阅读说明：本技术 杯体组件、主机结构及料理机 (Cup body assembly, host structure and cooking machine ) 是由 罗国华 于 2019-11-29 设计创作，主要内容包括：本发明公开一种杯体组件、主机结构和料理机。其中杯体组件包括：杯体,所述杯体形成有开口,所述杯体为透光材质；和内杯,所述内杯为金属材质,所述内杯包括杯侧板,所述杯侧板设于所述杯体内,并与所述杯体能够拆卸连接。本发明的料理机对食材的加工效率高。(The invention discloses a cup body assembly, a host structure and a food processor. Wherein cup subassembly includes: the cup body is provided with an opening and is made of light-transmitting materials; and the inner cup is made of metal materials and comprises a cup side plate, and the cup side plate is arranged in the cup body and can be detachably connected with the cup body. The food processor disclosed by the invention has high processing efficiency on food materials.)

1. The utility model provides a cup body subassembly, is applied to cooking machine, a serial communication port, cup body subassembly includes:

the cup body is provided with an opening and made of light-transmitting materials; and

the inner cup is made of metal materials and comprises a cup side plate, and the cup side plate is arranged in the cup body and detachably connected with the cup body.

2. The cup body assembly of claim 1, wherein the cup body comprises an upper cup body and a lower cup body, the opening is formed in the upper cup body, a transition section is disposed between the upper cup body and the lower cup body, the lower cup body has a diameter smaller than that of the upper cup body, an upper end of the transition section is connected to a lower end of the upper cup body, and a lower end of the transition section is connected to an upper end of the lower cup body.

3. The cup body assembly of claim 1, further comprising a cup base, wherein a slot is formed between the cup base and an outer side wall of the lower end of the cup body, and the slot is inserted into a coil support of the food processor.

4. The cup assembly of claim 3, the cup holder comprising a holder body and a holder side plate, an inner side of the holder body being threadably connected to an outer sidewall of the lower cup; the seat side plate is connected to the outer side of the seat body; the lower end of the wire coil cover of the food processor is provided with a supporting step corresponding to the seat side plate, and the lower end of the seat side plate is abutted and limited on the supporting step;

and/or, the upper end of the wire coil cover of the food processer is provided with a corresponding seat side plate which is provided with a limit groove, the inner side lower end of the seat body is also provided with an insertion block, and the insertion block is inserted and limited in the limit groove.

5. The cup body assembly of claim 1, wherein one side of the cup side plate is connected with the other side of the cup side plate, which is correspondingly arranged, to form a cylindrical structure.

6. The cup assembly of claim 1, wherein one side of the cup side panel is spaced from a corresponding opposite side of the cup side panel.

7. The cup assembly of claim 1, wherein the cup side plate has a thickness of 0.6mm or more and 1.2mm or less.

8. The cup body assembly of any one of claims 1 to 7, wherein the cup body comprises a bottom wall and a side wall connected to the bottom wall, the opening is disposed in correspondence with the bottom wall, the side wall is disposed in correspondence with the side wall, and the inner cup is detachably connected to the cup body.

9. The cup body assembly of claim 8, wherein the inner surface of the cup side wall is provided with a plurality of turbulence ribs, the end of the cup side plate near the opening is provided with a flange, the flange is provided with a plurality of limiting concave positions, and the turbulence ribs are matched with the limiting concave positions for detachable connection.

10. The cup body assembly of claim 8, wherein the inner cup further comprises a connecting plate disposed at an end of the cup side plate away from the opening, one of the connecting plate and the cup bottom wall having a protrusion and the other having a retaining opening, the inner cup being removably coupled to the cup body by engagement of the protrusion and the retaining opening.

11. The utility model provides a host computer structure, is applied to cooking machine, its characterized in that, the host computer structure includes host computer and coil panel subassembly, the cup body subassembly cup is located to the coil panel subassembly cover outside, and with the cup side board of cup body subassembly corresponds the setting, so that the cup side board can respond to the coil panel subassembly and generate heat, cup body subassembly be any one of claims 1 to 10 cup body subassembly.

12. The host structure of claim 11, wherein the coil disc assembly comprises:

the coil bracket is sleeved outside the cup body;

the coil panel cover is sleeved outside the coil bracket; and

and the coil panel is arranged on the outer side wall of the coil bracket and is positioned between the coil bracket and the coil cover.

13. The host structure of claim 12, wherein a distance between a surface of the coil disk facing the cup side plate and a surface of the cup side plate facing the cup body is 6mm or more and 12mm or less.

14. The host structure of claim 12 or 13, wherein the coil support comprises a main body plate and a mounting plate, the mounting plate is disposed in a ring shape and connected to the main body plate, and the coil disk is disposed on an outer side wall of the mounting plate;

the wire coil cover comprises a cover top wall and a cover side wall extending from the periphery of the cover top wall to one side, the cover top wall is abutted against one side, far away from the main body plate, of the mounting plate, and the cover side wall is abutted against the main body plate;

the main part board the mounting panel the cover roof and the cover lateral wall encloses to close and is formed with the heat dissipation wind channel, the heat dissipation wind channel is equipped with air intake and air outlet, the coil panel is located in the heat dissipation wind channel, the air intake with the air outlet is located the main part board.

15. The host structure of claim 14, wherein the main body plate and the mounting plate form a cup mounting space, the main body plate is provided with a yielding hole and a mounting hole in the cup mounting space, the yielding hole is used for the coupler of the food processor to pass through, the host structure further comprises a connecting piece, and the connecting piece passes through the mounting hole to be used for being fixedly connected with the host of the food processor.

16. The host structure of claim 14, wherein the air inlet and the air outlet are symmetrically disposed along a center of the coil support.

17. The host structure of claim 11, wherein the host comprises a host housing and a main control board assembly, a first heat dissipation air duct is disposed in the host housing, the host housing has a host air inlet and a first host air outlet which are communicated with the first heat dissipation air duct, and the main control board assembly is disposed in the first heat dissipation air duct; the coil panel assembly is connected to the host shell, a coil heat dissipation section is arranged in the coil panel assembly, and the coil heat dissipation section is communicated with the first heat dissipation air duct.

18. The host structure of claim 17, wherein the first cooling air duct comprises an air inlet section and an air outlet section;

the air inlet section is communicated with the main machine air inlet, and the air outlet section is communicated with the first main machine air outlet;

the main control board assembly comprises a main control board and a filter board, the main control board is arranged in the air inlet section, and the filter board is arranged in the air outlet section;

the coil heat dissipation section is communicated with the air inlet section and the air outlet section.

19. The host structure of claim 18, wherein the host further comprises a main control board mounting shell, the main control board mounting shell is disposed in the host housing, the main control board mounting shell is provided with the air inlet section, the main control board is disposed in the main control board mounting shell, the main control board mounting shell is further provided with an air inlet section air inlet and an air inlet section air outlet, the air inlet section air inlet is communicated with the host air inlet, and the air inlet section air outlet is communicated with the coil heat dissipation section;

and/or, the host computer still includes filtering board installation shell, filtering board installation shell is located in the host computer casing, be equipped with in the filtering board installation shell the air-out section, the filtering board install in the filtering board installation shell, filtering board installation shell still is equipped with air-out section air intake and air-out section air outlet, air-out section air intake communicate in the coil heat dissipation section, air-out section air outlet communicate in first host computer air outlet.

20. The host structure of claim 18, wherein the coil tray assembly comprises a coil support, a coil cover and a coil tray, the coil cover is sleeved outside the coil support and encloses with the coil support to form the coil heat dissipation section, and the coil tray is arranged outside the coil support and inside the coil heat dissipation section.

21. The host structure of claim 20, wherein the coil support has a coil heat dissipation section air inlet and a coil heat dissipation section air outlet, the coil heat dissipation section air inlet is connected to the air inlet section, and the coil heat dissipation section air outlet is connected to the air outlet section.

22. The host structure according to any one of claims 17 to 21, wherein a second heat dissipation air duct is further disposed in the host housing, and the host housing is further provided with a second host air outlet communicated with the second heat dissipation air duct;

the host computer still includes the motor, the motor is located in the second heat dissipation wind channel.

23. A food processer, which comprises a main machine structure and a cup body assembly, wherein the main machine structure comprises a main machine and a coil panel assembly, the cup body assembly is arranged at the upper end of the main machine, and the main machine structure is as claimed in any one of claims 11 to 22.

24. The food processor of claim 23, wherein the cup body comprises an upper cup body and a lower cup body, the opening is formed in the upper cup body, a transition section is arranged between the upper cup body and the lower cup body, the diameter of the lower cup body is smaller than that of the upper cup body, the upper end of the transition section is connected with the lower end of the upper cup body, and the lower end of the transition section is connected with the upper end of the lower cup body;

the top end of the cup side plate is lower than or flush with the uppermost end of the transition section;

the cup body assembly further comprises a cup seat, a slot is formed between the cup seat and the outer side wall of the lower end of the cup body, and the slot is inserted into the coil support of the food processor;

the cup seat comprises a seat body and a seat side plate, and the inner side of the seat body is in threaded connection with the outer side wall of the lower cup body; the seat side plate is connected to the outer side of the seat body; the lower end of the wire coil cover of the food processor is provided with a supporting step corresponding to the seat side plate, and the lower end of the seat side plate is abutted and limited on the supporting step;

the upper end of the wire coil cover of the food processor is provided with a limiting groove corresponding to the seat side plate, the lower end of the inner side of the seat body is also provided with an inserting block, and the inserting block is inserted and limited in the limiting groove;

the thickness of the cup side plate is more than or equal to 0.6mm and less than or equal to 1.2 mm;

the surface of the cup side plate, which is away from the cup body, is provided with at least two turbulence ribs, and the at least two turbulence ribs are arranged at intervals in the circumferential direction of the inner cup;

the flow disturbing ribs are long-strip-shaped, and the extending direction of the flow disturbing ribs forms an included angle with the horizontal plane;

the extending directions of the turbulence ribs are the same, and the included angles between the turbulence ribs and the horizontal plane are the same;

the cup side plate is also provided with at least two convection holes at intervals;

the upper end of the cup side plate is provided with a handle part;

one side edge of the cup side plate and the other side edge which is correspondingly arranged are arranged at intervals;

the cup body comprises a cup bottom wall and a cup side wall connected with the cup bottom wall, the opening is arranged corresponding to the cup bottom wall, the cup side plate is arranged corresponding to the cup side wall, and the inner cup and the cup body can be detachably connected;

the coil panel assembly includes:

the coil bracket is sleeved outside the cup body;

the coil panel cover is sleeved outside the coil bracket; and

the coil panel is arranged on the outer side wall of the coil bracket and is positioned between the coil bracket and the coil cover;

the main machine comprises a main machine shell and a main control board assembly, wherein a first heat dissipation air channel is arranged in the main machine shell, a main machine air inlet and a first main machine air outlet which are communicated with the first heat dissipation air channel are formed in the main machine shell, and the main control board assembly is arranged in the first heat dissipation air channel; the coil panel assembly is connected to the host shell, a coil heat dissipation section is arranged in the coil panel assembly, and the coil heat dissipation section is communicated with the first heat dissipation air duct.

Technical Field

The invention relates to the technical field of household appliances, in particular to a cup body assembly, a main machine structure and a food processor.

Background

The food processor integrates the functions of a juice extractor, a soybean milk maker, an ice cream maker, a grinder and the like, completely achieves the multi-purpose function of one machine, and can instantaneously break the cell walls of food and release phytochemicals. Most of the existing food processers are only provided with a cup body for placing food materials, the turbulence ribs arranged on the inner wall of the cup body can only be made into one section of length due to the processing technology of the cup body and can not directly extend to the lower end part of the cup body, and when the food materials are beaten in the cup body, the crushing efficiency is not high, the crushing time is long, so that the whole period for processing the food materials is prolonged.

The above is only for the purpose of assisting understanding of the technical solutions of the present application, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide a cup body assembly and aims to improve the processing efficiency of food materials.

In order to achieve the above object, the present invention provides a cup body assembly for a food processor, the cup body assembly comprising:

the cup body is provided with an opening and is made of light-transmitting materials; and

the inner cup is made of metal materials and comprises a cup side plate, and the cup side plate is arranged in the cup body and detachably connected with the cup body.

The invention also provides a host structure applied to a food processor, the host structure comprises a host and a coil panel component, the coil panel component is sleeved outside the cup body of the cup body component and is arranged corresponding to the cup side plate of the cup body component, so that the cup side plate can induce the coil panel component to generate heat, and the cup body component comprises:

the cup body is provided with an opening and is made of light-transmitting materials; and

the inner cup is made of metal materials and comprises a cup side plate, and the cup side plate is arranged in the cup body and detachably connected with the cup body.

The invention also provides a food processor, which comprises a host structure and a cup body assembly, wherein the host structure comprises a host and a coil panel assembly, the cup body assembly is arranged at the upper end of the host, the coil panel assembly is sleeved outside the cup body of the cup body assembly and is arranged corresponding to the cup side plate of the cup body assembly, so that the cup side plate can induce the coil panel assembly to generate heat, and the cup body assembly comprises:

a cup body formed with an opening; and

the inner cup comprises a cup side plate, and the cup side plate is arranged in the cup body and can be detachably connected with the cup body.

The cup body assembly comprises a cup body and an inner cup arranged in the cup body, wherein the inner cup comprises a cup side plate and can be detachably connected with the cup body. When the food processor works, the food materials in the cup body are in direct contact with the cup side plate to generate friction, so that the cup side plate is added to stir the food materials, the crushing efficiency of the food materials is improved, the crushing time is shortened, and the processing period of the food materials is shortened. In addition, the inner cup and the cup body can be detachably connected, so that the inner cup can be conveniently detached for cleaning after being stirred, and the convenience of cleaning is improved; in addition, when the inner cup is not required to be heated, the inner cup may not be placed. When the inner cup is not arranged in the cup body, a user can select the working state without heating or can automatically judge and execute the working state without heating by arranging the control element.

In order to facilitate a user to observe the processing condition of cup body food, a power supply is timely turned off when the bottom pasting condition occurs, the cup body is made of a light-transmitting material, most of the existing food processers are provided with coil disc assemblies at the bottoms of the cup body assemblies, and when the food processers work, part of food materials can be deposited at the bottoms to influence heat exchange, so that the local temperature of the cup body is high, the food materials can be bonded at the bottoms of the cup bodies to cause the bottom pasting or scorching phenomena of different degrees, and the food taste is greatly influenced; meanwhile, if the bottom pasting phenomenon occurs, the covering formed on the cup body can prevent the heat of the coil disc assembly from being transferred to the slurry, so that the temperature of the cup body is abnormally increased, and even potential safety hazards are caused. Therefore, the cup body is made of transparent materials and is insulated like glass, the inner cup is made of metal, the heat transfer effect is good, food materials in the cup body can be heated conveniently, and the phenomenon that the bottom of the cup body is burnt or scorched is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic partial cross-sectional view of a food processor according to an embodiment of the present invention;

fig. 2 is a schematic partial cross-sectional view of another view of the food processor of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of a cup assembly according to an embodiment of the present invention;

FIG. 5 is a schematic view of the cup assembly of FIG. 4 from another perspective;

FIG. 6 is a schematic view of another embodiment of a cup assembly of the present invention;

FIG. 7 is a schematic view of a still further embodiment of a cup assembly of the present invention;

FIG. 8 is a schematic structural view of a further embodiment of a cup assembly in accordance with the present invention;

FIG. 9 is a schematic structural diagram of a coil panel assembly according to an embodiment of the present invention;

FIG. 10 is a schematic view of another alternate view of the coil disc assembly of the present invention;

FIG. 11 is a schematic diagram of a partially exploded view of the coil disc assembly of FIG. 9;

FIG. 12 is a cross-sectional structural view of the coil disc assembly of FIG. 9 taken along a vertical cross-section;

FIG. 13 is a cross-sectional structural view of the coil disc assembly of FIG. 9;

FIG. 14 is a schematic cross-sectional view of a host structure according to an embodiment of the invention;

FIG. 15 is another cross-sectional view of the host structure of FIG. 14;

FIG. 16 is a top view of a portion of the host structure of FIG. 14;

fig. 17 is a partial structural diagram of the host structure in fig. 14.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides a cup assembly 30, which is applied to a food processor 100, wherein the food processor 100 can be a food processor without a stirring function or a food processor with a stirring function, such as a stirrer or a soybean milk machine.

Referring to fig. 1 to 3, in the embodiment of the present invention, the cup assembly 30 includes:

a cup 31, the cup 31 being formed with an opening 31 a; and

the inner cup 33, the inner cup 33 includes a cup side plate 331, and the cup side plate 331 is disposed in the cup body 31 and detachably connected to the cup body 31.

Specifically, the cup body 31 is formed with an opening 31a, and the opening 31a may be provided at an upper end of the cup body 31 for dispensing the food material and mounting the inner cup 33. The cup body 31 may be made of at least one or two materials selected from glass, ceramic, plastic, metal, etc., as required, but is not limited thereto.

The inner cup 33 includes a cup side plate 331, the cup side plate 331 is disposed inside the cup body 31, i.e. on the bottom wall or the side wall of the cup body 31, and since the food material is whipped in the cup body 31 in a clockwise or counterclockwise direction, in order to reduce the resistance encountered by the food material during the whipping process, the cup side plate 331 is preferably disposed on the bottom wall of the cup body 31. The cup side plate 331 has various shapes. In one embodiment, one side of the cup side plate 331 is connected to the other side of the cup side plate 331 to form a cylindrical structure, the cross section of the cylindrical structure can be circular, oval or square, and the like, so that the contact surface between the food material and the cup side plate 331 is large, and the whipping effect is good. Of course, the number of the cup side plates 331 may be plural, and the plural cup side plates 331 may be provided at intervals in the cup body 31, or the cup side plates 331 may be provided in different sizes of tubular structures, and the cup side plate 331 having a smaller tubular structure size may be fitted in the cup side plate 331 having a larger tubular structure size.

In another embodiment, one side of the cup side plate 331 and the other side thereof are spaced apart, such as a plate, an arc, a semi-arc, or a wave structure, to achieve a better whipping effect on the food material. Of course, the cup side plates 331 can be disposed in a plurality of numbers, and the plurality of cup side plates 331 can be disposed in the cup body 31 at intervals, and are preferably disposed on the bottom wall of the cup body 31, and the arrangement shape of the cup side plates can be cylindrical or array-type, which is all within the protection scope of the patent.

The cup side plate 331 and the cup body 31 can be detachably connected by a connection structure such as a snap connection or a screw, which is not limited herein.

The cup body assembly 30 comprises a cup body 31 and an inner cup 33 arranged in the cup body 31, wherein the inner cup 33 comprises a cup side plate 331 and can be detachably connected with the cup body 31. When the food processor 100 works, the food material in the cup body 31 directly contacts the cup side plate 331 to generate friction, which is equivalent to increasing the cup side plate 331 to stir the food material, so that the crushing efficiency of the food material is improved, the crushing time is reduced, and the processing period of the food material is shortened. In addition, the inner cup 33 and the cup body 31 can be detachably connected, so that the inner cup 33 can be conveniently detached for cleaning after being stirred, and the convenience of cleaning is improved; in addition, when the inner cup 33 is not required to be heated, the inner cup 33 may not be placed. When the inner cup 33 is not arranged in the cup body 31, the user can select the working state without heating or the working state without heating can be automatically judged by arranging the control element.

In an embodiment, in order to facilitate a user to observe the food processing condition of the cup body 31, the power supply is timely turned off when the bottom-burnt condition occurs, the cup body 31 is made of a light-transmitting material, in this embodiment, the glass material is used, because most of the existing food processers 100 set the coil panel assembly 50 at the bottom of the cup body assembly 30, when the food processers 100 work, part of food materials can be deposited at the bottom, heat exchange is affected, the local temperature of the cup body 31 is high, the food materials can be bonded at the bottom of the cup body 31, the bottom-burnt or scorched phenomenon of different degrees is caused, and the taste of the food is significantly affected; meanwhile, if the bottom-sticking phenomenon occurs, the covering formed on the cup body 31 may prevent heat of the coil disc assembly 50 from being transferred to the slurry, causing abnormal temperature rise of the cup body 31 and even potential safety hazard. Therefore, the cup body 31 is made of glass for heat insulation, the inner cup 33 is made of metal, the heat transfer effect is good, food materials in the cup body 31 can be heated conveniently, and the phenomenon that the bottom of the cup body 31 is burnt or scorched is avoided.

Referring to fig. 1 to 3 again, in order to heat the food material in the cup 31 more intensively, the cup 31 includes an upper cup 3101 and a lower cup 3102, the opening 31a is formed in the upper cup 3101, a transition section 3103 is provided between the upper cup 3101 and the lower cup 3102, the diameter of the lower cup 3102 is smaller than that of the upper cup 3101, the upper end of the transition section 3103 is connected to the lower end of the upper cup 3101, and the lower end of the transition section 3103 is connected to the upper end of the lower cup 3102. Wherein, the opening 31a is arranged at the upper end of the upper cup body 3101, the food material is mainly deposited in the lower cup body 3102, and the heating efficiency is high. The junction of the transition section 3103 and the upper and lower cups 3101 and 3102 is smoothly transitioned for easy cleaning. For convenient processing, the upper cup body 3101, the lower cup body 3102 and the transition section 3103 are integrally formed. It is within the scope of the present patent disclosure that the diameter of the transition section 3103 decreases gradually from top to bottom along the axial direction thereof, or the transition section 3103 is configured in a step shape, and is not particularly limited herein.

Further, the diameter of the upper cup 3101 is gradually reduced downward from the opening 31a in the axial direction thereof;

and/or, the diameter of the lower cup 3102 may be constant or gradually decreasing from top to bottom along its axial direction.

In this embodiment, the diameter of the upper cup 3101 is gradually reduced from the opening to the bottom along the axial direction, and when food material is whipped and splashed to the inner wall surface, the food material can quickly slide down to the lower cup 3102, and the whipping is more delicate. Similarly, the diameter of the lower cup 3102 is constant or gradually reduced from top to bottom along the axial direction thereof.

Further, in order to achieve rapid heating of the area covered by the cup side plate 331, the top end of the cup side plate 331 is lower or flush with the uppermost end of the transition section 3103. The purpose of this arrangement is to enable the user to observe the stirring process without the cup side plate 331 obstructing the view, and without the need of the probe to the opening 31a to observe the stirring status, which is safer and more user-friendly.

Furthermore, when the food processor 100 is in an operating state, in order to ensure the operating stability, the cup body assembly 30 further includes a cup seat 32, and the cup seat 32 is in threaded connection with the outer wall surface of the lower cup body 3102. That is, the cup holder 32 is provided with an internal thread, the outer wall surface of the lower cup 3102 is provided with an external thread, and the external thread and the internal thread are matched to realize threaded connection.

Referring to fig. 3 again, in an embodiment, in order to ensure the aesthetic appearance of the whole machine, a slot 40 is formed between the cup seat 32 and the outer side wall of the lower end of the cup body 31, and the slot 40 is inserted into the coil bracket 51 of the food processor 100.

Further, in order to prevent the relative rotation between the cup holder 32 and the cup 31, the cup holder 32 includes a holder body 321 and a holder side plate 323, and the inner side of the holder body 321 is screwed to the outer side wall of the lower cup 3102; the seat side plate 323 is connected to the outer side of the seat body 321; the lower end of the wire coil cover 53 of the food processor 100 is provided with a supporting step 535 corresponding to the seat side plate 323, and the lower end of the seat side plate 323 abuts against and is limited on the supporting step 535;

and/or, the upper end of the wire coil cover 53 of the food processor 100 is provided with a corresponding seat side plate 323 is provided with a limiting groove 5313, the inboard lower end of the seat body 321 is further provided with an inserting block 3211, the inserting block 3211 is inserted and limited in the limiting groove 5313 to ensure the firmness of connection between the cup holder 32 and the coil cover 53.

It can be appreciated that the arrangement of the supporting step 535 increases the abutting area of the coil disc assembly 50 and the cup assembly 30, and can enhance the supporting capability of the coil disc assembly 50 to the cup assembly 30, thereby improving the stability of the connection between the coil disc assembly 50 and the cup assembly 30. The limiting groove 5313 is arranged to limit the circumferential direction of the cup body assembly 30, so that the cup body assembly 30 can be prevented from rotating when the food processor 100 works. The limiting structure of the supporting step 535 arranged between the cup holder 32 and the wire coil cover 53, and the structure of the inserting block 3211 and the limiting groove 5313 arranged between the cup holder 32 and the wire coil cover 53 can be alternatively arranged or simultaneously arranged, which are all within the protection scope of the patent.

Referring to fig. 4 to 8, the surface of the cup side plate 331 facing away from the cup body 31 is provided with at least two turbulence ribs 3311, and the turbulence ribs 3311 are arranged at intervals in the circumferential direction of the inner cup 33.

In this embodiment, the surface that deviates from cup 31 at cup curb plate 331 is equipped with two at least vortex muscle 3311, vortex muscle 3311 is protruding structure, if circular arch or square protruding etc., when stirring knife tackle spare 70 in cooking machine 100 rotates at a high speed, edible material in the cup 31 is along cup inner wall clockwise or anticlockwise rotation, two at least vortex muscle 3311 sets up in the ascending interval of circumference of interior cup 33, when eating the material and touch vortex muscle 3311, eat the material and become the wadding stream by the laminar flow, the collision probability of eating material and stirring knife tackle spare 70 has been increased, and then the crushing efficiency of cooking machine 100 has been improved, the preparation time of drink has been shortened.

Further, in order to improve the fineness of the food material whipping, the turbulence rib 3311 is shaped like a long strip, and the extending direction of the turbulence rib 3311 and the horizontal plane form an included angle. Wherein, the horizontal plane is a plane parallel to the cross section of the inner cup 33, and the extending direction of the turbulence rib 3311 forms an included angle of 0 degree to 180 degrees with the horizontal plane, excluding 0 degree and 180 degrees.

Referring to fig. 4 to 8, a plurality of the spoiler ribs 3311 extend in the same direction and have the same included angle with the horizontal plane.

In this embodiment, the extending directions of the plurality of turbulence ribs 3311 are set to be the same, and the included angles with the horizontal plane are the same, which is beneficial to the food material to be stirred more uniformly in the cup body 31. Referring to fig. 4 to 7, the turbulence rib 3311 is disposed at an obtuse angle with respect to the horizontal plane, and referring to fig. 8, the turbulence rib 3311 is disposed perpendicular to the horizontal plane, but in other embodiments, the turbulence rib 3311 may be disposed at other angles with respect to the horizontal plane.

Referring to fig. 7, the cup side plate 331 is further provided with at least two convection holes 3313 at intervals.

In this embodiment, when the food processor 100 works, the stirring blade assembly 70 rotates at a high speed, the food material in the cup body 31 rotates clockwise or counterclockwise along the inner wall of the cup, and the food material between the cup side plate 331 and the cup body 31 is sucked into the inner cup 33 from the convection hole 3313, so that the food material and the stirring blade assembly 70 collide with each other more, the crushing efficiency of the whole machine is improved, and the making time of the beverage is shortened.

The cup side plate 331 is further spaced apart to be provided with at least two convection holes 3313, and the relative position relationship between the convection holes 3313 and the spoiler ribs 3311 may be spaced apart, for example, the convection holes 3313 are annularly arranged at the upper end or the lower end of the spoiler ribs 3311, so that the space in the inner cup 33 is layered as follows: convection current is carried out from the troposphere again to the edible material after the grinding layer fully grinds to troposphere and grinding more evenly. Or the turbulence rib 3311 is provided with convection holes 3313 for grinding and realizing convection. In order to improve the beating effect, the convection holes 3313 are uniformly formed in the cup side plate 331, and in this embodiment, the convection holes 3313 are formed in two rows and are uniformly spaced at the upper and lower ends of the cup side plate 331. The shapes of the convection holes 3313 may be the same or different and are not limited herein.

Further, at least one of the convection holes 3313 has a circular shape;

and/or, wherein at least one of the convection holes 3313 is oval-shaped.

In this embodiment, since the food material continuously flows in and out of the convection holes 3313, in order to reduce the abrasion of the food material to the convection holes 3313, at least one of the convection holes 3313 is disposed in a circular or elliptical shape, and the inner walls of the circular or elliptical convection holes are smoothly transited, thereby increasing the flowing speed of the food material and facilitating the improvement of the pulverizing efficiency of the whole machine.

Referring to fig. 4 to 8, a handle 333 is provided at an upper end of the inner cup 33.

In this embodiment, in order to facilitate the user to take the inner cup 33 out of the cup body 31 for cleaning, a handle part 333 is arranged at the upper end of the inner cup 33, and the handle part 333 may be an arc-shaped handle matched with the shape of a hand of a person, so as to facilitate the user to grasp. A rotating fit structure of a rotating shaft and a shaft hole is arranged between the handle part 333 and the inner cup 33, and when the inner cup 33 needs to be taken out, the handle part 333 is rotated, so that a user can grasp the inner cup conveniently. When the inner cup 33 is placed in the cup body 31, the handle part 333 is rotated to retract the handle part 333 without interfering with processing of the food material.

Referring to fig. 3, the thickness of the cup side plate 331 is 0.6mm or more and 1.2mm or less.

In this embodiment, when the thickness of the cup side plate 331 is smaller than 0.6mm, the thickness is too thin, the processing time of the food material is long due to the same number of coils, and the crushing efficiency is not high. When the thickness of the cup side plate 331 is greater than 1.2mm, not only the cost is high but also the heating efficiency is low. Therefore, the thickness of the cup side plate 331 is preferably set to be equal to or greater than 0.6mm and equal to or less than 1.2mm, and optionally, the thickness of the cup side plate 331 is equal to or greater than 0.8mm and equal to or less than 1.0 mm.

Referring to fig. 3, the cup body 31 includes a bottom wall 311 and a side wall 313 connected to the bottom wall 311, the opening 31a is disposed corresponding to the bottom wall 311, the side wall 331 is disposed corresponding to the side wall 313, and the inner cup 33 is detachably connected to the cup body 31.

In this embodiment, the cup body 31 includes a bottom wall 311 and a side wall 313, and the opening 31a is disposed corresponding to the bottom wall 311, that is, the opening 31a at least partially corresponds to or entirely corresponds to the bottom wall 311, so that the inner cup 33 is conveniently mounted on the cup body 31. Cup curb plate 331 and cup lateral wall 313 correspond the setting, have certain clearance between cup curb plate 331 and the cup lateral wall 313 promptly, both can at least part correspond or whole correspond, conveniently stir the edible material in addition, interior cup 33 can be dismantled with cup 31 and be connected, should dismantle connected mode be connected modes such as buckle connection or screw, do not do the restriction here, conveniently dismantle interior cup 33 and come out and wash, and when need not heat cup 31, can take out interior cup 33.

Further, in an embodiment, in order to limit the space between the inner cup 33 and the cup body 31, the inner cup 33 further includes a connecting plate 335, the connecting plate 335 is disposed at an end of the cup side plate 331 away from the opening 31a, one of the connecting plate 335 and the cup bottom wall 311 is provided with a protrusion 3111, the other is provided with a limit opening 3351, and the inner cup 33 is detachably connected to the cup body 31 through the engagement of the protrusion 3111 and the limit opening 3351.

In this embodiment, the connecting plate 335 is disposed at an end of the cup side plate 331 away from the opening 31a, the connecting plate 335 is disposed with a protrusion 3111, and the cup bottom wall 311 is disposed with a limiting opening 3351, or the connecting plate 335 is disposed with a limiting opening 3351, and the cup bottom wall 311 is disposed with a protrusion 3111, so as to achieve detachable connection therebetween. Referring to fig. 4, 5, 7 and 8, the cup side plate 331 and the connecting plate 335 may be integrally formed, such as integrally stretched, to save the production cost. Or the cup side plate 331 and the connecting plate 335 are connected in a separate manner, for example, by welding, and the processing is convenient, referring to fig. 6, a welding portion 3317 is provided at a welding position between the cup side plate 331 and the connecting plate 335 to enhance the connecting strength between the cup side plate 331 and the connecting plate 335.

In another embodiment, the inner surface of the cup side wall 313 is provided with a plurality of turbulence ribs, the end of the cup side plate 331 close to the opening 31a is provided with a flange, the flange is provided with a plurality of limiting concave positions, and the turbulence ribs are matched with the limiting concave positions for detachable connection.

The invention further provides a host structure, which includes a host 10 and a coil panel assembly 50, wherein the coil panel assembly 50 is sleeved outside the cup body 31 of the cup body assembly 30 and is arranged corresponding to the cup side plate 331 of the cup body assembly 30, so that the cup side plate 331 can induce the coil panel assembly 50 to generate heat, the specific structure of the cup body assembly 30 refers to the above embodiments, and as the host structure adopts all technical solutions of all the above embodiments, the host structure at least has all beneficial effects brought by the technical solutions of the above embodiments, and further description is omitted.

Referring to fig. 1 to 3 and 9 to 13, the coil disc assembly 50 is sleeved outside the cup body 31 of the cup body assembly 30 and is disposed corresponding to the cup side plate 331 of the cup body assembly 30, and the coil disc assembly 50 is disposed corresponding to at least a part of or all of the cup side plate 331, so that the cup side plate 331 can induce the coil disc assembly 50 to generate heat to heat the cup side plate 331. Coil disc subassembly 50 carries out electromagnetic heating to cup curb plate 331 to the edible material to in the cup 31 heats, not only can realize electromagnetic heating, can take out the washing moreover, improves and washs the convenience.

Referring to fig. 9 to 13, the coil disk assembly 50 includes:

the coil bracket 51 is sleeved outside the cup body 31;

a coil cover 53 fitted to the outside of the coil holder 51; and

and a coil disk 55 disposed on an outer side wall of the coil support 51 and between the coil support 51 and the coil cover 53.

In this embodiment, the coil support 51 is mainly used for mounting the coil disc 55, and in order to enable the coil support to be better matched with the cup body 31 when the coil support is applied to the food processor 100, the projection of the coil support 51 may have a circular structure so as to surround the outer side of the cup body 31 and heat the cup side plate 331. The coil panel cover 53 is mainly used to prevent the coil panel 55 from being exposed to the outside, and protect the coil panel 55. Meanwhile, the wire coil cover 53 is matched with the coil support 51 to form a heat dissipation air duct 57 so as to dissipate heat of the coil panel 55 in the heat dissipation air duct 57, and damage of the coil panel 55 due to excessive heat during working is avoided. The wire coil cover 53 may be made of non-magnetic material, such as plastic, and the plastic can withstand a certain temperature and is not easily deformed and aged. The projection may also be a circular structure.

This coil panel assembly 50 is through locating coil panel 55 in coil bracket 51's lateral wall, it is further, the lateral wall of lower cup 3102 is located to coil bracket 51 cover, when this coil panel assembly 50 is applied to cooking machine 100, can heat cup curb plate 331 in cooking machine 100, with the heating area of increase coil panel assembly 50 to cup curb plate 331, make cup curb plate 331 can absorb the produced heat of coil panel assembly 50 fast, improve the heating effect of coil panel assembly 50 to cup curb plate 331, thereby can reduce the required time of heating, improve the convenience that cooking machine 100 used. In addition, the wire coil cover 53 and the coil support in the scheme enclose and close to form a heat dissipation air duct 57, and the coil disc 55 is arranged in the heat dissipation air duct 57. Through this heat dissipation wind channel 57 can be timely dispel the heat to coil panel 55, avoid coil panel subassembly 50 during operation to lead to damaging because it is too big to generate heat to the life of cooking machine 100 has been improved.

Referring to fig. 3, a distance between a surface of the coil disk 55 facing the cup side plate 331 and a surface of the cup side plate 331 facing the cup body 31 is 6mm or more and 12mm or less.

In this embodiment, the distance between the surface of the coil panel 55 facing the cup side plate 331 and the surface of the cup side plate 331 facing the cup body 31 is D, and when D is smaller than 6mm, if the same heating efficiency needs to be achieved, the number of the coil panels 55 needs to be increased, which not only has high cost but also means that the wall thickness of the cup side wall 313 needs to be thinner, so that the strength of the cup body 31 is not good and is easily damaged by external force and stirring force during machine operation. In addition, when D is greater than 12mm, since the space where the magnetic field generated by energizing the coil panel 55 is located is limited, the distance between the surface of the coil panel 55 facing the cup side wall 313 and the surface of the inner cup 33 facing the cup side wall 313 is too large, so that the inner cup 33 is located at the edge zone of the magnetic field, the reverse current of the coil is increased, the heating power cannot be increased, and the heating efficiency is low. Therefore, the distance D between the surface of the coil panel 55 facing the cup body 31 and the surface of the inner cup 33 facing the cup body 31 is set to be greater than or equal to 6mm, and preferably less than or equal to 12mm, and optionally, the value of D is greater than or equal to 8mm, and less than or equal to 10 mm.

Referring to fig. 10 to 13, the coil disk 55 includes a magnetic core 551 and a coil 553;

the magnetic core 551 is arranged on the outer side wall of the coil bracket 51;

the coil 553 is enclosed on the outer side wall of the coil support 51 and is located between the magnetic core 551 and the coil support 51.

In this embodiment, the electromagnetic heating mode does not need to indirectly heat the coil disk assembly through a heat conduction mode, so that the heat loss can be reduced, the heating effect of the coil disk assembly 50 is greatly improved, and the time required by heating is reduced. And the setting of magnetic core 551 can carry out separation and shielding with the magnetic field of the outside production of coil 553, has avoided producing the influence to other magnetic conduction metal parts that need not to produce heat in cooking machine 100, so can reduce other calorific capacity that need not to produce calorific magnetic conduction metal parts in cooking machine 100 to reduce the useless work heat that cooking machine 100 during operation produced.

In one embodiment, the outer side wall of the coil support 51 is concavely provided with a connection groove 5111, the connection groove 5111 is disposed corresponding to the magnetic core 551, and the magnetic core 551 is at least partially inserted into the connection groove 5111.

The magnetic core 551 is detachably coupled to the coil support 51 by the coupling groove 5111, simplifying the process of assembling and disassembling the two, thereby improving the efficiency of assembling and disassembling a worker. Specifically, when the magnetic core 551 is inserted into the connecting groove 5111, the assembly of the magnetic core 551 and the coil support 51 is completed; when the core 551 is inserted into and pulled out from the connecting groove 5111, the core 551 and the core 551 of the coil holder 51 and the coil holder 51 are completely detached. Meanwhile, the arrangement of the connection groove 5111 also eliminates the need for separately providing a fixing structure to fix the magnetic core 551 to the coil support 51, simplifies the connection structure of the magnetic core 551 and the coil support 51, and can reduce the manufacturing cost of the coil disk assembly 50. The aperture of the connecting groove 5111 may be square, or may be circular, which is not limited in this application, and when the magnetic core 551 is inserted into the connecting groove 5111, the groove wall of the connecting groove 5111 can be ensured to abut against the magnetic core 551, so as to limit the abutment against the magnetic core 551.

In one embodiment, the longitudinal section of the core 551 is U-shaped, I-shaped or L-shaped.

It can be understood that, when the longitudinal section of the magnetic core 551 is U-shaped, I-shaped or L-shaped, the top, bottom or outer peripheral side of the coil 553 between the magnetic core 551 and the coil support can be wrapped, that is, the top, bottom or outer peripheral side of the coil 553 has magnetic isolation and shielding effects, thereby better reducing the heat generated by other magnetic conductive metal parts which do not need to generate heat in the food processor 100, and further reducing the useless heat generated during the operation of the food processor 100. Meanwhile, when the longitudinal section of the magnetic core 551 is U-shaped, I-shaped, or L-shaped, a gap is formed between the magnetic core 551 and the outer sidewall of the coil holder 51 to provide a space for installing the coil 553, thereby facilitating the installation of the coil 553 therebetween. Further, the magnetic core 551 thus provided is inserted into the connection groove 5111 by the projection of the end portion, so that there is no need to provide an insertion structure corresponding to the connection groove 5111 on the magnetic core 551.

Referring to fig. 11 and 12, in an embodiment of the invention, a winding slot 5131 is concavely formed on an outer side wall of the coil support 51, and the coil 553 is disposed in the winding slot 5131.

It can be understood that the winding groove 5131 has a limiting effect on the coil 553, and the coil 553 is prevented from moving in the height direction of the coil support 51, so that the coil 553 can stably surround the outer sidewall of the coil support 51. The distance between two opposite sidewalls of the winding groove 5131 is substantially the same as the diameter of the coil 553, so as to ensure the limiting effect of the winding groove 5131 on the coil 553.

Referring to fig. 11 and 12, in an embodiment of the invention, at least two protruding plates 5133 are protruded from an outer side wall of the coil bracket 51, and the adjacent two protruding plates 5133 and the outer side wall of the coil bracket 51 surround to form a winding slot 5131.

It can be understood that the winding groove 5131 is formed by the protruding plate 5133 protruding from the outer side wall of the coil support 51, so that it is not necessary to form a groove in the coil support 51 to form the winding groove 5131, thereby ensuring that the coil support 51 has a certain supporting strength and prolonging the service life of the coil support 51. In order to improve the stability of the installation of the coil 553, the projection 5133 may be provided with a plurality of sets, wherein each set of the projection 5133 includes at least two projections 5133 to form the winding groove 5131 around the outer side wall of the coil support 51, and the plurality of sets of the projections 5133 are annularly provided around the outer side of the coil support 51 and are evenly spaced around the center of the coil support 51. In this way, the winding grooves 5131 formed by the two adjacent flanges 5133 in each group have a load-bearing effect on each part of the coil 553.

In an embodiment of the present invention, there are a plurality of magnetic cores 551, and the plurality of magnetic cores 551 are disposed on the outer side wall of the coil support 51 and are evenly distributed around the center of the coil support 51; the outer side wall of the coil support 51 is concavely provided with a plurality of winding grooves 5131, the plurality of winding grooves 5131 are evenly distributed along the height direction of the coil support 51 at intervals, and each winding groove 5131 is internally provided with a coil 553.

It is understood that the coil 553 surrounds the coil support 51 to form a ring shape, and the uniform distribution of the plurality of magnetic cores 551 may have a magnetic field isolating effect everywhere of the coil 553 having the ring shape, so as to improve a blocking and shielding effect of the magnetic cores 551 on a magnetic field generated outside the coil 553. And the plurality of winding grooves 5131 are provided so that the coil 553 may be wound a plurality of times outside the coil support 51, increasing the magnetic flux of the coil disk assembly 50, so that the heating efficiency of the coil disk assembly 50 may be improved. In one embodiment of the present invention, at least six magnetic cores 551 are provided to ensure their effect on isolating the magnetic field from the coil 553, specifically: the number of cores 551 may be six, seven, eight, or the like; the number of the winding grooves 5131 is at least ten to ensure that the coil support can wind the coil 553 for a plurality of turns with a good heating effect, specifically: the number of winding slots 5131 may be ten, eleven, twelve, etc., and the specific number of the core 551 and the winding slots 5131 is not limited in the present application.

Further, referring to fig. 12, at least one group of winding slots 5131 includes two layers of coils 553, and the two layers of coils 553 are sequentially distributed from the slot bottom wall of the winding slot 5131 to the opening direction of the winding slot 5131.

It will be appreciated that the provision of the two layers of coils 553 in a limited space increases the number of windings of the coils 553 outside the coil support, thereby further improving the heating effect of the coil disc assembly 50. In order to ensure uniform heating of the coil disk assembly 50, the number of layers of the coils 553 in the winding grooves 5131 located on both sides in the height direction of the coil support is the same.

Referring to fig. 11, in an embodiment of the present invention, the coil support 51 includes a main body plate 511 and a mounting plate 513, the mounting plate 513 is disposed in a ring shape and connected to the main body plate 511, and the coil disc 55 is disposed on an outer side wall of the mounting plate 513; the wire reel cover 53 includes a cover top wall 531 and a cover sidewall 533 extending from a peripheral edge of the cover top wall 531 to one side, the cover top wall 531 abuts on a side of the mounting plate 513 away from the main body plate 511, and the cover sidewall 533 abuts on the main body plate 511; the main body plate 511, the mounting plate 513, the cover top wall 531 and the cover side wall 533 enclose to form a heat dissipation air duct 57, the heat dissipation air duct 57 is provided with an air inlet 571 and an air outlet 573, the coil panel 55 is located in the heat dissipation air duct 57, and the air inlet 571 and the air outlet 573 are arranged on the main body plate 511.

The projections of the main body plate 511, the mounting plate 513 and the hood top wall 531 on the horizontal plane are all arranged in a circle. So that coil bracket 51 carries out even heating to cooking machine 100's cup subassembly 30 when being applied to cooking machine 100, simultaneously, so set up the size that has also reduced coil panel subassembly 50 occupation space. The main body plate 511, the mounting plate 513, the cover top wall 531 and the cover side wall 533 enclose the heat dissipation air duct 57, so that the processing complexity of the heat dissipation air duct 57 can be reduced, the structure of the forming mold can be reduced, and the service life of the mold can be prolonged. Further, the coil support 51 further includes a blocking plate 515, the blocking plate 515 is disposed on a side of the mounting plate 513 away from the main body plate 511, and the coil panel 55 abuts between the blocking plate 515 and the main body plate 511, that is, the blocking plate 515 and the mounting plate 513 surround the main body plate 511 to form an accommodating space for accommodating the coil panel 55. At this time, the blocking plate 515 and the main body plate 511 may be respectively provided with a connection groove 5111 to limit and fix the upper and lower ends of the magnetic core 551 of the coil panel 55, thereby improving the stability of the installation of the coil panel 55. At least two protruding plates 5133 are protruded from the outer sidewall of the mounting plate 513, and a winding slot 5131 is formed by the surrounding of the two neighboring protruding plates 5133 and the outer sidewall of the mounting plate 513, so as to ensure that the coil 553 in the coil panel 55 stably surrounds the outer sidewall of the mounting plate 513. In an embodiment of the present invention, in order to improve the production efficiency, the cover top wall 531 and the cover side wall 533 may be provided as an integral structure; and/or, the main body plate 511, the mounting plate 513, and the blocking plate 515 may be provided as a unitary structure. Of course, the present application is not limited thereto, and in other embodiments, in order to avoid local damage and require replacement of the whole, the cover top wall 531 and the cover side wall 533 may be provided in a split structure; and/or, the main body plate 511, the mounting plate 513 and the blocking plate 515 may be provided in a separate structure.

Referring to fig. 3, 9 to 11 again, the main body plate 511 and the mounting plate 513 form a cup mounting space 80, the main body plate 511 is provided with an abdicating hole 5113 and a mounting hole 5115 located in the cup mounting space 80, the abdicating hole 5113 is used for the coupler 60 of the food processor 100 to pass through, the host structure further includes a connector, and the connector passes through the mounting hole 5115 for being fixedly connected with the host of the food processor 60.

In an embodiment of the invention, the main body plate 511 and the mounting plate 513 form a cup body mounting space 80, the main body, 511 is provided with an abdicating hole 5113 and a mounting hole 5115 which are located in the cup body mounting space 80, the abdicating hole 5113 is used for the coupler 60 of the food processor 100 to pass through, the main body structure further includes a connecting member (not shown) which passes through the mounting hole 5115 for being fixedly connected with a main body of the food processor 100, and the connecting member may be a screw. Specifically, the main housing 11 of the main unit 10 may be provided with an internal threaded hole, and an external thread may be provided on an outer side of the connector, which passes through the mounting hole 5115 and is engaged with the internal threaded hole to detachably connect the coil panel assembly 50 to the main housing 11. It can be understood that the threaded connection is simple and reliable, so that the detachable connection of the coil panel assembly 50 and the main machine housing 11 is ensured, the dismounting process of the coil panel assembly and the main machine housing is simplified, and the assembling efficiency of the main machine 10 is improved. Of course, the present application is not limited thereto, and in other embodiments, the main housing 11 may be provided with a fastening hole, and the connecting element passes through the mounting hole 5115 and is snapped into the fastening hole, so that the coil disc assembly 50 is detachably fastened to the main housing 11. In an embodiment of the invention, one side of the blocking portion facing the top wall is concavely provided with a mounting groove 5151, one side of the top wall facing the blocking portion is convexly provided with a limiting block 5311, and the limiting block 5311 is arranged corresponding to the mounting groove 5151 and is inserted into the mounting groove 5151.

It can be understood that the limiting block 5311 and the mounting groove 5151 are matched to limit the coil panel 55 and the coil cover 53 from rotating relatively after being mounted, so that the stability of the coil panel 55 after being mounted and the coil cover 53 is improved. Further, the one side that the stop part deviates from the main body plate 511 is concavely provided with a limiting groove 53133, and the limiting groove 53133 is used for preventing the cup body assembly 30 from rotating when the coil disc assembly 50 is connected with the cup body assembly 30 of the food processor 100, so as to ensure that the cup body assembly 30 normally and stably works. The limiting groove 53133 and the limiting block 5311 may be disposed at upper and lower sides of the blocking portion.

Referring to fig. 12, in an embodiment of the present invention, the air inlet 571 and the air outlet 573 are symmetrically disposed along the center of the coil support 51.

It can be understood that the air flow flows from the air inlet 571 into the air duct 57, and then flows along the contour of the coil support 51, and then flows out to the air outlet 573. Because the air inlet 571 and the air outlet 573 are symmetrically arranged along the center of the coil support 51, the flow paths of the two heat dissipation air flows are the same, and the stability of the flow of the two heat dissipation air flows and the homogenization of the heat carried by the two heat dissipation air flows to the coil 553 are ensured.

Referring to fig. 2, the main body structure of the food processor 100 of the present invention includes a main body 10 and a coil panel assembly 50, wherein the main body 10 includes a main body housing 11, the coil panel assembly 50 is installed in the main body housing 11, and the coil panel assembly 50 may be clamped in the main body housing 11, or one of a coil support 51 and a coil cover 53 in the coil panel assembly 50 is connected to the main body housing 11, or both the coil support 51 and the coil cover 53 in the coil panel assembly 50 are connected to the main body housing 11. In addition, an air inlet section 1111 and an air outlet section 1112 may be disposed in the main housing 11, wherein the air inlet section 1111 is connected to the air inlet 571 of the coil panel assembly 50, and the air outlet section 1112 is connected to the air outlet 573 of the coil panel assembly 50.

Referring to fig. 14, the main body structure includes a main body 10 and a coil panel assembly 50; the host 10 includes a host housing 11 and a main control board assembly 13, a first heat dissipation air duct 111 is disposed in the host housing 11, the host housing 11 is provided with a host air inlet 116 and a first host air outlet 117a communicated with the first heat dissipation air duct 111, and the main control board assembly 13 is disposed in the first heat dissipation air duct 111; the coil panel assembly 50 is connected to the main housing 11, a coil heat dissipation section 50a is disposed in the coil panel assembly 50, and the coil heat dissipation section 50a is communicated with the first heat dissipation air duct 111.

In an embodiment of the present invention, the main housing 11 encloses a cavity of the main housing 10, so as to accommodate components inside the main housing 10 in the cavity. The motor comprises a ring-shaped shell 112, a motor bracket 113 arranged in the shell 112, a base 114 arranged at the lower end of the shell 112 and a bottom cover 115 covering the bottom of the base 114. By dividing the main housing 11 into several parts, each part of the main housing 11 can be manufactured independently, thereby reducing the complexity of processing the main housing 11. In addition, in order to avoid the influence of the airflow flowing out of the first host outlet 117a on the user, the first host outlet 117a may be disposed on a side of the host housing 11 where a control panel (not shown) is not disposed. In order to increase the intake of the cooling air, the main housing 11 may have two or more main inlets 116, which are respectively located on the side surface or the bottom surface of the main housing 11.

It can be understood that the first heat dissipation air duct 111 is provided in the main machine housing 11, and the main control board assembly 13 is provided in the first heat dissipation air duct 111. Meanwhile, a coil heat dissipation section 50a communicated with the first heat dissipation air duct 111 is provided in the coil disc assembly 50. When cooling air enters the first heat dissipation air duct 111 from the main air inlet 116, heat exchange cooling can be performed on the main control board assembly 13 located in the first heat dissipation air duct 111. And because coil heat dissipation section 50a communicates in first heat dissipation wind channel 111 for this cooling air can get into coil heat dissipation section 50a from first heat dissipation wind channel 111, and carries out the heat transfer cooling to coil disc subassembly 50, discharges by first host computer air outlet 117a again, thereby accomplishes the heat dissipation to the cooking machine. In the scheme, the main control board assembly 13 and the coil panel assembly 50 can be simultaneously cooled through the first cooling air duct 111 and the coil cooling section 50a, so that the number of air ducts is reduced, and the air duct path is simplified. So guaranteed that the cooling air has very fast circulation speed in the wind channel to improve cooking machine's radiating effect, prolonged cooking machine's life.

In an embodiment of the present invention, the first heat dissipation air duct 111 includes an air inlet section 1111 and an air outlet section 1112; the air inlet section 1111 is connected to the host air inlet 116, and the air outlet section 1112 is connected to the first host air outlet 117 a; the main control board assembly 13 comprises a main control board 131 and a filter board 133, the main control board 131 is arranged in the air inlet section 1111, and the filter board 133 is arranged in the air outlet section 1112; the coil heat dissipation section 50a is connected to the air inlet section 1111 and the air outlet section 1112.

It can be understood that, set main control panel assembly 13 to main control panel 131 and filter plate 133 to be located respectively in income wind section 1111 and air-out section 1112, can increase main control panel assembly 13 and the area of contact of cooling air, improve the heat transfer cooling effect of cooling air to main control panel assembly 13. Wherein, the section 1111 and the air-out section 1112 of intaking can set up in the interval in shell 112 to make the cooling air uniflow have higher circulation speed, thereby guarantee the radiating effect to main control board 131 and filter plate 133. Further, the air inlet section 1111 and the air outlet section 1112 may be disposed in the housing 112 and extend in the vertical direction, and the coil disc assembly 50 is disposed above the air inlet section 1111 and the air outlet section 1112, that is, the coil heat dissipation section 50a in the coil disc assembly 50 is located above the air inlet section 1111 and the air outlet section 1112. Therefore, the times of changing the flow paths of the cooling air in the first heat dissipation air duct 111 and the coil heat dissipation section 50a can be reduced, and the circulation speed of the cooling air in the coil heat dissipation section 50a in the first heat dissipation air duct 111 is ensured.

Referring to fig. 14 and 17, in an embodiment of the present invention, the host 10 further includes a main control board mounting shell 14, the main control board mounting shell 14 is disposed in the host casing 11, an air inlet section 1111 is disposed in the main control board mounting shell 14, the main control board 131 is disposed in the main control board mounting shell 14, the main control board mounting shell 14 further has an air inlet section 141 and an air inlet section air outlet 142, the host casing 11 further has a host air inlet 116, the air inlet section 141 is communicated with the host air inlet 116, and the air inlet section air outlet 142 is communicated with the coil heat dissipation section 50a and the coil heat dissipation section 50 a.

It can be understood that the main control panel mounting case 14 is arranged to guide and collect the cooling air flowing into the air inlet section 1111, so as to ensure that a large amount of cooling air flows through the main control panel 131 and exchanges heat with the main control panel 131, thereby improving the heat dissipation effect of the main control panel 131. Meanwhile, the main control board mounting shell 14 also has a certain protection effect on the main control board 131, so that the main control board 131 is prevented from being damaged due to extrusion of the outer shell 112. Of course, the present application is not limited thereto, and in other embodiments, the wind inlet section 1111 may also be formed by the enclosure 112 and the motor bracket 113 in the main machine housing 11. Further, the main control panel mounting case 14 may be detachably coupled to the motor bracket 113 so that it can be repaired and replaced when a partial damage occurs. Specifically, the main control board mounting case 14 may be connected to the motor bracket 113 of the main machine casing 11 by screws or snaps, etc. to simplify the assembly and disassembly processes of several people and improve the assembly and disassembly efficiency. In addition, in order to facilitate the formation of the air inlet section 1111, the main control panel mounting case 14 may include a first cover plate 143 and a second cover plate 144 connected to each other, and the air inlet section 1111 is enclosed by the first cover plate 143 and the second cover plate 144; or the main control board mounting shell 14 is set into an upper section and a lower section which are communicated, and the upper section and the lower section of the main control board mounting shell 14 are communicated to form the air inlet section 1111, which is not limited in the present application. In order to increase the amount of air flowing from the main air inlet 116, at least two main air inlets 116 may be provided, and are disposed adjacent to the air inlet 141.

In an embodiment of the present invention, the host 10 further includes a filter mounting housing 15, the filter mounting housing 15 is disposed in the host housing 11, an air outlet section 1112 is disposed in the filter mounting housing 15, the filter 133 is mounted in the filter mounting housing 15, the filter mounting housing 15 further includes an air outlet section air inlet 151 and an air outlet section air outlet 152, the host housing 11 further includes a first host air outlet 117a, the air outlet section air inlet 151 is communicated with the coil heat dissipation section 50a, and the air outlet section air outlet 152 is communicated with the first host air outlet 117 a.

It can be understood that the setting of filter plate installation shell 15 has the direction gathering effect to the cooling air that flows in air-out section 1112, has guaranteed that a large amount of cooling air flow through filter plate 133 to carry out the heat exchange with filter plate 133, thereby can improve the radiating effect to filter plate 133. Meanwhile, the filter plate mounting case 15 also has a certain protective effect on the filter plate 133, and prevents the filter plate 133 from being damaged due to the extrusion of the housing 112. Of course, the present application is not limited thereto, and in other embodiments, the air outlet segment 1112 may also be enclosed by the casing 112 and the motor bracket 113. Further, the filter plate mounting case 15 may be detachably coupled to the motor bracket 113 so that maintenance and replacement can be performed when a local damage occurs. Specifically, the filter plate mounting case 15 may be connected to the motor bracket 113 of the main housing 11 by screws, snaps, or the like, so as to simplify the mounting and dismounting processes of several persons and improve the mounting and dismounting efficiency. In addition, in order to facilitate the formation of the air outlet section 1112, the filter plate mounting case 15 may include a third cover plate 153 and a fourth cover plate 154 connected to each other, and the air outlet section 1112 is enclosed by the third cover plate 153 and the fourth cover plate 154; or the filter plate mounting shell 15 is set into an upper section and a lower section which are communicated, and the upper section and the lower section of the filter plate mounting shell 15 are communicated to form the air outlet section 1112, which is not limited in the present application.

In an embodiment of the present invention, a fan 16 is disposed in the air inlet section 1111 and/or the air outlet section 1112.

It can be understood that the fan 16 is disposed to improve the fluidity of the cooling air in the first heat dissipation air duct 111 and the coil heat dissipation section 50a, so as to orderly flow into the air inlet section 1111 from the host air inlet 116, then flow into the air outlet section 1112 through the coil heat dissipation section 50a, and flow out from the first air outlet of the host 10. This can further improve the heat dissipation effect of the main control board 131, the filter board 133 and the coil panel assembly 50 in the first heat dissipation duct 111 and the coil heat dissipation section 50 a. The fan 16 may be disposed in the air inlet section 1111, and the fan 16 is disposed at the lower end of the main control board mounting case 14 and is communicated with the air inlet 141 of the air inlet section and the air inlet 116 of the host; the fan 16 may also be disposed in the air outlet section 1112, and the fan 16 is disposed at the lower end of the filter plate 133 and is communicated with the air outlet of the air outlet section 1112 and the first host air outlet 117 a; or, the air inlet section 1111 and the air outlet section 1112 are both provided with fans 16, one of the two fans 16 is disposed at the lower end of the main control board mounting housing 14 and is communicated with the air inlet 141 of the air inlet section and the air inlet 116 of the host, and the other is disposed at the lower end of the filter plate 133 and is communicated with the air outlet of the air outlet section 1112 and the first host air outlet 117 a.

Referring to fig. 14 and 16, in an embodiment of the present invention, the coil panel assembly 50 includes a coil support 51, a coil cover 53 and a coil panel 55, the coil cover 53 is disposed outside the coil support 51 and encloses with the coil support 51 to form a coil heat dissipation section 50a of a coil heat dissipation section 50a, and the coil panel 55 is disposed outside the coil support 51 and inside the coil heat dissipation section 50a of the coil heat dissipation section 50 a.

It will be appreciated that the coil disk 55 generates heat during operation and is susceptible to damage when the heat is excessive. Therefore, the coil heat dissipation section 50a is disposed in the coil panel assembly 50 to dissipate heat, so as to avoid excessive heat generation, thereby prolonging the service life of the coil panel assembly. In order to make the coil panel assembly 50 better fit with the cup body assembly 30 of the food processor 100 when being applied to the food processor 100, the projections of the coil bracket 51 and the coil cover 53 may be circular structures so as to surround the outer side of the cup body assembly 30 to heat the cup body assembly 30. The coil panel cover 53 is mainly used for preventing the coil panel 55 from being exposed outside and protecting the coil panel 55; meanwhile, the coil heat dissipation section 50a is formed by enclosing the coil cover 53 and the coil bracket 51, so that the processing complexity of the coil heat dissipation section 50a can be reduced. Further, the coil disk assembly 50 may be connected to the upper side of the motor bracket 113 of the main body case 11 through one of the coil disk cover 53 and the coil bracket 51; or above the motor bracket 113 connected to the main body case 11 through both the bobbin case 53 and the coil bracket 51; or held and fixed by the motor bracket 113 and the outer casing 112 in the main machine shell 11.

In an embodiment of the present invention, the coil bracket 51 is provided with a coil heat dissipation section air inlet 51a and a coil heat dissipation section air outlet 51b, the coil heat dissipation section air inlet 51a is communicated with the air inlet section 1111, and the coil heat dissipation section air outlet 51b is communicated with the air outlet section 1112.

It can be understood that since the coil 553 is annularly disposed at the outer side of the coil support 51, when the coil heat radiating section air inlet 51a and the coil heat radiating section air outlet 51b are disposed at the coil support 51, the cooling air flowing in from the coil heat radiating section air inlet 51a is caused to face the coil 553, and the contact area of the cooling air with the coil 553 is increased, so as to improve the heat exchange cooling effect of the cooling air and the coil 553. The coil heat dissipation section air inlet 51a is connected to the air inlet section air outlet 142, and the coil heat dissipation section air outlet 51b is connected to the air outlet section air inlet 151.

Inventive coil heat sink segment 50a

Referring to fig. 2 and fig. 15 in combination, in an embodiment of the present invention, a second heat dissipation air duct 118 is further disposed in the main housing 11, and the main housing 11 is further provided with a second main air outlet 117b communicated with the second heat dissipation air duct 118; the main body 10 further includes a motor 17, and the motor 17 is disposed in the second heat dissipation air duct 118.

It is understood that the motor 17 also generates heat during operation, and is likely to be damaged when the amount of heat generated is too large. Therefore, the second heat dissipation air duct 118 is disposed in the main housing 11, and the motor 17 is disposed in the second heat dissipation air duct 118. The second heat dissipation air duct 118 can dissipate heat of the motor 17, so that excessive heat generated during operation is avoided, and the service life of the motor 17 is prolonged. The motor 17 is mounted on the motor support 113 of the main housing 11 and located at the center of the motor support 113, and the main control board mounting case 14 and the filter board mounting case 15 are respectively located at two sides of the motor 17.

Referring to fig. 15, in an embodiment of the invention, the host 11 further includes an air duct 18, the air duct 18 is disposed in the host housing 11, the air duct 18 is sleeved outside the motor 17, a second heat dissipation air duct 118 is formed between the air duct 18 and the motor 17, the air duct 18 is provided with an air duct inlet 181 and an air duct outlet 182, the air duct inlet 181 is communicated with the host air inlet 116 of the host housing 11, and the air duct outlet 182 is communicated with the second host air outlet 117 b.

It can be understood that the air duct 18 is arranged to guide and collect the cooling air flowing into the second air duct 118, so as to ensure that a large amount of cooling air flows through the motor 17 and exchanges heat with the motor 17, thereby improving the heat dissipation effect of the motor 17. The projection of the air duct 18 on the horizontal plane may be circular and extend in the up-down direction to wrap the outside of the motor 17 arranged in the up-down direction. At this time, the air duct inlet 181 is located at the upper end of the air duct 18, and the air duct outlet 182 is located at the lower end of the air duct 18. In order to improve the stability of the installation of the air duct 18, the upper end of the air duct 18 is connected to the motor bracket 113 of the main housing 11, and the lower end thereof is abutted to the base 114 of the main housing 11. Specifically, the air duct 18 and the motor bracket 113 may be connected by screws or fasteners, so as to simplify the assembling and disassembling process of the air duct 18 and improve the assembling and disassembling efficiency. Further, the air flow in the air duct 18 is easily discharged from the air duct outlet 182. In the longitudinal section of the air duct 18, the distance between the two side walls of the air duct 18 near the outlet of the air duct 18 may be gradually reduced from top to bottom, so as to converge the airflow near the outlet of the air duct 18.

In an embodiment of the present invention, an air outlet cavity 1181 is formed at a lower end of the air duct 18 in the main housing 11, and the air outlet cavity 1181 is communicated with the second main outlet 117 b.

It can be understood that the air outlet cavity 1181 of the air duct 18 has a guiding function on the air flowing out from the outlet of the air duct 18, so that the air accurately flows out from the air outlet 117b of the second host, and the hot air after heat exchange with the motor 17 is prevented from partially staying in the cavity of the host housing 11 after flowing out from the outlet of the air duct 18 and affecting other parts in the host 10. The air outlet cavity 1181 of the air duct 18 may be formed by enclosing the base 114 and the bottom cover 115 of the main machine housing 11; certainly, a partition 119 may be disposed between the base 114 and the bottom cover 115, and the partition 119 and the base 114 enclose to form the air outlet cavity 1181 of the air duct 18, so as to further isolate the air outlet cavity 1181 of the air duct 18 from the parts located between the base 114 and the bottom cover 115, and avoid the hot air flow after heat exchange with the motor 17 from affecting the parts.

In an embodiment of the present invention, an output shaft portion of the lower end of the motor 17 is inserted into the air outlet cavity 1181, the main unit 10 further includes a heat dissipating fan 171, and the heat dissipating fan 171 is sleeved on the output shaft of the lower end of the motor 17.

It can be understood that the heat dissipating fan 171 can improve the fluidity of the air in the air duct 18, and drive the air flow in the chamber of the main housing 11 to flow in from the air duct inlet 181, and flow out from the air duct outlet 182 after exchanging heat with the motor 17. This can further improve the heat dissipation effect of the motor 17 in the second heat dissipation air duct 118. The heat dissipating fan 171 is sleeved on the output shaft of the lower end of the motor 17, and when the motor 17 works, the heat dissipating fan 171 can be selected along with the rotation of the output shaft of the motor 17. Thus, a power supply circuit and a power source are not required to drive the heat dissipation fan blade 171, thereby reducing the manufacturing cost.

The present invention further provides a food processor 100, the food processor 100 includes a main machine 10, the specific structure of the main machine 10 refers to the above embodiments, and since the food processor 100 adopts all technical solutions of all the above embodiments, at least all beneficial effects brought by the technical solutions of the above embodiments are achieved, and are not repeated herein.

Further, referring to fig. 1 to 3, a food processor 100, the food processor 100 further includes a stirring blade assembly 70, and the stirring blade assembly 70 is partially disposed in the cup body assembly 30. To achieve a better whipping effect, the whipping blade assembly 70 is partially disposed within the inner cup 33.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.