Food processor with slicing function
By introducing a cutting plate, transmission mechanism, and pusher into the food processor, the problem of the lack of cutting function in existing food processors has been solved, realizing a miniaturized cutting and heating function, making it suitable for kitchen use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FOSHAN SHUNDE FUSEN ELECTRONICS TECH CO LTD
- Filing Date
- 2025-08-04
- Publication Date
- 2026-07-14
AI Technical Summary
Existing vegetable cutters are large and mainly used in factories or workshops, not suitable for kitchen use, while existing food processors are suitable for kitchens but lack vegetable cutting functions.
A food processor with a vegetable cutting function has been designed, including a main unit, a food processing cup, an output shaft, a vegetable cutting plate, a transmission component, and a pushing component. The vegetable cutting plate is rotated by the transmission component, and the vegetable cutting function is achieved by combining the feeding channel and the pushing component. The components are stably connected by a fixed component. The overall size is small and suitable for kitchen use.
It features a compact vegetable cutting function suitable for the kitchen, is easy to install, meets users' vegetable cutting needs, and also has a heating function, making it suitable for home use.
Smart Images

Figure CN224483770U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of kitchen appliance technology, and in particular to a food processor with a vegetable cutting function. Background Technology
[0002] The existing vegetable cutter, as seen in Chinese invention patent application CN116572315A, entitled "A Multi-purpose Vegetable Cutter," published on August 11, 2023, includes a machine body. A horizontal plate is fixedly installed on one side of the top of the machine body. A sleeve is fixedly connected to the bottom of the horizontal plate. A drive device is installed on the top of the horizontal plate. The drive device passes through the sleeve and is connected in sequence to a vegetable cutting device and a meat grinder. A vegetable cutting box is installed outside the vegetable cutting device and the meat grinder. The vegetable cutting box is fixedly connected to the machine body. A vegetable inlet and a vegetable pressing device are installed on the top of the vegetable cutting box. A vegetable outlet is installed at the bottom of the vegetable cutting box. A bottom cover is detachably installed on the vegetable outlet. Multiple adjustment devices for controlling the lifting and lowering of the vegetable cutting device are installed on the top of the vegetable cutting box. One of the adjustment devices contains a buffer device. A controller electrically connected to the drive device is installed on one side of the machine body.
[0003] However, the aforementioned vegetable cutters are relatively large and are generally used in factories and workshops, meaning they are not suitable for kitchen use. In contrast, existing food processors are well-suited for kitchen use, but they generally have juicing and brewing functions, which cannot meet users' needs for cutting vegetables. Therefore, there is an urgent need to design a food processor that can solve the above problems. Utility Model Content
[0004] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a food processor with a small overall size that is suitable for kitchen use and has a vegetable cutting function.
[0005] The purpose of this utility model is achieved as follows:
[0006] A food processor with a vegetable cutting function includes a main unit, a food processor cup, and an output shaft. The main unit houses a drive motor, with the output end of the drive motor extending outside the main unit. The food processor cup contains a food processing chamber. A bearing module is mounted on the outer periphery of the output shaft and fixed to the bottom of the food processing chamber. The food processor cup is placed on the main unit. The lower end of the output shaft passes downwards through the food processing chamber and the bearing module and connects to the output end of the drive motor. The processor also includes a vegetable cutting plate, a transmission component, and a pushing component. A lid is provided at the upper opening of the food processing chamber, and the lid has a feeding channel communicating with the food processing chamber. The pushing component is mounted on the feeding channel in a vertically movable manner. The lower end of the transmission component is connected to the upper end of the output shaft located inside the cooking chamber. The cutting plate is fixed to the upper end of the transmission component and has multiple cutting through holes. The bottom of the pusher is close to the upper part of the cutting plate. In this food processor with a cutting function, the cutting plate is connected to the output shaft through the transmission component, which allows the cutting plate to rotate inside the cooking chamber and perform the cutting function. At the same time, external ingredients can fall onto the cutting plate inside the cooking chamber through the feeding channel. Users can press the ingredients onto the cutting plate using the pusher, which facilitates the cutting operation of the cutting plate. Furthermore, this food processor has a small overall size and is well-suited for kitchen use.
[0007] The objective of this utility model can also be achieved by the following technical measures:
[0008] Furthermore, it also includes a fixing component, the outer periphery of which is provided with a clamping gap, the inner periphery of the cutting plate is fixed on the clamping gap, and the inner periphery of the fixing component is sleeved on the upper outer periphery of the transmission component; so that the cutting plate can be stably connected to the upper outer periphery of the transmission component through the fixing component.
[0009] Specifically, the fixing component includes a hollow upper fixing sleeve and a hollow lower fixing sleeve. The hollow lower fixing sleeve is fitted onto the upper outer periphery of the transmission component. An annular support is provided on the outer periphery of the hollow lower fixing sleeve. An annular protrusion is provided on the inner periphery of the cutting plate corresponding to the position of the annular support. An annular groove is opened on the inner periphery of the hollow upper fixing sleeve corresponding to the position of the annular protrusion. The hollow upper fixing sleeve is fitted onto the hollow lower fixing sleeve, and the annular support and the annular groove form the clamping gap. The annular protrusion is fixed in the clamping gap. The clamping gap formed by the annular support and the annular groove can effectively fix the annular protrusion of the cutting plate. Moreover, the hollow lower fixing sleeve, the cutting plate, and the hollow upper fixing sleeve can be stacked and fitted in sequence to achieve the installation and fixation of the three components. The installation operation is also relatively simple and convenient.
[0010] Specifically, the transmission component is a transmission rod, with a concave support platform on the upper outer periphery of the transmission rod. Multiple connecting teeth are located on the outer periphery of the transmission rod above the concave support platform. The bottom of the hollow lower fixing sleeve rests on the concave support platform, and multiple connecting slots are located on the inner periphery of the hollow lower fixing sleeve. The connecting teeth are inserted into the connecting slots. This ensures that the transmission rod can stably drive the fixed assembly and its cutting plate to rotate when it rotates. Simultaneously, the concave support platform stably supports the bottom of the hollow lower fixing sleeve, thus achieving stable support of the hollow lower fixing sleeve, the cutting plate, and the hollow upper fixing sleeve on the transmission rod.
[0011] Specifically, the cutting through hole includes a through hole and a cutting edge disposed on the side wall of the through hole portion, so that the food is cut by the cutting edge and discharged through the through hole into the cutting tray.
[0012] Specifically, a connecting sleeve is fixed to the upper outer periphery of the output shaft, and a guide protrusion is provided on the connecting sleeve. A mounting groove is opened on the lower part of the transmission component corresponding to the position of the connecting sleeve, and a guide groove is opened on the inner periphery of the mounting groove corresponding to the position of the guide protrusion. The mounting groove is fitted onto the connecting sleeve, and the guide protrusion extends into the guide groove. Through the cooperation of the guide protrusion and the guide groove, the mounting groove of the transmission component is well positioned and fixed on the connecting sleeve, so that the output shaft is stably connected to the mounting groove through the fixed sleeve, so that the output shaft stably drives the transmission component to rotate.
[0013] Specifically, the upper outer periphery of the connecting sleeve is provided with two opposing guide protrusions, and the inner periphery of the mounting groove is provided with four guide grooves, which are arranged opposite each other in pairs. The outer sidewall of the guide protrusion and the inner sidewall of the guide groove are both provided with transition arc surfaces. The transition arc surfaces on the guide protrusions cooperate with the transition arc surfaces of the guide grooves to facilitate the guide protrusions to be inserted into the guide grooves. Furthermore, the cooperation of multiple guide protrusions and multiple guide grooves ensures a stable connection between the connecting sleeve and the mounting groove.
[0014] Furthermore, the bottom of the cooking cup is provided with a coiled heating element, and the bottom of the heating element is provided with an electrical conductive post. The main unit is provided with an electrical connector, and the electrical connector has a corresponding electrical conductive groove. The electrical conductive post is inserted into the electrical conductive groove to realize the power supply and heating of the heating element, so that the heating element can heat the food in the cooking cavity and meet more user needs.
[0015] The beneficial effects of this utility model are as follows:
[0016] (1) This food processor with a vegetable cutting function has a vegetable cutting plate connected to the output shaft through a transmission component, which allows the vegetable cutting plate to rotate in the food processing chamber and perform the vegetable cutting function. At the same time, external ingredients can fall onto the vegetable cutting plate in the food processing chamber through the feeding channel. Users can press the ingredients onto the vegetable cutting plate through the pushing component, which facilitates the vegetable cutting work of the vegetable cutting plate. In addition, this food processor has a small overall size and is well-suited for kitchen use.
[0017] (2) The clamping gap formed by the annular support and the annular groove can effectively fix the annular convex edge of the cutting plate. Moreover, the hollow lower fixing sleeve, the cutting plate and the hollow upper fixing sleeve can be stacked in sequence to achieve the installation and fixation of the three. The installation operation is also relatively simple and convenient.
[0018] (3) The transition arc surface on the guide protrusion mates with the transition arc surface of the guide groove so that the guide protrusion can be inserted into the guide groove. Furthermore, the mate of multiple guide protrusions with multiple guide grooves ensures a stable connection between the connecting sleeve and the mounting groove. Attached Figure Description
[0019] Figure 1 This is a cross-sectional view of the food processor with vegetable cutting function according to this utility model.
[0020] Figure 2 for Figure 1 Enlarged view of point A.
[0021] Figure 3 for Figure 1 Enlarged view of point B.
[0022] Figure 4 This is an exploded view of the food processor with vegetable cutting function according to this utility model.
[0023] Figure 5 for Figure 4 Enlarged view of point C.
[0024] Figure 6 for Figure 4 Enlarged view of point D.
[0025] Figure 7 This is a three-dimensional enlarged view of the connecting sleeve of this utility model.
[0026] Figure 8 This is a three-dimensional enlarged view of the transmission component of this utility model. Detailed Implementation
[0027] The present invention will be further described below with reference to the accompanying drawings and embodiments: wherein, the drawings are for illustrative purposes only, and are only schematic diagrams, not actual pictures, and should not be construed as limiting the present invention; in order to better illustrate the embodiments of the present invention, some parts in the drawings may be omitted, enlarged or reduced, and do not represent the actual product size; it is understandable to those skilled in the art that some well-known structures and their descriptions may be omitted in the drawings.
[0028] The terms "first," "second," etc., used in this invention do not indicate any order, quantity, or importance, but are merely for distinction. The terms "one," "a," etc., used in this invention do not indicate a limitation on quantity, but rather indicate the existence of at least one of the mentioned objects. The terms indicating direction or location used in this invention, such as "top," "bottom," "side," "longitudinal," "transverse," "middle," "center," "outer," "inner," "horizontal," "vertical," "left," "right," "above," "below," etc., refer to relative positions, not absolute positions; those skilled in the art can understand the specific meaning of these terms according to the specific circumstances.
[0029] Implementation examples, in conjunction with Figures 1 to 8 As shown, a food processor with a vegetable cutting function includes a main unit 1, a food processor cup 2, and an output shaft 3. A drive motor 11 is installed inside the main unit 1, and the output end 111 of the drive motor 11 extends out of the main unit 1. A food processor cup 21 is installed inside the food processor cup 2. A bearing module 4 is installed on the outer periphery of the output shaft 3 and is fixed to the bottom of the food processor cup 21. The food processor cup 2 is placed on the main unit 1. The lower end of the output shaft 3 passes downwards through the food processor cup 21 and the bearing module 4 and connects to the output end 111 of the drive motor 11.
[0030] Its features include a cutting plate 5, a transmission component 6, and a pushing component 7. A cup lid 22 is provided at the upper opening of the cooking cavity 21. The cup lid 22 has a feeding channel 221 that connects to the cooking cavity 21. The pushing component 7 is arranged on the feeding channel 221 in a vertically movable manner. The lower end of the transmission component 6 is connected to the upper end of the output shaft 3 located in the cooking cavity 21. The cutting plate 5 is fixed to the upper end of the transmission component 6 and has multiple cutting through holes 51. The bottom of the pushing component 7 is close to the upper part of the cutting plate 5.
[0031] As a specific solution, it also includes a fixing component 8, which has a clamping gap 81 on its outer periphery. The inner periphery of the cutting plate 5 is fixed on the clamping gap 81, and the inner periphery of the fixing component 8 is sleeved on the upper outer periphery of the transmission component 6.
[0032] In this embodiment, the fixing component 8 includes a hollow upper fixing sleeve 82 and a hollow lower fixing sleeve 83. The hollow lower fixing sleeve 83 is fitted onto the upper outer periphery of the transmission component 6. An annular support platform 831 is provided on the outer periphery of the hollow lower fixing sleeve 83. An annular protrusion 52 is provided on the inner periphery of the cutting plate 5 corresponding to the position of the annular support platform 831. An annular groove 821 is opened on the inner periphery of the hollow upper fixing sleeve 82 corresponding to the position of the annular protrusion 52. The hollow upper fixing sleeve 82 is fitted onto the hollow lower fixing sleeve 83, and the annular support platform 831 and the annular groove 821 form the clamping gap 81. The annular protrusion 52 is fixed on the clamping gap 81.
[0033] As a more specific embodiment, the transmission component 6 is a transmission rod. The upper outer periphery of the transmission rod is provided with a concave support 61. The outer periphery of the transmission rod above the concave support 61 is provided with multiple connecting teeth 62. The bottom of the hollow lower fixing sleeve 83 is placed on the concave support 61, and the inner periphery of the hollow lower fixing sleeve 83 is provided with multiple connecting slots 832. The connecting teeth 62 are inserted into the connecting slots 832.
[0034] As a more specific embodiment, the cutting through hole 51 includes a through hole 511 and a cutting edge 512 disposed on a portion of the side wall of the through hole 511; the cutting plate 5 is provided with cutting through holes 51 of different sizes, and the cutting through holes 51 of different sizes can meet different cutting requirements.
[0035] As a preferred embodiment, a connecting sleeve 31 is fixed to the upper outer periphery of the output shaft 3. A guide protrusion 311 is provided on the connecting sleeve 31. A mounting groove 63 is opened at the lower part of the transmission component 6 corresponding to the position of the connecting sleeve 31. A guide groove 631 is opened at the inner periphery of the mounting groove 63 corresponding to the position of the guide protrusion 311. The mounting groove 63 is fitted onto the connecting sleeve 31 and the guide protrusion 311 extends into the guide groove 631.
[0036] In this embodiment, the upper outer periphery of the connecting sleeve 31 is provided with two opposing guide protrusions 311, and the inner periphery of the mounting groove 63 is provided with four guide grooves 631. The four guide grooves 631 are arranged opposite each other in pairs, and the outer sidewall of the guide protrusions 311 and the inner sidewall of the guide grooves 631 are both provided with transition arc surfaces 100.
[0037] As a preferred embodiment, the bottom of the cooking cup 2 is provided with a coiled heating tube 9, and the bottom of the heating tube 9 is provided with an electrical conductive post 91. The main unit 1 is provided with an electrical connector 12, and the electrical connector 12 has a corresponding electrical conductive groove 121. The electrical conductive post 91 is inserted into the electrical conductive groove 121.
[0038] As a more specific embodiment, the bearing module 4 includes a T-shaped bearing sleeve 41 and a ball bearing 42 disposed inside the T-shaped bearing sleeve 41. The output shaft 3 passes through the ball bearing 42 and the T-shaped bearing sleeve 41. The upper part of the T-shaped bearing sleeve 41 is placed on the bottom of the cooking cavity 21, and a sealing ring 43 is provided between the upper part of the T-shaped bearing sleeve 41 and the bottom of the cooking cavity 21. The lower part of the T-shaped bearing sleeve 41 extends downward out of the cooking cavity 21.
[0039] The embodiments described above are merely examples for clearly illustrating the present utility model. While the descriptions are specific and detailed, they should not be construed as limiting the scope of the present utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of the present utility model, and these all fall within the protection scope of the present utility model. Therefore, the protection scope of this utility model patent should be determined by the appended claims.
Claims
1. A food processor with a vegetable cutting function, comprising a main unit (1), a food processor cup (2), and an output shaft (3), wherein a drive motor (11) is provided inside the main unit (1) and the output end (111) of the drive motor (11) extends out of the main unit (1), a food processor cup (21) is provided inside the food processor cup (2), a bearing module (4) is provided on the outer periphery of the output shaft (3) and the bearing module (4) is fixed to the bottom of the food processor cup (21), the food processor cup (2) is placed on the main unit (1), and the lower end of the output shaft (3) passes downward through the food processor cup (21) and the bearing module (4) and is connected to the output end (111) of the drive motor (11). Its characteristics are, It also includes a cutting plate (5), a transmission component (6) and a pusher component (7). A cup lid (22) is provided at the upper opening of the cooking cavity (21). A feeding channel (221) communicating with the cooking cavity (21) is opened on the cup lid (22). The pusher component (7) is arranged on the feeding channel (221) in an up-down moving manner. The lower end of the transmission component (6) is connected to the upper end of the output shaft (3) located in the cooking cavity (21). The cutting plate (5) is fixed on the upper end of the transmission component (6) and multiple cutting through holes (51) are opened on the cutting plate (5). The bottom of the pusher component (7) is close to the upper part of the cutting plate (5).
2. The food processor with vegetable cutting function according to claim 1, characterized in that, It also includes a fixing component (8), the outer periphery of which is provided with a clamping gap (81), the inner periphery of the cutting plate (5) is fixed on the clamping gap (81), and the inner periphery of the fixing component (8) is sleeved on the upper outer periphery of the transmission component (6).
3. The food processor with vegetable cutting function according to claim 2, characterized in that, The fixing component (8) includes a hollow upper fixing sleeve (82) and a hollow lower fixing sleeve (83). The hollow lower fixing sleeve (83) is fitted on the upper outer periphery of the transmission component (6). An annular support (831) is provided on the outer periphery of the hollow lower fixing sleeve (83). An annular protrusion (52) is provided on the inner periphery of the cutting plate (5) corresponding to the position of the annular support (831). An annular groove (821) is opened on the inner periphery of the hollow upper fixing sleeve (82) corresponding to the position of the annular protrusion (52). The hollow upper fixing sleeve (82) is fitted on the hollow lower fixing sleeve (83), and the annular support (831) and the annular groove (821) form the clamping gap (81). The annular protrusion (52) is fixed on the clamping gap (81).
4. The food processor with vegetable cutting function according to claim 3, characterized in that, The transmission component (6) is a transmission rod. The upper outer periphery of the transmission rod is provided with a concave support (61). The outer periphery of the transmission rod above the concave support (61) is provided with multiple connecting teeth (62). The bottom of the hollow lower fixing sleeve (83) is placed on the concave support (61), and the inner periphery of the hollow lower fixing sleeve (83) is provided with multiple connecting slots (832). The connecting teeth (62) are inserted into the connecting slots (832).
5. The food processor with vegetable cutting function according to claim 3, characterized in that, The cutting through hole (51) includes a through hole (511) and a cutting edge (512) disposed on a portion of the sidewall of the through hole (511).
6. The food processor with vegetable cutting function according to claim 1, characterized in that, A connecting sleeve (31) is fixed on the upper outer periphery of the output shaft (3). A guide protrusion (311) is provided on the connecting sleeve (31). A mounting groove (63) is opened on the lower part of the transmission component (6) corresponding to the position of the connecting sleeve (31). A guide groove (631) is opened on the inner periphery of the mounting groove (63) corresponding to the position of the guide protrusion (311). The mounting groove (63) is fitted on the connecting sleeve (31) and the guide protrusion (311) extends into the guide groove (631).
7. The food processor with vegetable cutting function according to claim 6, characterized in that, The upper outer periphery of the connecting sleeve (31) is provided with two opposing guide protrusions (311), and the inner periphery of the mounting groove (63) is provided with four guide grooves (631). The four guide grooves (631) are arranged opposite to each other in pairs. The outer sidewall of the guide protrusion (311) and the inner sidewall of the guide groove (631) are both provided with transition arc surfaces (100).
8. The food processor with vegetable cutting function according to claim 1, characterized in that, The bottom of the cooking cup (2) is provided with a coiled heating tube (9), and the bottom of the heating tube (9) is provided with an electric conduction post (91). The main unit (1) is provided with an electric connector (12), and the electric connector (12) has a corresponding electric conduction groove (121). The electric conduction post (91) is inserted into the electric conduction groove (121).