 is located inside the cover 30 and the power supply component 13 is located inside the support base 12, the space inside the cover 30 can accommodate the control component 31, and the space inside the support base 12 can accommodate the power supply component 13. This avoids stacking the control component 31 and the power supply component 13 inside the base 11, thus reducing the height of the base 11 and effectively reducing the height of the food processor 100. This makes the food processor 100 more compact and aesthetically pleasing, taking up less space. The lower overall height of the food processor 100 also reduces vibration during operation. Furthermore, this arrangement of the control component 31 and the power supply component 13 ensures a greater distance between them, avoiding… Electromagnetic interference is avoided between the control component 31 and the power supply component 13. Furthermore, since the water receiving cavity 1214 is located below the wire hole 122, and the drain hole 1216 connects the water receiving cavity 1214 and the drainage surface 1215, water entering the support base 12 from the wire hole 122 will fall into the water receiving cavity 1214 and be drained away through the drain hole 1216 and the drainage surface 1215 in sequence, thereby preventing water from contacting the power supply component 13. In addition, since the power supply component 13 is located at the front end 1219 of the power box 121 and the drainage surface 1215 is located at the rear end 1218 of the power box 121, water falling into the water receiving cavity 1214 is drained away through the drainage surface 1215, which can better prevent water from contacting the power supply component 13.
[0030] In the illustrated embodiment, the support base 12 includes an outer wall 125, an inner wall 126, and a top wall 127. The wire hole 122 passes through the top wall 127, and the partition 1212 abuts against the top wall 127. By providing the partition 1212, water entering the support base 12 from the wire hole 122 can be guided into the water receiving cavity 1214.
[0031] In another embodiment, the support base 12 includes an outer wall 125, an inner wall 126, and a top wall 127. The wire hole 122 passes through the top wall 127. A water-blocking rib is provided between the wire hole 122 and the inner wall 126. The water-blocking rib extends downward and cooperates with the partition rib 1212 to block water. Through the cooperation of the water-blocking rib and the partition rib 1212, water entering the support base 12 from the wire hole 122 can be guided into the water receiving cavity 1214.
[0032] The baffle 1212 also includes a guide rib 12121 located above the drain hole 1216, the guide rib 12121 extending downward at an angle. By setting the guide rib 12121, the water falling from the wire hole 122 can be better guided.
[0033] The base 11 includes a base housing 111 and a bottom cover 112 disposed at the bottom end of the base housing 111. The bottom cover 112 is provided with a water outlet hole 1121. By providing the water outlet hole 1121, water falling from the drainage surface 1215 is finally discharged from the base through the water outlet hole 1121.
[0034] The bottom cover 112 has a recess 1127, and the water outlet 1121 is disposed in the recess 1127. By placing the water outlet 1121 in the recess 1127, water can easily collect in the recess 1127, which is more conducive to the discharge of falling water through the water outlet 1121.
[0035] The height of the bottom wall of the drain hole 1216 is not lower than the height of the drainage surface 1215, and the height of the bottom wall of the water receiving cavity 1214 is not lower than the height of the bottom wall of the drain hole 1216. In this way, water falling into the water receiving cavity 1214 from the wire hole 122 can flow more smoothly through the drain hole 1216 to the drainage surface 1215, resulting in better drainage.
[0036] The height of the drainage surface 1215 gradually decreases from the middle to both ends, and the two ends of the drainage surface 1215 are respectively connected to the two sides of the power box 121. In this way, the water flowing from the drain hole 1216 to the drainage surface 1215 can flow towards the two ends of the drainage surface 1215 and fall down from the two sides of the power box 121.
[0037] The support base 12 includes a cavity 129 with a lower opening 128, and the power supply assembly 18 is inserted into the cavity 129 through the lower opening 128. This design is simple, easy to assemble, and has low assembly costs. Guide ribs (not shown) that cooperate with the power supply box 121 can be provided inside the support base 12 to guide and position the power supply assembly 18.
[0038] The cover 30 is rotatably assembled to the support base 12 via two pivots, and the wire hole 122 is located between the two pivots. In this way, the wire passing through the wire hole 122 can be hidden and not exposed, making the food processor 100 more aesthetically pleasing.
[0039] 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 machine frame, characterized in that, It includes: a base (11) and a support (12) disposed on the base (11), the support (12) having a wire hole (122) for the lead wire to pass through, a power assembly (18) being disposed inside the support (12), the power assembly (18) including a power box (121) and a power component (13), the power box (121) including a top wall (1211), a partition rib (1212) and a baffle rib (1213) extending upward from the top wall (1211), the partition rib (1212), the baffle rib (1213) and the top wall (1211) together forming a water receiving cavity (1214), the water receiving cavity... The water cavity (1214) is located below the wire hole (122). The power box (121) has a front end (1219) and a rear end (1218) opposite to the front end (1219). The front end (1219) is provided with a receiving cavity (1217) for receiving the power component (13). The receiving cavity (1217) is located below the top wall (1211). The rear end (1218) is provided with a drainage surface (1215) adjacent to the partition (1212). The partition (1212) is provided with a drain hole (1216) connecting the water receiving cavity (1214) and the drainage surface (1215).
2. The housing of claim 1, wherein: The support base (12) includes an outer wall (125), an inner wall (126) and a top wall (127), the wire hole (122) passes through the top wall (127), and the partition rib (1212) abuts against the top wall (127).
3. The housing of claim 1, wherein: The support base (12) includes an outer wall (125), an inner wall (126) and a top wall (127). The wire hole (122) passes through the top wall (127). A water-blocking rib is provided between the wire hole (122) and the inner wall (126). The water-blocking rib extends downward and cooperates with the partition rib (1212) to block water.
4. The housing of claim 1, wherein: The partition rib (1212) also includes a guide rib (12121) located above the drain hole (1216), the guide rib (12121) extending downward at an angle.
5. The housing of claim 1, wherein: The base (11) includes a base housing (111) and a bottom cover (112) provided at the bottom end of the base housing (111), and the bottom cover (112) is provided with a water outlet (1121).
6. The housing of claim 5, wherein: The bottom cover (112) has a recess (1127), and the water outlet (1121) is located in the recess (1127).
7. The housing of any one of claims 1 to 6, wherein: The height of the bottom wall of the drain hole (1216) is not lower than the height of the drainage surface (1215), and the height of the bottom wall of the water receiving cavity (1214) is not lower than the height of the bottom wall of the drain hole (1216).
8. The housing of any one of claims 1 to 6, wherein: The height of the drainage surface (1215) gradually decreases from the middle position to both ends, and the two ends of the drainage surface (1215) are respectively connected to the two sides of the power supply box (121).
9. A food processor, characterized in that, It includes: The base (10) as described in any one of claims 1 to 8; A mixing cup assembly (20) is assembled on the base (11). The mixing cup assembly (20) includes a mixing cup (21), a heating plate (22), and a blade assembly (23). The heating plate (22) and the blade assembly (23) are disposed at the bottom of the mixing cup (21). A cover (30) is assembled on the support base (12), the cover (30) covers the mixing cup assembly (20), and a control component (31) is provided inside the cover (30); and A motor (40) is assembled inside the base (11) or at the bottom of the stirring cup (21), and the motor (40) is used to drive the blade assembly (23) to rotate.
10. The food processor of claim 9, wherein, It includes: The cover (30) is rotatably assembled to the support base (12) via two pivots, and the wire hole (122) is located between the two pivots.