A food processor with orange juice squeezing function
By introducing microswitches and linkage components into the food processor, combined with a reduction gearbox, the problems of lack of orange juice squeezing function and inconvenient operation in the prior art are solved, realizing safe and convenient orange juice squeezing operation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG XINBAO ELECTRICAL APPLIANCES HLDG CO LTD
- Filing Date
- 2025-08-08
- Publication Date
- 2026-07-03
AI Technical Summary
Existing household food processors lack an orange juice squeezing function, and the start and stop operation of the drive motor is inconvenient and poses a safety hazard.
The system employs a combination of a microswitch assembly and a linkage assembly. The microswitch is triggered by the sliding of the stirring assembly to start the drive assembly, which then rotates to achieve the orange juice squeezing function. A reduction gearbox is used to switch to a slower rotation speed to improve safety and ease of operation.
It achieves a convenient and safe orange juice squeezing function, avoids the safety hazards caused by high-speed rotation, and enhances the user experience.
Smart Images

Figure CN224440959U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of food processing technology, and specifically to a food processor with an orange juice squeezing function. Background Technology
[0002] Currently, most household food processors on the market do not have an orange juice squeezing function. If you want to squeeze orange juice, you need to buy an orange juicer separately, which is expensive.
[0003] A search revealed that utility model patent CN212140154U discloses a food processing machine with an orange juice function, including a main unit and an orange juice extractor connected to the main unit. The main unit contains a drive motor, and the orange juice extractor includes a cup body and a pressing head. A juice outlet tube protrudes from one side of the lower part of the cup body, and a gearbox assembly is connected to the lower end of the cup body. The gearbox assembly includes a gearbox and a gear set for transmission and speed reduction. The upper end of the gear set is connected to the rotating shaft of the pressing head through an output shaft, and the lower end of the gear set is inserted into the main unit and connected to the output end of the drive motor. In this prior art, when extracting orange juice, the pressing head is driven to rotate by the drive motor, and then the orange is cut in half and placed on the pressing head to extract the juice. However, this prior art still has structural deficiencies. The start and stop of its drive motor are directly controlled by a knob on the main unit, which is inconvenient to operate and poses a safety hazard.
[0004] Therefore, there is still room for improvement and development in existing technologies. Utility Model Content
[0005] To address the problems of existing technologies, this utility model provides a food processor with an orange juice squeezing function. When squeezing orange juice, the orange is cut in half and placed on the stirring component, and the stirring component is pressed down. When the stirring component slides down under force, it drives the connecting rod component to trigger the micro switch component, thereby starting the drive component to work. The drive component then drives the stirring component to rotate to achieve the orange juice squeezing function.
[0006] To achieve the above objectives, the technical solution applied in this utility model is as follows:
[0007] A food processor with an orange juice squeezing function includes a main unit, which is equipped with a drive component and a micro switch component, which are correspondingly arranged. When the micro switch component is triggered, the drive component is activated. An orange juice squeezing accessory is detachably mounted on the main unit and includes a cup component and a stirring component movably disposed within the cup component. The stirring component is driven to rotate by the drive component. The output end of the drive component passes through the cup component and engages with the stirring component, allowing the stirring component to slide up and down relative to the output end of the drive component. A connecting rod component is movably disposed between the stirring component and the micro switch component. When the stirring component is subjected to downward force, it triggers the micro switch component via the connecting rod component. In this configuration, when squeezing orange juice, an orange is cut in half and placed on the stirring component. Squeezing the stirring component downward forces the connecting rod component to trigger the micro switch component, activating the drive component. The drive component then drives the stirring component to rotate, thus achieving the orange juice squeezing function.
[0008] In its initial state, the circuit between the micro switch assembly and the drive assembly is disconnected, and the drive assembly cannot drive the stirring assembly to rotate. Only when the stirring assembly is subjected to force and slides downwards, it drives the connecting rod assembly to trigger the micro switch assembly, which then connects the circuit and starts the drive assembly. This makes the operation convenient and safer to use.
[0009] According to the above scheme, the linkage assembly includes a linkage, a spring, and a cup cap. The cup cap is fixed to the bottom of the cup assembly. The linkage is movably disposed between the cup cap and the cup assembly. The two ends of the spring abut against the linkage and the cup cap, respectively. The upper end of the linkage passes through the cup assembly and abuts against the stirring assembly. The lower end of the linkage is correspondingly positioned with the micro switch assembly. In this configuration, in the initial state, under the elastic force of the spring, the upper end of the linkage abuts against the stirring assembly, and the lower end of the linkage separates from the micro switch assembly. When the stirring assembly is subjected to force and slides downward, it drives the linkage to move towards the micro switch assembly, triggering the micro switch assembly's conduction circuit and driving the assembly to start working.
[0010] When the orange juice is squeezed out and the stirring component is released, the spring pushes the connecting rod to reset under the rebound force, and separates it from the micro switch component, the circuit is broken, and the drive component stops working.
[0011] According to the above scheme, the cup cap is provided with a mounting post, and the lower end of the first spring is mounted on the mounting post; a guide assembly is provided between the connecting rod and the cup assembly. This arrangement limits the position of the first spring by the mounting post, preventing it from changing position. If it tilts, it would affect the vertical movement and reset performance of the connecting rod.
[0012] In order to prevent the mounting post from blocking the downward movement of the connecting rod when it moves downward, a through hole is provided on the connecting rod to facilitate the passage of the mounting post, thereby increasing the downward movement of the connecting rod.
[0013] According to the above scheme, the guiding assembly includes a guide hole on the connecting rod and a guide post on the cup assembly, with the guide hole and guide post slidably connected. This arrangement makes the connecting rod more stable when moving up and down, preventing positional changes.
[0014] The guide post is located on the bottom of the cup assembly; of course, the guide assembly can also be located between the cup cap and the connecting rod, such as the guide assembly including a guide hole on the connecting rod and a guide post on the cup cap, with the guide hole and the guide post slidably connected.
[0015] According to the above scheme, the micro switch assembly includes a trigger rod, a second spring, and a micro switch. The upper end of the trigger rod corresponds to the lower end of the connecting rod, and the lower end of the trigger rod corresponds to the micro switch. The two ends of the second spring abut against the trigger rod and the micro switch, respectively. The micro switch is electrically connected to the drive assembly. With this configuration, in the initial state, the spring force of the second spring separates the lower end of the trigger rod from the micro switch. When the connecting rod moves downward, it pushes the trigger rod towards the micro switch, triggering the micro switch to conduct its circuit, and the drive assembly starts operating.
[0016] When the orange juice is squeezed out and the stirring assembly is released, the connecting rod is pushed back to its original position by the rebound force of spring one, and the trigger rod is pushed back to its original position by the rebound force of spring two.
[0017] According to the above scheme, the stirring assembly includes a stirring head and a reduction gearbox. The output end of the drive assembly passes through the cup assembly and is inserted into the input end of the reduction gearbox. The reduction gearbox can slide up and down relative to the output end of the drive assembly, and the output end of the reduction gearbox is inserted into the stirring head. This configuration allows the drive assembly to switch from high-speed rotational power output to slow-speed rotational power output via the reduction gearbox.
[0018] Slow-speed rotation power output is more suitable for squeezing orange juice, and it is quieter and safer when squeezing orange juice; high-speed rotation power output is more likely to cause orange juice to be thrown out, and it is noisier and less safe when squeezing orange juice.
[0019] According to the above scheme, the reduction gearbox includes a gearbox upper cover, an output shaft, a planetary carrier, a second central gear, and a gearbox lower cover; the gearbox upper cover and the gearbox lower cover are fixedly connected and form a receiving cavity, and the output shaft, planetary carrier, and second central gear are arranged vertically in the receiving cavity; the upper end of the output shaft passes through the gearbox upper cover and is inserted into the stirring head, and a first planetary gear set is installed at the lower end of the output shaft; a first central gear is fixed at the upper end of the planetary carrier, and the first central gear meshes with the first planetary gear set; a second planetary gear set is installed at the lower end of the planetary carrier, and the second planetary gear set meshes with the second central gear; the output end of the drive component passes through the cup assembly and the gearbox lower cover and is inserted into the second central gear. With this configuration, when the output end of the drive component rotates, it drives the second central gear to rotate; when the second central gear rotates, it drives the second planetary gear set to rotate; when the second planetary gear set rotates, it drives the planet carrier to rotate; when the planet carrier rotates, it drives the first central gear to rotate; when the first central gear rotates, it drives the first planetary gear set to rotate; when the first planetary gear set rotates, it drives the output shaft to rotate; and when the output shaft rotates, it drives the stirring head to rotate slowly under the action of the second-stage planetary gear set.
[0020] An internal gear ring is formed on the inner wall of the gearbox cover, and the internal gear ring meshes with planetary gear set one and planetary gear set two.
[0021] According to the above scheme, the drive assembly includes a drive motor and a drive shaft. The lower end of the drive shaft is connected to the output end of the drive motor, and the upper end of the drive shaft passes through the cup assembly and the lower cover of the gearbox before engaging with the second central gear. A flat portion is formed on the upper end of the drive shaft, and the second central gear has a flat portion hole for engaging with this flat portion. This configuration, with the flat portion formed on the upper end of the drive shaft and the flat portion hole on the second central gear, allows the drive shaft and the second central gear to engage. When the drive shaft rotates, it drives the second central gear to rotate; when the drive shaft is not rotating, the second central gear can slide up and down relative to the drive shaft.
[0022] The flat part and the flat hole can also be other structures, such as triangular prisms, polygonal prisms, and other non-cylindrical structures. All of these can be fitted together so that the drive shaft can drive the second central gear to rotate, while the second central gear can slide up and down relative to the drive shaft.
[0023] According to the above scheme, the cup assembly includes a dust cover, a filter screen, and a measuring cup. The dust cover is detachably installed on the opening of the measuring cup, the filter screen is detachably fixed to the inner wall of the measuring cup, and the stirring component is movably disposed inside the filter screen. A juice outlet protrudes from the lower part of the measuring cup, and a valve is provided on the juice outlet for opening or closing it. With this configuration, when squeezing orange juice, the juice can be filtered through the filter screen, and then the juice can flow out through the juice outlet after opening it. When not in use, the dust cover can be closed to prevent contamination.
[0024] The movable valve can be a detachable structure or a structure hinged to the outer wall of the juice outlet; the cup assembly as a whole can be disassembled for cleaning.
[0025] According to the above solution, a food blending cup accessory is also included. This accessory contains a food blending component, which is detachably mounted on the main unit. The food blending component is driven to rotate by a drive assembly. This configuration allows the juicer accessory to be used on the main unit when squeezing orange juice; and the food blending cup accessory to be used for food blending, such as mincing meat or making juice. The juicer accessory and the food blending cup accessory are interchangeable and can be used in multiple ways, resulting in better user experience.
[0026] The beneficial effects of this utility model are:
[0027] This invention is designed so that when squeezing orange juice, the orange is cut in half and placed on the stirring assembly, and the stirring assembly is pressed downwards. When the stirring assembly slides downwards under force, it drives the connecting rod assembly to trigger the micro switch assembly, thereby activating the drive assembly. The drive assembly then drives the stirring assembly to rotate, thus realizing the orange juice squeezing function. In the initial state, the circuit between the micro switch assembly and the drive assembly is disconnected, and the drive assembly cannot drive the stirring assembly to rotate. Only when the stirring assembly slides downwards under force, triggering the micro switch assembly, can the circuit be connected, thereby activating the drive assembly. This design makes operation convenient and safer. Attached Figure Description
[0028] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0029] Figure 2 This is a cross-sectional view of the overall structure of this utility model;
[0030] Figure 3 This is an exploded view of the overall structure of this utility model;
[0031] Figure 4 This is a schematic diagram of the initial form of this utility model;
[0032] Figure 5 This is a schematic diagram of the orange juice form of this utility model;
[0033] Figure 6 This is a schematic diagram of the main unit, orange juice squeezing accessory, and food mixing cup accessory of this utility model.
[0034] In the picture:
[0035] 1. Dust cover; 2. Stirring head; 3. Gearbox top cover; 4. Output shaft; 41. Planetary gear set one; 5. Planetary gear set two; 6. Planetary carrier; 61. Central gear one; 7. Central gear two; 8. Gearbox bottom cover; 9. Filter screen; 10. Measuring cup; 101. Juice outlet; 102. Movable valve; 103. Guide post; 11. Connecting rod; 111. Guide hole; 12. Spring one; 13. Cup cap; 131. Mounting post; 14. Main unit; 141. Drive shaft; 142. Drive motor; 15. Trigger rod; 16. Spring two; 17. Micro switch; 20. Orange juice squeezing accessories; 30. Food blending cup accessories. Detailed Implementation
[0036] The technical solution of this utility model will be described below with reference to the accompanying drawings and embodiments.
[0037] like Figures 1 to 6 As shown, the food processor with orange juice squeezing function of this utility model includes a main unit 14, which is equipped with a drive component and a micro switch component, which are correspondingly arranged. When the micro switch component is triggered, the drive component is activated. An orange juice squeezing accessory 20 is detachably installed on the main unit 14. The orange juice squeezing accessory 20 includes a cup component and a stirring component movably disposed within the cup component. The stirring component is driven to rotate by the drive component. The output end of the drive component passes through the cup component and engages with the stirring component. The stirring component can slide up and down relative to the output end of the drive component. A connecting rod component is movably disposed between the stirring component and the micro switch component. When the stirring component is subjected to downward force, it triggers the micro switch component via the connecting rod component. With this configuration, when squeezing orange juice, an orange is cut in half and placed on the stirring component. Squeezing the stirring component downward forces the connecting rod component to trigger the micro switch component, thus activating the drive component. The drive component then drives the stirring component to rotate, achieving the orange juice squeezing function.
[0038] In its initial state, the circuit between the micro switch assembly and the drive assembly is disconnected, and the drive assembly cannot drive the stirring assembly to rotate. Only when the stirring assembly is subjected to force and slides downwards, it drives the connecting rod assembly to trigger the micro switch assembly, which then connects the circuit and starts the drive assembly. This makes the operation convenient and safer to use.
[0039] Furthermore, the linkage assembly includes a linkage 11, a spring 12, and a cup cap 13. The cup cap 13 is fixed to the bottom of the cup assembly. The linkage 11 is movably disposed between the cup cap 13 and the cup assembly. The two ends of the spring 12 abut against the linkage 11 and the cup cap 13, respectively. The upper end of the linkage 11 passes through the cup assembly and abuts against the stirring assembly. The lower end of the linkage 11 is correspondingly positioned with the micro switch assembly. In this configuration, in the initial state, under the elastic force of the spring 12, the upper end of the linkage 11 abuts against the stirring assembly, and the lower end of the linkage 11 separates from the micro switch assembly. When the stirring assembly slides downward under force, it drives the linkage 11 to move towards the micro switch assembly, triggering the micro switch assembly to conduct the circuit and drive the assembly to start working.
[0040] When the orange juice is squeezed out and the stirring component is released, the spring 12 pushes the connecting rod 11 to reset under its rebound force, and separates it from the micro switch component, thus disconnecting the circuit and stopping the drive component from working.
[0041] Furthermore, the cup cap 13 is provided with a mounting post 131, and the lower end of the spring 12 is mounted on the mounting post 131; a guide assembly is provided between the connecting rod 11 and the cup assembly. This arrangement limits the position of the spring 12 by the mounting post 131, preventing the spring 12 from changing position. If it tilts, it will affect the up-and-down movement and reset performance of the connecting rod 11.
[0042] In order to prevent the mounting post 131 from abutting and limiting the downward movement of the connecting rod 11 when it moves downward, a through hole is provided on the connecting rod 11 to facilitate the passage of the mounting post 131, thereby increasing the downward movement of the connecting rod 11.
[0043] Furthermore, the guide assembly includes a guide hole 111 on the connecting rod 11 and a guide post 103 on the cup assembly, with the guide hole 111 and the guide post 103 slidably connected. This arrangement makes the connecting rod 11 more stable when moving up and down, preventing positional changes.
[0044] The guide post 103 is located on the bottom of the cup assembly; of course, the guide assembly can also be located between the cup cap 13 and the connecting rod 11, such as the guide assembly including the guide hole 111 on the connecting rod 11 and the guide post 103 on the cup cap 13, with the guide hole 111 and the guide post 103 slidably connected.
[0045] Furthermore, the micro switch assembly includes a trigger rod 15, a second spring 16, and a micro switch 17. The upper end of the trigger rod 15 corresponds to the lower end of the connecting rod 11, and the lower end of the trigger rod 15 corresponds to the micro switch 17. The two ends of the second spring 16 abut against the trigger rod 15 and the micro switch 17, respectively. The micro switch 17 is electrically connected to the drive assembly. In this configuration, in the initial state, the spring force of the second spring 16 separates the lower end of the trigger rod 15 from the micro switch 17. When the connecting rod 11 moves downward, it pushes the trigger rod 15 towards the micro switch 17, triggering the micro switch 17 to conduct the circuit, and the drive assembly starts working.
[0046] When the orange juice is squeezed out and the stirring assembly is released, the connecting rod 11 is pushed back to its original position by the rebound force of spring 12, and the trigger rod 15 is pushed back to its original position by the rebound force of spring 2 16.
[0047] Furthermore, the stirring assembly includes a stirring head 2 and a reduction gearbox. The output end of the drive assembly passes through the cup assembly and is inserted into the input end of the reduction gearbox. The reduction gearbox can slide up and down relative to the output end of the drive assembly, and its output end is inserted into the stirring head 2. This configuration allows the drive assembly to switch from high-speed rotational power output to slow-speed rotational power output via the reduction gearbox.
[0048] Slow-speed rotation power output is more suitable for squeezing orange juice, and it is quieter and safer when squeezing orange juice; high-speed rotation power output is more likely to cause orange juice to be thrown out, and it is noisier and less safe when squeezing orange juice.
[0049] Furthermore, the reduction gearbox includes a gearbox upper cover 3, an output shaft 4, a planetary carrier 6, a central gear 7, and a gearbox lower cover 8; the gearbox upper cover 3 and the gearbox lower cover 8 are fixedly connected and form a receiving cavity, and the output shaft 4, the planetary carrier 6, and the central gear 7 are arranged vertically in the receiving cavity; the upper end of the output shaft 4 passes through the gearbox upper cover 3 and is inserted into the stirring head 2, and a planetary gear set 41 is installed at the lower end of the output shaft 4; a central gear 61 is fixed at the upper end of the planetary carrier 6, and the central gear 61 meshes with the planetary gear set 41; a planetary gear set 5 is installed at the lower end of the planetary carrier 6, and the planetary gear set 5 meshes with the central gear 7; the output end of the drive assembly passes through the cup assembly and the gearbox lower cover 8 and is inserted into the central gear 7. With this configuration, when the output end of the drive component rotates, it drives the second central gear 7 to rotate; when the second central gear 7 rotates, it drives the second planetary gear set 5 to rotate; when the second planetary gear set 5 rotates, it drives the planet carrier 6 to rotate; when the planet carrier 6 rotates, it drives the first central gear 61 to rotate; when the first central gear 61 rotates, it drives the first planetary gear set 41 to rotate; when the first planetary gear set 41 rotates, it drives the output shaft 4 to rotate; and when the output shaft 4 rotates, it drives the stirring head 2 to rotate slowly under the action of the second-stage planetary gear set.
[0050] An internal gear ring is formed on the inner wall of the gearbox cover 3, and the internal gear ring meshes with planetary gear set 41 and planetary gear set 5.
[0051] Furthermore, the drive assembly includes a drive motor 142 and a drive shaft 141. The lower end of the drive shaft 141 is connected to the output end of the drive motor 142, and the upper end of the drive shaft 141 passes through the cup assembly and the lower cover 8 of the gearbox before engaging with the second central gear 7. The upper end of the drive shaft 141 has a flat portion formed therein, and the second central gear 7 has a flat portion hole that engages with the flat portion. With this configuration, by forming a flat portion at the upper end of the drive shaft 141 and providing a flat portion hole on the second central gear 7, after the drive shaft 141 and the second central gear 7 are engaged, when the drive shaft 141 rotates, it can drive the second central gear 7 to rotate. When the drive shaft 141 does not rotate, the second central gear 7 can slide up and down relative to the drive shaft 141.
[0052] The flat part and the flat hole can also be other structures, such as triangular prisms, polygonal prisms, and other non-cylindrical structures. All of these can be used to achieve the following: after the drive shaft 141 can drive the central gear 7 to rotate, the central gear 7 can slide up and down relative to the drive shaft 141.
[0053] Furthermore, the cup assembly includes a dust cover 1, a filter screen 9, and a measuring cup 10. The dust cover 1 is detachably installed on the opening of the measuring cup 10, and the filter screen 9 is detachably fixed to the inner wall of the measuring cup 10. The stirring component is movably disposed inside the filter screen 9. A juice outlet 101 protrudes from the lower part of the measuring cup 10, and a movable valve 102 for opening or closing the juice outlet 101 is provided on the juice outlet 101. With this configuration, when squeezing orange juice, the orange juice can be filtered through the filter screen 9, and after opening the juice outlet 101, the orange juice flows out through the juice outlet 101. When not in use, the dust cover 1 can be closed to prevent contamination.
[0054] The movable valve 102 can be a detachable structure or a structure hinged to the outer wall of the juice outlet 101; the cup assembly as a whole can be disassembled for cleaning.
[0055] Furthermore, it also includes a food blending cup accessory 30, which contains a food blending component. The food blending cup accessory 30 is detachably mounted on the main unit 14, and the food blending component is driven to rotate by a drive assembly. This configuration allows the orange juicer accessory 20 to be used on the main unit 14 when squeezing orange juice; and the food blending cup accessory 30 to be used when blending food, such as mincing meat or making juice. The orange juicer accessory 20 and the food blending cup accessory 30 can be used interchangeably for multiple functions, resulting in better user experience.
[0056] The embodiments of the present utility model have been described above with reference to the accompanying drawings. However, the present utility model is not limited to the specific embodiments described above. The specific embodiments described above are merely illustrative and not restrictive. Those skilled in the art can make many other forms under the guidance of the present utility model without departing from the spirit and scope of the claims, and all of these forms are within the scope of protection of the present utility model.
Claims
1. A food processor with an orange juice squeezing function, characterized in that: Includes a host (14), on which a drive component and a micro switch component are provided, the micro switch component and the drive component are correspondingly configured; when the micro switch component is triggered, the drive component is started to work; Orange juice squeezing accessory (20), which is detachably mounted on the main unit (14), includes a cup assembly and a stirring assembly movably disposed within the cup assembly, the stirring assembly being driven to rotate by a drive assembly; The output end of the drive component passes through the cup component and is inserted into the stirring component. The stirring component can slide up and down relative to the output end of the drive component. A connecting rod assembly is movably provided between the stirring component and the micro switch assembly. When the stirring component is subjected to force and slides downward, it drives the connecting rod assembly to trigger the micro switch assembly.
2. A food processor with an orange juice squeezing function according to claim 1, characterized in that: The linkage assembly includes a linkage (11), a spring (12), and a cup cap (13). The cup cap (13) is fixed to the bottom of the cup assembly. The linkage (11) is movably disposed between the cup cap (13) and the cup assembly. The two ends of the spring (12) abut against the linkage (11) and the cup cap (13) respectively. The upper end of the linkage (11) passes through the cup assembly and abuts against the stirring assembly. The lower end of the linkage (11) is correspondingly disposed with the micro switch assembly.
3. The food processor with an orange juice extraction function according to claim 2, characterized in that: The cup cap (13) is provided with a mounting post (131), and the lower end of the spring (12) is mounted on the mounting post (131); a guide assembly is provided between the connecting rod (11) and the cup assembly.
4. The food processor with orange juice extraction function according to claim 3, characterized in that: The guide assembly includes a guide hole (111) on the connecting rod (11) and a guide post (103) on the cup assembly, wherein the guide hole (111) and the guide post (103) are slidably connected.
5. The food processor with orange juice extraction function according to claim 2, characterized in that: The micro switch assembly includes a trigger rod (15), a second spring (16), and a micro switch (17). The upper end of the trigger rod (15) is correspondingly arranged with the lower end of the connecting rod (11), and the lower end of the trigger rod (15) is correspondingly arranged with the micro switch (17). The two ends of the second spring (16) abut against the trigger rod (15) and the micro switch (17) respectively. The micro switch (17) is electrically connected to the drive assembly.
6. The food processor with an orange juice extraction function according to claim 2, characterized in that: The stirring assembly includes a stirring head (2) and a reduction gearbox. The output end of the driving assembly passes through the cup assembly and is inserted into the input end of the reduction gearbox. The reduction gearbox can slide up and down relative to the output end of the driving assembly. The output end of the reduction gearbox is inserted into the stirring head (2).
7. The food processor with an orange juice extraction function according to claim 6, characterized in that: The reduction gearbox includes a gearbox cover (3), an output shaft (4), a planetary carrier (6), a second central gear (7), and a gearbox cover (8). The gearbox cover (3) and the gearbox cover (8) are fixedly connected and form a receiving cavity. The output shaft (4), the planetary carrier (6), and the second central gear (7) are arranged vertically in the receiving cavity. The upper end of the output shaft (4) passes through the gearbox cover (3) and is inserted into the stirring head (2). The lower end of the output shaft (4) is equipped with a first planetary gear set (41). The upper end of the planetary carrier (6) is fixed with a first central gear (61). The first central gear (61) meshes with the first planetary gear set (41). The lower end of the planetary carrier (6) is equipped with a second planetary gear set (5). The second planetary gear set (5) meshes with the second central gear (7). The output end of the drive assembly passes through the cup assembly and the gearbox cover (8) and is inserted into the second central gear (7).
8. The food processor with orange juice extraction function according to claim 7, characterized in that: The drive assembly includes a drive motor (142) and a drive shaft (141). The lower end of the drive shaft (141) is connected to the output end of the drive motor (142). The upper end of the drive shaft (141) passes through the cup assembly and the lower cover of the gearbox (8) and then engages with the second central gear (7). The upper end of the drive shaft (141) is formed with a flat part, and the second central gear (7) is provided with a flat part hole that engages with the flat part.
9. The food processor with an orange juice extraction function according to claim 2, characterized in that: The cup assembly includes a dust cover (1), a filter screen (9), and a measuring cup (10). The dust cover (1) is detachably installed on the opening of the measuring cup (10), and the filter screen (9) is detachably fixed on the inner wall of the measuring cup (10). The stirring assembly is movably disposed inside the filter screen (9). The lower part of the measuring cup (10) is provided with a juice outlet (101), and the juice outlet (101) is provided with an active valve (102) for opening or closing the juice outlet (101).
10. The food processor with an orange juice extraction function according to claim 2, characterized in that: It also includes a food mixing cup accessory (30), which has a food mixing component inside. The food mixing cup accessory (30) is detachably mounted on the main unit (14), and the food mixing component is driven to rotate by a drive assembly.