A food processor

Abstract

The utility model belongs to kitchen appliance technical field discloses a kind of food processing machines, including cup body, the cup cover of cup body is covered, the stirring assembly of being set in cup body, the heating piece of cup body heating, the top of cup cover is equipped with the recess groove formed by the plurality of recesses of circumferential interval arrangement and the limiting portion formed between adjacent recess, the recess extends to the gap formed by cup cover edge, the cup cover has by the limiting portion with the cup body abutment to upside-down on cup body on upside-down state, in the upside-down state of cup cover, the recess is towards the inner cavity of cup body and by the gap make the cup body and outside communication. The application can meet the premise of use safety, realize cup cover and install cup body for efficient pulping, realize cup cover upside-down in cup body for efficient drying at the same time, solve the contradiction between drying efficiency and pulping efficiency.

Description

Technical Field

[0001] This utility model belongs to the field of kitchen appliance technology, specifically relating to food processing machines. Background Technology

[0002] Traditional food processors often leave water residue inside the container after food is poured out and the container is washed. If the food processor is not used for a long time, bacteria can easily grow inside the container, producing unpleasant odors. With technological advancements, some modern food processors now include a drying program to remove this water residue.

[0003] In traditional food processors, a sealing ring is used between the lid and the body to prevent spillage and maintain heat during the pulping process. This minimizes the release of hot steam, ensuring rapid cooking and maintaining a boil to guarantee the pulp is thoroughly cooked and accelerates pulping efficiency. A pressure relief vent is also provided on the lid to prevent safety hazards caused by excessive pressure inside the machine. Due to safety requirements, the food processor cannot start if the lid is not properly installed; therefore, the lid must remain closed when starting the drying program.

[0004] Because the lid and body of the cup are sealed together, the inside of the cup maintains a relatively closed environment. Even when the heating element vaporizes residual water inside the cup during the drying process, the tight fit between the lid and body prevents the steam from escaping continuously and quickly. Although the lid has a pressure relief hole, it is not designed to accelerate evaporation but only for safety pressure relief, and its limited size still results in slow steam escape. Consequently, during the drying process, the humidity inside the cup rises rapidly. When the steam reaches the cooler area of ​​the lid or the spout of the cup, it condenses on the lid, forming condensate that falls back onto the cup. The heating element then needs to continue drying, resulting in prolonged drying time and repeated energy consumption by the heating element while the water residue on the cup remains, leading to wasted power, high electricity consumption, and high drying costs. Otherwise, the cup may not be completely dry.

[0005] In summary, existing food processing machines face a trade-off between drying efficiency and pulping efficiency while ensuring safe operation. Traditional food processing machines can only sacrifice drying efficiency to ensure efficient pulping, resulting in problems such as long drying time and poor drying effect. Utility Model Content

[0006] This utility model provides a food processing machine that solves the technical problem of how to improve drying speed and effect without reducing pulping efficiency, without changing the shape of existing food processing machines or adding unnecessary accessories.

[0007] The technical solution adopted in this utility model is as follows:

[0008] This utility model provides a food processing machine, including a cup body, a cup lid that fits onto the cup body, a stirring assembly disposed within the cup body, and a heating element for heating the cup body. The top of the cup lid has a plurality of recesses arranged circumferentially at intervals to form grooves and a limiting part formed between adjacent grooves. The grooves extend to the edge of the cup lid to form a notch. The cup lid has an inverted state where it abuts against the cup body by the limiting part to be inverted onto the cup body. When the food processing machine is in a drying state, the cup lid is in the inverted state, and the grooves face the inner cavity of the cup body and the cup body is connected to the outside through the notch.

[0009] The food processing machine provided by this utility model has a lid that fits onto the cup body. During processing, the lid remains upright and close to the cup body, maintaining the temperature or applying slight pressure to the liquid inside the cup. This ensures safe and efficient food preparation, meets the requirements for pulping efficiency, and also provides anti-splashing and anti-overflow effects. By providing multiple grooves on the top of the lid and limiting portions formed between adjacent grooves, the limiting portions abut against the cup body to form support, allowing the lid to be inverted onto the cup body. Furthermore, the limiting portions formed between adjacent grooves are spaced apart, creating a larger gap between the inverted lid and the cup body compared to when it is upright. Simultaneously, because the grooves extend to the edge of the lid to form notches, when the lid is in the inverted state, the grooves face the inner cavity of the cup, and the notches allow the cup body to communicate with the outside. Therefore, when the drying program is needed, the user can invert the lid onto the cup body. With the food processor in drying mode, the heating element heats and dries the cup body. Since the lid is inverted, residual water from cleaning inside the cup evaporates during heating. As the evaporated steam rises to the lid, it can escape directly through the gaps, grooves, and notches between the lid and the cup body, preventing condensation and quickly reducing humidity inside the cup. This achieves rapid drying, saving drying time and reducing the power consumption of the heating element. Furthermore, the inverted lid allows the hot steam inside the cup to heat the lid during drying, simultaneously drying any water residue on it. Users don't need to fully open the lid for drying, preventing accidents caused by putting hands inside the cup during the drying process, thus improving safety while achieving rapid drying.

[0010] In summary, this application, while ensuring safety in use, does not alter the form of existing food processing machines or add unnecessary accessories, enabling efficient pulping with the lid upright on the cup body and efficient drying with the lid upside down on the cup body, thus resolving the contradiction between drying efficiency and pulping efficiency.

[0011] In a preferred embodiment, the limiting portion extends into the cup body and its radially outer end abuts against the inner sidewall of the cup body.

[0012] By setting the limiting part to extend into the cup body and abutting the inner wall of the cup body with the radial outer end, the cup lid is axially limited on the cup body by the abutting part with the inner wall. At the same time, the cup lid can reliably limit the radial position of the cup body, preventing the cup lid from falling off the cup body if the user accidentally touches it during the drying process. This achieves a stable fit between the cup lid and the cup body during the drying process and improves the safety of use.

[0013] In a preferred embodiment, the limiting part includes a recessed platform located at the edge of the cup lid. The recessed platform has a radially extending horizontal wall and an axially extending vertical wall. When the cup lid is in an inverted state, the vertical wall extends into the cup body and radially limits the side wall of the cup body, while the horizontal wall axially supports the cup body.

[0014] By setting a recessed platform, the vertical wall of the platform forms a radial limit with the cup body, while the horizontal wall of the platform forms an axial limit supporting the cup body. Therefore, with a simple recessed platform structure, the limiting part can reliably limit the cup body both radially and axially. This allows the cup lid to achieve multi-directional limiting with the cup body in the inverted state, further improving the stable fit between the cup lid and the cup body during the drying process and enhancing the safety of use.

[0015] In a preferred embodiment, the limiting portion abuts axially against the top of the side wall of the cup body.

[0016] By axially abutting against the top of the side wall of the cup body with the limiting part, the cup lid is suspended directly above the cup body in the inverted state, which can further increase the gap between the cup lid and the cup body. With the effect of the groove and notch connecting the cup body with the outside world, a larger area of ​​communication between the cup body and the outside world is achieved, which accelerates the discharge speed of water vapor from the water stains in the cup body, thereby achieving a faster drying effect.

[0017] In a preferred embodiment, the cup lid is further provided with a buffer member fixed to the limiting part. When the cup lid is in an inverted state, the limiting part abuts against the cup body through the buffer member.

[0018] By incorporating a buffer, a flexible contact is achieved between the limiting part and the cup body, preventing hard collisions between the cup lid and the cup body, and preventing scratches on the limiting part from affecting the appearance of the cup lid when placed upright, thus avoiding the cup lid becoming unusable.

[0019] In a preferred embodiment, the buffer includes a connecting post, an inlet head integrally connected to both ends of the connecting post with an enlarged outer diameter, and a buffer plug. The limiting part is provided with a mounting hole, the connecting post passes through the mounting hole, and the inlet head and the buffer plug respectively abut against the edges of the mounting hole.

[0020] By configuring the buffer component as a connecting post, an inlet head and a buffer plug integrally connected to both ends of the connecting post with an enlarged outer diameter, and setting an installation hole in the limiting part, the buffer component can be reliably installed through the installation hole. With the inlet head and the buffer plug abutting and limiting the edge of the installation hole, the buffer component and the limiting part are reliably connected, preventing the buffer component from falling off after being used upside down. The installation is stable. At the same time, the installation of the buffer component does not require other auxiliary structures, making assembly simple and simplifying the cup lid structure.

[0021] In a preferred embodiment, the outer diameter of the guide head gradually decreases along the installation direction of the buffer component. When the cup lid is in an inverted state, the buffer plug abuts against the cup body. This ensures a stable fit between the buffer component and the mounting hole while achieving effortless installation of the buffer component.

[0022] In a preferred embodiment, the mounting hole extends radially through the limiting portion of the cup lid.

[0023] By making the mounting hole extend radially through the cup lid, the buffer protrudes from the radial outer end of the limiting part after installation, rather than protruding from the top of the limiting part, which facilitates cleaning or wiping the top of the cup lid.

[0024] In a preferred embodiment, the cup body is equipped with a detection device, and the cup lid is equipped with an inductive magnet that cooperates with the detection device. When the cup lid is properly closed on the cup body and when the cup lid is in an inverted state, the inductive magnet cooperates with the detection device.

[0025] By incorporating a sensing magnet and a detection device, the system can detect the cup lid's position whether it's facing forward or backward, preventing processing or drying abnormalities caused by users forgetting to install the lid, thus improving safety. Furthermore, the same sensing magnet can be used for both the upright and inverted positions, avoiding complexities in the lid's structure and the installation of the detection device.

[0026] In a preferred embodiment, the food processing machine includes a main unit supporting the cup body, the cup body being detachably mounted on the main unit; a handle is provided on the side of the cup body, the cup lid is provided with a radial protrusion corresponding to a picking portion above the handle, a sensing magnet is mounted on the picking portion, and a detection device is mounted in the handle.

[0027] A handle is provided on the side of the cup body for easy handling, cleaning, and pouring. The lid has a corresponding grip for easy removal and cleaning. The handle and grip provide a mounting location for the detection device and induction magnet without increasing the size of the cup body and lid, achieving efficient use of space and a compact structure.

[0028] In a preferred embodiment, the food processing machine includes a main unit that supports the cup body, the cup body being detachably or fixedly installed inside the main unit, and the main unit also having a water tank communicating with the cup body.

[0029] By incorporating a water tank in the main unit, the cup is automatically supplied with water for self-cleaning, eliminating the need for hand washing and providing convenience for users. Furthermore, after cleaning, the cup body and lid are quickly dried by inverting the lid, making it even more worry-free to use. Attached Figure Description

[0030] The accompanying drawings, which are included to provide a further understanding of the present invention and constitute a part of this invention, illustrate exemplary embodiments of the present invention and, together with the description thereof, serve to explain the present invention and do not constitute an undue limitation thereof. In the drawings:

[0031] Figure 1 This is a schematic diagram of the food processing machine in processing state according to one embodiment of the present invention;

[0032] Figure 2 This is a cross-sectional structural diagram of the cup lid in one embodiment of the present invention;

[0033] Figure 3 This is a three-dimensional structural diagram of the cup lid in one embodiment of the present invention;

[0034] Figure 4 This is a schematic diagram of the food processing machine in the drying state according to one embodiment of the present invention;

[0035] Figure 5 This is a schematic diagram showing the fit between the cup lid and the cup body after the cup is inverted in one embodiment of the present invention;

[0036] Figure 6 This is a schematic diagram illustrating the fit between the cup lid and the buffer component in one embodiment of the present invention;

[0037] Figure 7 This is a schematic diagram of the structure of the buffer component in one embodiment of the present invention.

[0038] List of components and reference numerals:

[0039] 10. Cup body; 11. Handle; 20. Cup lid; 21. Groove; 22. Notch; 23. Limiting part; 24. Picking part; 25. Lid side wall; 26. Sealing ring; 27. Pressure relief hole; 231. Settled platform; 30. Stirring assembly; 40. Heating element; 50. Buffer element; 51. Connecting column; 52. Inlet head; 53. Buffer plug; 60. Induction magnet; 70. Detection device. Detailed Implementation

[0040] To more clearly illustrate the overall concept of this utility model, a detailed description will be provided below with reference to the accompanying drawings.

[0041] Many specific details are set forth in the following description to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the scope of protection of the present invention is not limited to the specific embodiments disclosed below. It should be noted that, unless otherwise specified, the embodiments of the present invention and the features thereof can be combined with each other.

[0042] Furthermore, it should be understood in the description of this utility model that the terms "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0043] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection, an electrical connection, or a communication connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.

[0044] In this utility model, unless otherwise expressly specified and limited, the first feature "on" or "below" the second feature may be in direct contact with the first and second features, or indirect contact through an intermediate medium. In the description of this specification, references to terms such as "one embodiment," "some embodiments," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of this utility model. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0045] like Figures 1-7 As shown, in one embodiment, this utility model provides a food processing machine, including a cup body 10, a lid 20 covering the cup body 10, a stirring assembly 30 (e.g., a stirring blade or grinding head assembly) disposed within the cup body 10, and a heating element 40 for heating the cup body 10. Preferably, the heating element 40 is disposed at the bottom of the cup body 10, such as... Figure 2 , 3 As shown, the top of the cup lid 20 is provided with a plurality of recesses 21 arranged circumferentially at intervals to form grooves 21 and limiting portions 23 arranged at intervals between adjacent grooves 21. The grooves 21 extend to the edge of the cup lid 20 to form notches 22. The cup lid 20 has an inverted state in which it abuts against the cup body 10 by the limiting portions 23 to be inverted on top of the cup body 10. Figure 4 As shown, when the food processing machine is in the drying state, the cup lid 20 is in an inverted state, with the groove 21 facing the inner cavity of the cup body 10 and the cup body 10 communicating with the outside through the notch 22.

[0046] As a preferred option, such as Figure 2 As shown, the edge of the cup lid 20 is provided with a lid sidewall 25, such as Figure 1 As shown, with the lid 20 properly fitted onto the cup body 10, the lid sidewall 25 extends into the cup body 10 and seals against the inner wall of the cup body 10. Preferably, as shown... Figure 2 As shown, a sealing ring 26 is fitted on the side wall 25 of the lid to achieve a proper sealing installation of the lid 20 onto the cup body 10. Of course, the lid 20 may optionally be provided with a pressure relief hole 27 and a pressure relief plug installed at the pressure relief hole, so as to connect with the outside when the lid 20 is properly installed on the cup body 10 to achieve the purpose of pressure relief and avoid the safety hazard of excessive pressure on the cup body 10.

[0047] The food processing machine provided by this utility model has the following features: Figure 1 The cup lid 20 is shown in the machined state where it fits properly onto the cup body 10, and as shown in the figure. Figure 4The cup lid is shown inverted, fitting onto the cup body 10 in a dried state. During processing, the cup lid 20 remains upright, fitting onto the cup body 10. The cup lid and cup body enclose a sealed pulping chamber, preventing steam from entering even during heating. Figure 1 As shown by the arrow, the steam will be retained inside the cup to keep the cup warm, thus maintaining the temperature or applying slight pressure to the liquid inside the cup. This ensures safe and efficient preparation of ingredients, meets the requirements for pulping efficiency, and also has anti-splashing and anti-overflow effects.

[0048] By providing multiple grooves 21 on the top of the lid 20 and limiting portions 23 formed between adjacent grooves 21, the limiting portions 23 abut against the cup body 10 to form support, allowing the lid 20 to be inverted on the cup body 10, achieving an inverted state where the lid 20 is mounted above the cup body 10. Furthermore, the limiting portions 23 are spaced apart, allowing for a larger gap between the inverted lid 20 and the cup body 10 compared to the upright position. Simultaneously, because the grooves 21 extend to the edge of the lid 20 to form notches 22, when the lid 20 is in the inverted state, the grooves 21 face the inner cavity of the cup body 10, and the notches 22 allow the cup body 10 to communicate with the outside. Therefore, when a drying process is required, such as... Figure 4 , 5 As shown, the user can invert the lid 20 onto the cup body 10, so that the lid 20 is in an inverted state. During the heating process of the heating element 40, the residual water stains inside the cup body 10 can be evaporated by the heat. When the evaporated water vapor rises to the position of the lid 20, such as... Figure 4 As shown by the middle arrow, water vapor can be directly discharged through the gap between the lid 20 and the cup body 10, the groove 21, and the notch 22, thus preventing water vapor from accumulating on the lid 20 and forming condensation. This quickly reduces the humidity inside the cup body 10, achieving a rapid drying effect and saving drying time. Simultaneously, it reduces the power consumption of the heating element 40, saving electricity. Furthermore, the lid 20 can be inverted onto the cup body 10. During the drying process, the hot steam inside the cup body 10 heats the lid 20, simultaneously evaporating any water stains on it. Moreover, users do not need to fully open the lid 20 for drying, thus avoiding safety accidents caused by users putting their hands inside the cup body 10 during the drying process. This improves safety while achieving rapid drying.

[0049] In summary, this application can achieve efficient pulping with the lid 20 upright on the cup body 10 and efficient drying with the lid 20 upside down on the cup body 10, while ensuring safety in use, thus resolving the contradiction between drying efficiency and pulping efficiency.

[0050] This utility model does not limit the specific structure of the limiting part, such as Figure 3 , 4 As shown in Figures 5 and 6, in a preferred embodiment,

[0051] In a preferred embodiment, the limiting part 23 includes a recessed platform 231 located at the edge of the cup lid 20. The recessed platform 231 has a radially extending horizontal wall and an axially extending vertical wall. When the cup lid 20 is in an inverted state, the vertical wall extends into the cup body 10 and radially limits the side wall of the cup body 10, while the horizontal wall axially supports the cup body 10.

[0052] By setting a recessed platform 231, the vertical wall of the recessed platform 231 forms a radial limit with the cup body 10, while the horizontal wall of the recessed platform 231 forms an axial limit supporting the cup body 10. Therefore, by using the simple structure of the recessed platform 231, the limiting part 23 can reliably limit the cup body 10 both radially and axially. This allows the cup lid 20 to achieve multi-directional limiting with the cup body 10 in the inverted state, further improving the stable fit between the cup lid 20 and the cup body 10 during the drying process and enhancing the safety of use.

[0053] Of course, in other preferred embodiments, the limiting part 23 extends into the cup body 10 and only its radially outer end abuts against the inner sidewall of the cup body 10.

[0054] By setting the limiting part 23 to extend into the cup body 10 and abutting the inner side wall of the cup body 10 with its radial outer end, the cup lid 20 is axially limited on the cup body 10 by the limiting part 23 abutting the inner side wall. At the same time, the cup lid 20 can achieve reliable radial limiting with the cup body 10, avoiding the situation where the cup lid 20 falls off the cup body 10 if the user accidentally touches it during the drying process. This achieves a stable fit between the cup lid 20 and the cup body 10 during the drying process and improves the safety of use.

[0055] In other preferred embodiments, the limiting portion 23 abuts axially against the top of the side wall of the cup body 10.

[0056] By axially abutting the top of the side wall of the cup body 10 with the limiting part 23, the cup lid 20 is suspended directly above the cup body 10 in the inverted state, thereby further increasing the gap between the cup lid 20 and the cup body 10. With the effect of the groove 21 and the notch 22 connecting the cup body 10 with the outside world, a larger area of ​​communication between the cup body 10 and the outside world is achieved, accelerating the discharge speed of water vapor from the water stains in the cup body 10, thereby achieving a faster drying effect.

[0057] like Figure 4 , 6 As shown, in a preferred embodiment, the cup lid 20 is further provided with a buffer member 50 fixed to the limiting part 23. When the cup lid 20 is in an inverted state, the limiting part 23 abuts against the cup body 10 through the buffer member 50. Figure 7As shown, preferably, the buffer 50 includes a connecting post 51, an inlet head 52 integrally connected to both ends of the connecting post 51 with an enlarged outer diameter, and a buffer plug 53. The limiting part 23 is provided with a mounting hole, the connecting post 51 is inserted into the mounting hole, and the inlet head 52 and the buffer plug 53 respectively abut against the two sides of the edge of the mounting hole.

[0058] More preferably, the mounting hole extends radially through the limiting portion 23 along the cup lid 20.

[0059] More preferably, the outer diameter of the inlet head 52 gradually decreases along the installation direction of the buffer member 50, and when the cup lid 20 is in an inverted state, the buffer plug 53 abuts against the cup body 10. This ensures a stable fit between the buffer member 50 and the mounting hole while achieving effortless installation of the buffer member 50.

[0060] This embodiment achieves flexible contact between the limiting part 23 and the cup body 10 by setting a buffer member 50, avoiding hard collisions between the cup lid 20 and the cup body 10, and preventing scratches from appearing on the limiting part 23, which would affect the appearance of the cup lid 20 when placed upright, thus preventing the cup lid 20 from being scrapped. By setting the buffer member 50 to include a connecting post 51, an inlet head 52 integrally connected to both ends of the connecting post 51 with an enlarged outer diameter, and a buffer plug 53, and providing a mounting hole in the limiting part 23, the buffer member 50 can be reliably installed through the mounting hole. With the inlet head 52 and the buffer plug 53 abutting and limiting the edge of the mounting hole, the buffer member 50 and the limiting part 23 are reliably connected, preventing the buffer member 50 from falling off after being used upside down. The installation is stable. At the same time, the installation of the buffer member 50 does not require other auxiliary structures, making assembly simple and simplifying the structure of the cup lid 20.

[0061] In this embodiment, by making the mounting hole extend radially through the cup lid 20, the buffer member 50 protrudes radially outward from the limiting part 23 after installation, avoiding protrusion at the top of the limiting part 23, which facilitates cleaning or wiping the top of the cup lid 20. Of course, in other embodiments of this utility model, the mounting hole can extend axially through the limiting part.

[0062] like Figure 4 As shown, in a preferred embodiment, the cup body 10 is equipped with a detection device 70, and the cup lid 20 is equipped with a sensing magnet 60 that cooperates with the detection device 70. The detection device 70 can be a reed switch or a Hall element. When the cup lid 20 is properly closed on the cup body 10 and when the cup lid 20 is in an inverted state, the sensing magnet 60 cooperates with the detection device 70.

[0063] By incorporating a sensing magnet 60 and a detection device 70, the position detection of the cup lid 20 during both forward and inverted rotation is achieved, preventing users from forgetting to prevent processing or drying abnormalities caused by the cup lid 20, thus improving safety during use. Furthermore, the cup lid 20 can share the same sensing magnet 60 in both forward and inverted states, avoiding complex structures for the cup lid 20 and the installation of the detection device 70.

[0064] like Figure 4 As shown, specifically, the food processing machine includes a main unit (not shown) that supports the cup body 10, the cup body 10 being detachably mounted on the main unit; a handle 11 is provided on the side of the cup body 10, the cup lid 20 is provided with a radial protrusion to correspond to the take-up portion 24 above the handle 11, a sensing magnet 60 is mounted on the take-up portion 24, and a detection device 70 is mounted in the handle 11.

[0065] A handle 11 is provided on the side of the cup body 10, making it convenient for users to pick up the cup body 10 for cleaning and pouring. A picking part 24 corresponding to the handle 11 is provided on the cup lid 20, making it convenient to remove and clean the cup lid 20. The handle 11 and picking part 24 provide installation positions for the detection device 70 and the induction magnet 60 without increasing the volume of the cup body 10 and the cup lid 20, thus achieving reasonable use of space and compact structural arrangement.

[0066] In addition, this utility model does not limit the form of the food processing machine, which can be the form of the aforementioned blender.

[0067] Of course, in another embodiment of this utility model, a food processing machine is also provided, specifically a food processing machine that does not require hand washing. The food processing machine includes a main unit that supports the cup body 10. The cup body 10 can be detached or fixedly installed in the main unit. The main unit is also equipped with a water tank that communicates with the cup body 10.

[0068] By incorporating a water tank in the main unit, the cup body 10 is automatically supplied with water, achieving self-cleaning and eliminating the need for hand washing, thus providing convenience for users. Furthermore, after cleaning, the cup body 10 and lid 20 are quickly dried by inverting the lid, making it even more worry-free to use.

[0069] Preferably, in a food processing machine that does not require hand washing, the top of the cup body 10 is partially exposed to the main unit, so that after the cup lid 20 is inverted on the cup body 10, the main unit's obstruction of water vapor discharge is reduced, thereby achieving a rapid drying effect.

[0070] For any parts not mentioned in this utility model, existing technologies can be used or referenced.

[0071] The various embodiments in this specification are described in a progressive manner. The same or similar parts between the various embodiments can be referred to each other. Each embodiment focuses on describing the differences from other embodiments.

[0072] The above are merely embodiments of this utility model and are not intended to limit the scope of this utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principle of this utility model should be included within the scope of the claims of this utility model.

Claims

1. A food processing machine, comprising a cup body, a lid that fits onto the cup body, a stirring assembly disposed within the cup body, and a heating element for heating the cup body, characterized in that, The top of the cup lid is provided with a plurality of recesses arranged circumferentially to form grooves and a limiting part formed between adjacent grooves. The grooves extend to the edge of the cup lid to form a notch. The cup lid has an inverted state in which the limiting part abuts against the cup body to be inverted on the cup body. When the food processing machine is in the drying state, the cup lid is in the inverted state, and the grooves face the inner cavity of the cup and the cup body is connected to the outside through the notch.

2. The food processing machine according to claim 1, characterized in that, The limiting part extends into the cup body and its radially outer end abuts against the inner sidewall of the cup body.

3. A food processing machine according to claim 1 or 2, characterized in that, The limiting part includes a recessed platform located at the edge of the cup lid. The recessed platform has a radially extending horizontal wall and an axially extending vertical wall. When the cup lid is in an inverted state, the vertical wall extends into the cup body and radially limits the cup body's side wall, while the horizontal wall axially supports the cup body.

4. A food processing machine according to claim 1, characterized in that, The limiting part abuts axially against the top of the side wall of the cup body.

5. A food processing machine according to claim 1, characterized in that, The cup lid is also provided with a buffer member fixed to the limiting part. When the cup lid is in an inverted state, the limiting part abuts against the cup body through the buffer member.

6. A food processing machine according to claim 5, characterized in that, The buffer component includes a connecting post, an inlet head integrally connected to both ends of the connecting post with an enlarged outer diameter, and a buffer plug. The limiting part is provided with a mounting hole, the connecting post passes through the mounting hole, and the inlet head and the buffer plug respectively abut against the edges of the mounting hole on both sides.

7. A food processing machine according to claim 6, characterized in that, The outer diameter of the inlet head gradually decreases along the installation direction of the buffer component, and the buffer plug abuts against the cup body when the cup lid is in an inverted state. Alternatively, the mounting hole extends radially through the limiting portion of the cup lid.

8. A food processing machine according to claim 1, characterized in that, The cup body is equipped with a detection device, and the cup lid is equipped with an induction magnet that cooperates with the detection device. When the cup lid is properly closed on the cup body and when the cup lid is in an inverted state, the induction magnet cooperates with the detection device.

9. A food processing machine according to claim 8, characterized in that, The food processing machine includes a main unit that supports the cup body, the cup body being detachably mounted on the main unit; a handle is provided on the side of the cup body, the cup lid is provided with a radial protrusion corresponding to a picking portion above the handle, a sensing magnet is mounted on the picking portion, and a detection device is mounted in the handle.

10. A food processing machine according to claim 1, characterized in that, The food processing machine includes a main unit that supports the cup body, the cup body being detachably or fixedly installed inside the main unit, and the main unit also having a water tank that communicates with the cup body.

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