CN215914292U - Food processor - Google Patents

Abstract

The application provides a cooking machine. The cooking machine comprises a host, a water tank, a stirring cup assembly, a water delivery assembly and a juice receiving cup assembly. The stirring cup assembly is arranged on the main body part and comprises a juice outlet, the turnover cover assembly can cover the upper part of the cup opening of the stirring cup assembly, and the exhaust cover assembly is communicated with the stirring cup assembly through an exhaust through hole; a water tank arranged on the main body part; connect the juice cup subassembly, locate one side of main part, including connecing the juice mouth, connect the juice cup subassembly to be used for receiving the thick liquid that flows from the play juice mouth through connecing the juice mouth. In some embodiments of the application, water enters from the upper part of the stirring cup assembly through the turnover cover assembly, and the cutter holder structure at the bottom of the stirring cup assembly can be designed to be simpler, so that the stirring cup assembly is convenient to clean; the exhaust sealing ring can play a role in preventing liquid from leaking laterally and also can play a damping role in dismounting the exhaust cover assembly.

Description

Food processor

Technical Field

The application relates to a small household electrical appliance field especially relates to a cooking machine.

Background

With the increasing living standard of people, many different types of food processors appear on the market. The functions of the food processor mainly include, but are not limited to, functions of making soybean milk, squeezing fruit juice, making rice paste, decocting soup, mincing meat, grinding, shaving ice, making coffee and/or preparing facial mask and the like.

At present, the hand-free food processor on the market is loved by a plurality of users because of automatic cleaning. The material arranging machine comprises a host, a water tank, a stirring cup and a juice receiving cup, wherein the water tank supplies water to the stirring cup, and after food materials are stirred in the stirring cup, generated slurry flows into the juice receiving cup. Liquid at the exhaust cover of some cooking machines is easy to leak laterally.

SUMMERY OF THE UTILITY MODEL

The application provides a cooking machine can prevent liquid side leakage.

The application provides a cooking machine includes:

the main machine comprises a main body part, a turnover cover assembly and an exhaust cover assembly, wherein the turnover cover assembly is rotatably connected with the main body part, the exhaust cover assembly is detachably assembled on the turnover cover assembly, the turnover cover assembly comprises a water inlet pipeline, an exhaust through hole and an exhaust sealing ring assembled on the exhaust through hole, the exhaust cover assembly is assembled on the exhaust through hole, and the exhaust sealing ring is positioned between the exhaust through hole and the exhaust cover assembly in a sealing manner;

the stirring cup assembly is arranged on the main body part and comprises a juice outlet, the turnover cover assembly can cover the upper part of the cup opening of the stirring cup assembly, and the exhaust cover assembly is communicated with the stirring cup assembly through the exhaust through hole;

a water tank disposed in the main body;

the water delivery assembly is arranged on the host, is connected with the water tank and the water inlet pipeline and is used for delivering water in the water tank to the stirring cup assembly, and is communicated with the cup opening of the stirring cup assembly through the water inlet pipeline when the turnover cover assembly is covered; and

the juice receiving cup assembly is detachably arranged on one side of the main body part and comprises a juice receiving opening, and the juice receiving cup assembly is used for receiving the juice flowing out of the juice outlet through the juice receiving opening.

In some embodiments of the application, the exhaust sealing ring can play a role in preventing liquid from leaking laterally and also can play a damping role in dismounting the exhaust cover component; and water is fed from the upper part of the stirring cup assembly through the turnover cover assembly, and the cutter holder structure at the bottom of the stirring cup assembly can be designed to be simpler, so that the stirring cup assembly is convenient to clean.

Further, the exhaust sealing ring comprises an exhaust sealing ring main body and a sealing convex rib which is convexly arranged on the inner surface of the exhaust sealing ring main body, the exhaust sealing ring main body is assembled in the exhaust through hole, the exhaust cover assembly is assembled in the exhaust sealing ring main body, and the sealing convex rib is abutted against the exhaust cover assembly. In some embodiments, the sealing ribs can prevent liquid from leaking laterally and can also act as a damping element during assembly and disassembly of the exhaust cover assembly.

When the turnover cover assembly is covered, the lining cover assembly covers the cup opening of the stirring cup assembly, and the turnover cover body covers the lining cover assembly;

the turnover cover body comprises a cover body exhaust hole, the lining cover assembly comprises a lining cover exhaust hole, the position of the lining cover exhaust hole corresponds to the position of the cover body exhaust hole, and the exhaust through hole comprises the cover body exhaust hole and the lining cover exhaust hole; the exhaust sealing ring is assembled on the cover body exhaust hole in a sealing manner, extends out of the cover body exhaust hole and is in sealing butt joint with the periphery of the lining cover exhaust hole; the exhaust cover assembly is assembled in the cover body exhaust hole and communicated with the stirring cup assembly through the cover body exhaust hole and the lining cover exhaust hole, and the exhaust sealing ring is positioned between the cover body exhaust hole and the exhaust cover assembly in a sealing mode. In some embodiments, the lining cover assembly of the turnover cover assembly is detachable and convenient to clean, and the exhaust sealing ring is in sealing butt joint with the lining cover, so that the sealing effect is good.

Further, the exhaust sealing ring is detachably assembled on the cover body exhaust hole. In some embodiments, cleaning of the vent seal ring is facilitated.

Further, the exhaust sealing ring comprises an annular sealing clamping groove, and the edge of the cover body exhaust hole is detachably clamped in the sealing clamping groove. In some embodiments, the vent gasket is easily removable.

Furthermore, the exhaust sealing ring comprises an exhaust assembly part and an exhaust sealing part connected with the exhaust assembly part, the exhaust assembly part is assembled in the exhaust hole of the cover body, the exhaust sealing part is positioned outside the exhaust hole of the cover body and is in sealing butt joint with the periphery of the exhaust hole of the lining cover, the exhaust sealing part comprises a first exhaust sealing part connected with the exhaust assembly part and a second exhaust sealing part connected with one end, close to the lining cover assembly, of the first exhaust sealing part, the first exhaust sealing part radially and gradually expands in the direction from the exhaust assembly part to the lining cover assembly, and the second exhaust sealing part radially and gradually contracts in the direction from the first exhaust sealing part to the lining cover assembly. In some embodiments, the sealing effect is good, and the good sealing effect can be ensured when the stirring vibration is carried out.

Further, the turnover cover assembly comprises a turnover cover front surface, a turnover cover back surface opposite to the turnover cover front surface, and an exhaust cover accommodating groove recessed from the turnover cover front surface to the turnover cover back surface, the turnover cover back surface faces the stirring cup assembly when the turnover cover assembly is closed, the exhaust through hole is located in the exhaust cover accommodating groove, and the exhaust cover assembly is accommodated in the exhaust cover accommodating groove. In some embodiments, the exhaust cover assembly is received in the exhaust cover receiving groove, which may reduce the height.

Further, a finger abdicating space for abdicating fingers is arranged between the side wall of the exhaust cover component and the side wall of the exhaust cover containing groove; in some embodiments, removal of the vent cover assembly is facilitated for a user. And/or

The exhaust cover assembly comprises an exhaust cover front face which faces away from the reverse face of the turnover cover, and the exhaust cover front face is lower than the turnover cover front face or is flush with the turnover cover front face. In some embodiments, the height is low and the appearance is attractive.

Further, the thickness of the flip cover assembly ranges from 15mm to 45 mm. In some embodiments, the flip cover assembly is low profile and more aesthetically pleasing.

Further, the juice receiving cup assembly is arranged on the left side or the right side of the main body part, and the water tank is arranged on the rear side of the main body part. In some embodiments, length can reduce around such cooking machine, can place on the less operation panel of width with the mode that the water tank dorsad the user and connect the juice cup subassembly to be located user's left hand side or right hand side, reduces cooking machine the place ahead and takes up an area of the space to also can make things convenient for user's operation on the less operation panel of size.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of a food processor of the present application;

fig. 2 is a cross-sectional view of the food processor shown in fig. 1 taken along line a-a;

FIG. 3 is a cross-sectional view of the food processor of FIG. 1 taken along line B-B;

fig. 4 is an exploded perspective view of the food processor shown in fig. 1;

fig. 5 is a partial exploded perspective view of the water tank and the main unit of the food processor shown in fig. 1;

fig. 6 is a perspective view of the food processor of fig. 1 with the base cover removed from the bottom;

fig. 7 is a perspective view of the base body of the housing of the main body of the food processor shown in fig. 1, from the bottom;

FIG. 8 is a perspective view of the first housing of the housing and the water pump;

fig. 9 is a partially enlarged view of the food processor shown in fig. 2;

fig. 10 is a partial perspective view of the food processor with the flip cover assembly covering;

FIG. 11 is a side view of the hinge assembly of the host machine with the flip cover assembly closed;

fig. 12 is a partial perspective view of the food processor with the flip cover assembly open;

FIG. 13 illustrates a side view of the hinge assembly with the flip cover assembly open;

FIG. 14 is an exploded perspective view of the hinge assembly;

FIG. 15 is a perspective view of the flip cover assembly;

fig. 16 is a partial view of the interior of the food processor of fig. 1 shown from the second side of the body portion;

fig. 17 is a partial cross-sectional view of the food processor of fig. 16 taken along line C-C;

FIG. 18 is an exploded perspective view of the flip cover assembly;

FIG. 19 is a perspective view of the spindle tube;

fig. 20 is a partially enlarged view of the food processor shown in fig. 17;

FIG. 21 is a partial exploded perspective view of the flip cover assembly;

FIG. 22 is a perspective view of the flip top assembly from the bottom;

fig. 23 is a partial enlarged view of the food processor shown in fig. 9;

fig. 24 is a partial enlarged view of the food processor shown in fig. 23;

FIG. 25 is a partial exploded perspective view of the main unit;

FIG. 26 is a perspective view of the flip cover assembly at another angle;

FIG. 27 is a perspective view of the vent seal ring;

fig. 28 is another enlarged partial view of the food processor shown in fig. 2;

FIG. 29 is an exploded perspective view of the exhaust cap assembly;

FIG. 30 is an exploded perspective view of the liner cover assembly;

fig. 31 is a partial enlarged view of the food processor shown in fig. 2;

FIG. 32 shows a cross-sectional view of the liner cap assembly;

FIG. 33 shows an enlarged partial view of the liner cover assembly of FIG. 32;

FIG. 34 is a schematic view of a portion of the internal structure of the blender cup assembly and the main body;

fig. 35 is a partially enlarged view of the food processor shown in fig. 3;

FIG. 36 is an exploded perspective view of the blender cup assembly and the juice outlet valve assembly;

FIG. 37 is a perspective view of the blender cup assembly shown from the bottom;

FIG. 38 shows a longitudinal cross-sectional view of the blender cup and the spout;

FIG. 39 shows a top view of the blender cup and the spout;

FIG. 40 is a perspective view of the blender cup assembly;

FIG. 41 is an exploded perspective view of the blender cup assembly;

FIG. 42 is a perspective view of the blender cup shown from the bottom;

FIG. 43 is a perspective view of the blender blade assembly;

fig. 44 is an enlarged view of a portion of the food processor shown in fig. 35;

FIG. 45 is a partial perspective view of the main body and blending cup assembly;

FIG. 46 is a partial perspective view of the host computer;

FIG. 47 is a perspective view of the shock pad;

fig. 48 is another enlarged partial view of the food processor shown in fig. 3;

FIG. 49 is a perspective view of the juice receiving cup body of the juice receiving cup assembly of the food processor shown in FIG. 1;

FIG. 50 is a perspective view of the juice cup lid of the juice cup assembly;

FIG. 51 is another perspective view of the juice receiving cup lid;

fig. 52 is a schematic perspective view of another embodiment of the food processor of the present application;

fig. 53 is a cross-sectional view of the food processor of fig. 52 taken along line E-E;

fig. 54 is an exploded perspective view of the food processor shown in fig. 52;

fig. 55 is an enlarged view of a portion of the food processor shown in fig. 52;

fig. 56 is a perspective view of a food processor according to another embodiment of the present application;

fig. 57 is a cross-sectional view of the food processor of fig. 56 taken along line D-D;

fig. 58 is an exploded perspective view of the food processor of fig. 56;

fig. 59 is a front view of the food processor of fig. 56;

fig. 60 is a perspective view of the blending cup assembly of the food processor of fig. 56;

FIG. 61 is a perspective view of another angle of the blender cup assembly shown in FIG. 60.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. "plurality" or "a number" means at least two. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

Fig. 1 is a perspective view of a food processor 10 according to an embodiment of the present application. Fig. 2 is a cross-sectional view of the food processor 10 of fig. 1 taken along line a-a. Fig. 3 is a cross-sectional view of the food processor 10 of fig. 1 taken along line B-B. Fig. 4 is an exploded perspective view of the food processor 10 shown in fig. 1. Referring to fig. 1-4, the food processor 10 may include a hands-free food processor, may automatically clean the blending cup assembly 13, and may include a hands-free soymilk maker or a hands-free wall breaking machine. The food processer 10 comprises a main machine 11, a water tank 12, a stirring cup assembly 13, a water delivery assembly 14 and a juice receiving cup assembly 15.

The main body 11 includes a main body portion 16 and a juice receiving support portion 17. The juice receiving support portion 17 is provided on the left or right side of the main body portion 16. The juice receiving support portion 17 extends outward from the main body portion 16 from the left or right side of the main body portion 16, and the juice receiving support portion 17 may be connected to the bottom end of the main body portion 16 and may communicate with the inside of the main body portion 16. In some embodiments, the main body 11 may include a tank support portion 23 provided at a rear side of the main body portion 16, and the tank support portion 23 may extend from the rear side of the main body portion 16 to the outside of the main body portion 16, may be connected to a bottom end of the main body portion 16, and may communicate with the inside of the main body portion 16. The tank support portion 23 and the juice receiving support portion 17 are provided adjacent to both sides of the main body portion 16. In some embodiments, host 11 may include a housing 20, a motor 21, and a circuit board 22. The housing 20 may include a main body portion 16 and a juice receiving support portion 17. The housing 20 may include a tank support 23. The motor 21 is provided in the main body portion 16. The circuit board 22 may include a power board and/or a control circuit board, etc., may be provided within the body portion 16, or may be partially provided within the body portion 16. The power board can supply power to the motor 21 and the like, and the control circuit board can control the motor 21 to work and the like.

The water tank 12 is used to hold water and may be provided to the blender cup assembly 13. The tank 12 is provided on the rear side of the main body 16. In some embodiments, the tank 12 may be assembled over the tank support 23.

In some embodiments, the blender cup assembly 13 is disposed in the body portion 16 and includes a juice outlet 24. The stirring cup assembly 13 is assembled to the main body 16. In some embodiments, the blending cup assembly 13 is removably disposed in the body portion 16. The blending cup assembly 13 includes a blending blade assembly 25 for blending the food material and water injected from the tank 12 to form a slurry, which is discharged from the juice outlet 24. The juice outlet 24 may be oriented to the left or right of the body portion 16. The stirring blade assembly 25 is connected with the motor 21, and the motor 21 drives the stirring blade assembly 25 to rotate. In some embodiments, the blending cup assembly 13 is removably assembled to the main frame 11. The blending cup assembly 13 is detachably assembled to the main body 16. The stirring cup assembly 13 can be taken down for cleaning, and can be taken down for cleaning when the automatic cleaning is not clean, so that the cleaning is convenient, the cleaning can be cleaner, and the cleanness and the sanitation of the stirring cup assembly 13 are ensured. And the stirring cup assembly 13 can be taken down to pour the juice, and the application scenes are more. In some embodiments, multiple blending cup assemblies 13 may be provided and removed to replace different blending cup assemblies 13 for different cuisine. In other embodiments, the blending cup assembly 13 is fixedly assembled to the main body 16 and fixed to the main body 11, and the blending cup assembly 13 is not detachable.

The water delivery assembly 14 is disposed on the main body 11, connected to the water tank 12, and configured to deliver water in the water tank 12 to the stirring cup assembly 13. In some embodiments, the water delivery assembly 14 is coupled to the bottom end of the water tank 12 to draw water from the bottom end of the water tank 12. The water delivery assembly 14 may include a water pump 26 connected to the water tank 12 and an instant heating assembly 27 connected to the water pump 26. The water pump 26 pumps water in the water tank 12 to the instant heating assembly 27, and the instant heating assembly 27 heats the water and outputs the heated water to the stirring cup assembly 13. The water delivery assembly 14 is disposed within the body portion 16, and the water pump 26 and the instant heating assembly 27 are disposed within the body portion 16.

The juice receiving cup assembly 15 is detachably provided on the juice receiving support portion 17 and includes a juice receiving port 28. The juice receiving cup assembly 15 is detachably provided at one side of the main body 11. The juice cup assembly 15 is adapted to receive the syrup flowing from the juice outlet 24 through the juice outlet 28. The juice receiving port 28 may face the juice outlet 24. The juice cup assembly 15 may heat the slurry and pour the beverage after heating. In some embodiments, the juice-receiving cup assembly 15 is removably assembled to the juice-receiving support portion 17 and can be removed from the juice-receiving support portion 17 for pouring juice. The juice cup assembly 15 comprises a juice cup body 29, a heating assembly 30 and a juice cup coupler 31, the juice cup body 29 comprising a juice port 28. The heating assembly 30 and the juice receiving cup coupler 31 are disposed at the bottom of the juice receiving cup body 29. The heating assembly 30 may heat the slurry. In some embodiments, the heating assembly 30 may include a heating pan. The heating assembly 30 is electrically connected to the juice cup coupler 31. The juice receiving support portion 17 is provided with a main unit coupler 32, and the main unit coupler 32 and the juice receiving cup coupler 31 are connected in a pluggable manner. The host coupler 32 is electrically connected to the juice cup coupler 31, the host coupler 32 is electrically connected to the circuit board 22, and the circuit board 22 can supply power to the heating assembly 30. Heating the thick liquid in connecing juice cup subassembly 15, stirring cup subassembly 13 can not heat the thick liquid, can not appear sticking with paste end scheduling problem to stirring cup subassembly 13 washs more conveniently, and easier self-cleaning is clean, and stirring cup subassembly 13 can be uncharged moreover, and in some embodiments, stirring cup subassembly 13 detachable comes to wash, can rinse whole body, the problem of electrical part intake when avoiding wasing.

In some embodiments of this application, connect juice supporting part 17 to locate the left side or the right side of main part 16, the rear side of main part 16 is located to water tank 12, consequently, connect juice cup subassembly 15 to locate the left side or the right side of main part 16, so length on the cooking machine 10 fore-and-aft direction can reduce, water tank 12, main part 16 is less with stirring cup subassembly 13's overall length, thereby can place on the less operation panel of width with the water tank dorsad user and the mode that connects juice cup subassembly 15 to be located user's left hand limit or right hand limit, reduce cooking machine the place ahead and take up an area of the space, thereby also can make things convenient for user operation on the less operation panel of size. The orthographic projection of the juice receiving supporting part 17, the main body part 16 and the water tank supporting part 23 in the horizontal plane is L-shaped, and the juice receiving cup assembly 15, the main body part 16 and the water tank 12 are arranged in an L shape. The operation table board is arranged in two horizontal directions, so that the operation table board is small in size in one horizontal direction, can be placed on the operation table board small in size in one horizontal direction at an angle convenient for a user to operate, and is particularly suitable for a kitchen with a small area.

Referring with emphasis to fig. 2, in some embodiments, the host 11 includes a dashboard assembly 34, and the dashboard assembly 34 is disposed on the front side of the main body 16. The dashboard assembly 34 may interact with a user, may be operated by the user, and may display information. The user can operate the control panel assembly 34 to select a cooking function, set time, and instruct to start, pause, or end cooking, etc. The dashboard assembly 34 may also display time, current status, etc. In some embodiments, the control panel assembly 34 may include a controller that controls the motor 21, the heating assembly 30, the water pump 26, the instant heating assembly 27, and the like. The control panel assembly 34 and the water tank 12 are oppositely arranged, the control panel assembly 34 can be close to a user, so that the operation of the user is convenient, and the control panel assembly 34 and the juice receiving cup assembly 15 are not arranged on the same side and are positioned on two adjacent sides, so that the steam coming out of the juice receiving cup assembly 15 is not easy to influence the control panel assembly 34. In some embodiments, the main body 11 includes a manipulation mounting portion 35 protruding from the front side of the main body 16, and the manipulation panel assembly 34 is assembled in the manipulation mounting portion 35. The manipulation mounting part 35 may extend outward of the main body part 16 from a front side of the main body part 16, may be lower than the main body part 16, and may be higher than the juice receiving supporting part 17. The dashboard assembly 34 includes a dashboard interface 36, with the dashboard interface 36 facing upward. The manipulation interface 36 may interact with a user, may be operated by a user, and may display information. The user may manipulate and view the manipulation interface 36 facing upward. The juice receiving opening 28 of the juice receiving cup assembly 15 faces the left side or the right side of the main body portion 16, and the manipulation mounting portion 35 laterally protrudes from the front side of the main body portion 16 so as to be offset from the juice receiving opening 28, so that steam coming out of the juice receiving opening 28 does not easily affect the manipulation panel assembly 34. In some embodiments, the access panel assembly 34 is lower than the juice outlet 28 such that steam exiting the juice outlet 28 does not readily affect the access panel assembly 34.

Referring with emphasis to FIG. 3, in some embodiments, blender cup assembly 13 includes a blender cup 37 and a cup handle 38 attached to a sidewall of blender cup 37. Blender cup 37 includes juice outlet 24. The food material is whipped in the whipping cup 37, and the whipping blade assembly 25 is assembled in the whipping cup 37. The juice outlet 24 is provided at the bottom of the side wall of the blender cup 37. The cup handle 38 is for gripping by a user. The blending cup assembly 13 is detachably assembled to the main body 16, and a user can hold the cup handle 38 to disassemble and assemble the blending cup assembly 13. The juice outlet 24 and the cup handle 38 are oppositely arranged on the stirring cup body 37. In some embodiments, the juice receiving support 17 is located on the left side of the body portion 16, and the cup handle 38 extends from the blender cup 37 to the right side of the body portion 16. The juice outlet 24 and the juice cup assembly 15 are located on the left side of the body portion 16, and the cup handle 38 is located on the right side, thereby facilitating the right-handed access to the blending cup assembly 13 by the user. In other embodiments, the juice receiving portion 17 is located on the right side of the body portion 16, and the cup handle 38 extends from the blender cup 37 to the left side of the body portion 16. The juice outlet 24 and the juice cup assembly 15 are located on the right side of the body portion 16 to facilitate access to the juice cup assembly 15 by the user's right hand.

Fig. 5 is a partially exploded perspective view of the water tank 12 and the main body 11. Referring to fig. 2 and 5, the housing 20 of the main body 11 includes a motor receiving portion 39 and a circuit receiving portion 40 connected to the motor receiving portion 39. The side wall of the motor accommodating part 39 extends longitudinally, the circuit accommodating part 40 extends transversely from the outer side of the lower end of the motor accommodating part 39, and the top wall of the circuit accommodating part 40 is connected with the side wall of the motor accommodating part 39. The motor 21 is accommodated in the motor accommodating portion 39, and the circuit board 22 is accommodated in the circuit accommodating portion 40. The side wall of the motor accommodating portion 39 is annular and surrounds the motor 21. The circuit board 22 is located below the top wall of the circuit housing portion 40 and surrounded by the circuit housing portion 40. The bottom end of the motor accommodating part 39 is communicated with the circuit accommodating part 40, and the circuit board 22 is connected with the motor 21 through a lead wire and can supply power to the motor 21. In some embodiments, the circuit board 22 may be a power board, may provide mains power to the motor 21, and/or may convert mains power to weak power. The stirring cup assembly 13 is assembled above the motor accommodating portion 39 and connected to the motor 21. The water tank 12 is located outside the side wall of the motor housing portion 39 and above the top wall of the circuit housing portion 40. The water delivery assembly 14 is connected to the water tank 12, is located outside the side wall of the motor housing portion 39, and is located above the top wall of the circuit housing portion 40. The side wall of the motor housing portion 39 and the top wall of the circuit housing portion 40 are integrally formed with no gap therebetween. The motor housing part 39 and the circuit housing part 40 separate the circuit board 22 and the motor 21 from the water tank 12 and the water delivery unit 14, so that the water delivery unit 14 and the water tank 12 are not easy to enter the motor housing part 39 and the circuit housing part 40 when water leaks, and the circuit board 22 and the motor 21 are not easy to enter water. Therefore, the top wall of the circuit accommodating part 40 is connected with the side wall of the motor accommodating part 39, the circuit board 22 is accommodated in the circuit accommodating part 40, the water tank 12 and the water delivery assembly 14 are both positioned outside the side wall of the motor accommodating part 39 and above the top wall of the circuit accommodating part 40, and thus the shell 20 separates the circuit board 22 from the water tank 12 and the water delivery assembly 14, realizes water and electricity separation, prevents safety problems caused by pipe explosion, and improves safety.

In some embodiments, the motor receiving portion 39 and the circuit receiving portion 40 are staggered in the horizontal direction. The circuit housing portion 40 and the motor housing portion 39 are arranged in the front-rear direction of the main body portion 16. The circuit housing portion 40 is located on the rear side of the main body portion 16 with respect to the motor housing portion 39. In some embodiments, the housing 20 includes a base 41 and a first housing 42 assembled to the base 41, the base 41 including a motor receptacle 39 and a circuit receptacle 40. In some embodiments, the base 41 includes a base body 43 and a base cover 44 covering under the base body 43. The bottom of the base body 43 is opened, the base cover 44 covers the opening, and the base cover 44 and the base body 43 are fixedly assembled. The base body 43 and the base cover 44 together form the circuit accommodating portion 40, the circuit board 22 is accommodated between the base body 43 and the base cover 44, and the base body 43 and the base cover 44 cover the upper surface, the lower surface and the side surfaces of the circuit board 22, so that the circuit board 22 can be well isolated from the outside, water can be prevented from entering as much as possible, and good water and electricity isolation is realized.

Fig. 6 is a perspective view of the food processor 10 from below with the base cover 44 removed. Fig. 7 is a perspective view of the base body 43 from below. Referring to fig. 6 and 7, the base body 43 includes a circuit receiving groove 45 recessed upward, and the circuit board 22 is fixedly assembled in the circuit receiving groove 45. Referring collectively to fig. 5, the base body 43 includes a motor receiving portion 39, and a side wall of the motor receiving portion 39 extends upward from a top wall of the circuit receiving portion 40. The base body 43 is provided with a coupler relief hole 46, and the host coupler 32 is assembled in the coupler relief hole 46.

The housing 20 includes a juice receiving support portion 17, the juice receiving support portion 17 is disposed on the left or right side of the motor receiving portion 39, and the circuit receiving portion 40 is at least partially located on the rear side of the motor receiving portion 39. The juice receiving support portion 17 and the circuit housing portion 40 are provided on adjacent sides of the motor housing portion 39. Circuit portion 40 top is located to water tank 12, circuit portion 40 and the adjacent both sides that connect juice supporting part 17 to locate motor portion 39 are located to the circuit, so connect juice cup subassembly 15 to locate stirring cup subassembly 13's left side or right side, the rear side of stirring cup subassembly 13 is located to water tank 12, so the front and back length of cooking machine 10 can reduce, can place in the less operation panel of width with water tank 12 dorsad user and the mode that connects juice cup subassembly 15 to be located user's left hand limit or right hand limit, reduce cooking machine the place ahead and take up an area of the space, thereby also can make things convenient for user's operation on the less operation panel of size. The base body 43 and the base cover 44 together form the juice receiving support portion 17, and the coupler relief hole 46 is located at the juice receiving support portion 17.

With continued reference to fig. 2 and 5, in some embodiments, the water pump 26 is located above the top wall of the circuit receptacle 40 and outside the side walls of the motor receptacle 39, below the top end of the side walls of the motor receptacle 39. The circuit accommodating part 40 and the motor accommodating part 39 separate the water pump 26 from the circuit board 22, and the water pump 26 is separated from the circuit board 22, so that the safety problem caused by pipe explosion at the water pump 26 can be prevented, and the safety is improved. In some embodiments, the first housing 42 includes a first fixing portion 47 and a water pump receiving portion 48 connected to the first fixing portion 47, the first fixing portion 47 is fixedly assembled to the base 41, and the water pump receiving portion 48 is located outside the motor receiving portion 39. The water pump 26 is located between the side wall of the water pump housing portion 48 and the side wall of the motor housing portion 39. So can be fixed in the lateral wall of motor portion 39 with water pump 26 outside, conveniently fix water pump 26, simple structure to water pump 26 is kept apart with circuit board 22, thereby can prevent the safety problem that brings after water pump 26 department bursts the pipe, improves the security. The first fixing portion 47 is frame-shaped, and is fitted over the motor housing portion 39 and the circuit housing portion 40, and the juice receiving support portion 17 is located outside the first fixing portion 47. The first fixing portion 47 may be fixed to the base body 43. The water pump housing portion 48 may be open toward the side wall of the motor housing portion 39, and a space may be provided between the side wall of the water pump housing portion 48 and the side wall of the motor housing portion 39 to house the water pump 26. In some embodiments, the water pump receptacle 48 has a top wall that overlies the water pump 26. The pump receiving portion 48 may be in the shape of a football gate.

In some embodiments, the housing 20 includes a second housing 49, the second housing 49 is fixedly assembled with the base 41, the first housing 42 is sandwiched between the second housing 49 and the base 41, and the water tank 12 and the blending cup assembly 13 are assembled with the second housing 49. The first housing 42 is clamped by the second housing 49 and the base 41 in this way, and the assembly is simple. The blending cup assembly 13 is assembled to the second housing 49. The second housing 49 includes a mixing cup receiving slot 50 located above the motor receiving portion 39, and the bottom of the mixing cup assembly 13 is located in the mixing cup receiving slot 50. The second housing 49 includes a manipulation mounting portion 35, and the manipulation panel assembly 34 is assembled in the second housing 49. The control panel assembly 34 is provided on the front side of the motor housing portion 39. The control panel assembly 34 and the circuit housing portion 40 are disposed on opposite sides of the motor housing portion 39. Thus, the manipulation panel assembly 34 is disposed opposite to the water tank 12, the manipulation panel assembly 34 can be close to a user, so that the user can operate the manipulation panel assembly conveniently, and the steam coming out of the juice receiving cup assembly 15 is not easy to affect the manipulation panel assembly 34.

That is, the thermal module 27 is assembled in the housing 20, and may be assembled in the second housing 49. That is, the heating assembly 27 is located the roof top of water pump portion 48, and water pump 26 and the heating assembly 27 promptly are kept apart to the roof of water pump portion 48, reduce or prevent that the water pipe of heating assembly 27 department from leaking on rivers to water pump 26 promptly, and heating assembly 27 and circuit board 22 also keep apart promptly, and water and electricity are effectively separated, and the security is high. The main body 11 further includes an instant heating bracket 51 assembled in the housing 20, i.e. the heating element 27 is fixed to the instant heating bracket 51.

In some embodiments, the housing 20 includes a tank mount 52, the tank mount 52 is fixed to the second housing 49, i.e., the thermal assembly 27 is disposed between the tank mount 52 and the second housing 49, and the tank 12 is assembled to the tank mount 52. In some embodiments, the bottom of the water tank 12 is filled with water, the main body 11 comprises a water tank valve seat 53 connected with the water tank 12, the bottom of the water tank 12 is provided with a valve support 54, and the water tank valve seat 53 is plugged with the valve support 54. The water delivery assembly 14 is connected to the tank valve seat 53. The water outlet pipe is not shown in the figure. In some embodiments, the bottom end of the water tank 12 is lower than the top end of the side wall of the motor housing 39, so that water does not enter the motor 21 and the circuit board 22 when water leaks from the water tank valve seat 53.

Fig. 8 is a perspective view of the first housing 42 and the water pump 26. The water pump 26 is disposed obliquely with respect to the cross-section of the food processor 10. The water pump 26 is disposed obliquely with respect to the horizontal plane. The central axis of the water pump 26 is inclined to the horizontal. This facilitates assembly of the water pump 26 in a compact space. The water pump 26 may be tiltably assembled to the first housing 42. In some embodiments, the water pump 26 includes a pump body 55, a water inlet fitting 56 disposed on the pump body 55, and a water outlet fitting 57 disposed on the pump body 55. The water inlet 56 and the water outlet 57 are disposed at the same end of the pump body 55, and face downward. The water inlet connector 56 and the water outlet connector 57 face downwards, so that water can be prevented from flowing to a conductive connecting line, an electric component and the like of the water pump 26 when the water pipe or the connector connected with the water pump 26 leaks, and the safety is improved. The water pump 26 may be a flow pump. The pump body 55 may be electrically connected to the circuit board 22. Water enters the pump body 55 through the water inlet connector 56 and flows out through the water outlet connector 57.

In some embodiments, the water delivery assembly 14 includes a pump control board 58 disposed on the water pump 26, and the pump control board 58 may be electrically connected to the water pump 26 to control the operation of the water pump 26, and may be electrically connected to the circuit board 22 to receive power provided by the circuit board 22. The lowest point of the pump control board 58 is higher than the lowest point of the water inlet joint 56 and the lowest point of the water outlet joint 57, so that the pump control board 58 is higher than the water inlet joint 56 and the water outlet joint 57, and water cannot flow to the pump control board 58 when water leaks from the water inlet joint 56 and the water outlet joint 57, thereby preventing the pump control board from water inflow during pipe explosion.

Fig. 9 is a partially enlarged view of the food processor 10 shown in fig. 2. Referring to fig. 2 and 9, in some embodiments, the water inlet of the water delivery assembly 14 is in communication with the water tank 12, the water delivery assembly 14 extends to the upper end of the blender cup assembly 13, and the water outlet of the water delivery assembly 14 is in communication with the cup mouth of the blender cup assembly 13. The water inlet of the water delivery assembly 14 is connected to the tank valve seat 53. The water delivery assembly 14 extends upwardly from the bottom of the main body 11 to above the blender cup assembly 13. So intake from stirring cup subassembly 13 top, intake for the bottom from stirring cup subassembly 13, the blade holder simple structure of the bottom of stirring cup subassembly 13 of some embodiments of this application to convenient the washing. That is, the heating unit 27 is disposed up and down, and water is introduced from the lower end and discharged from the upper end.

Referring now to FIG. 9, in some embodiments, the base unit 11 includes a flip cover assembly 59 rotatably coupled to the body portion 16, the flip cover assembly 59 adapted to cover the rim of the blender cup assembly 13. The flip cover assembly 59 is connected to the top end of the main body portion 16 and can be flipped over, opened or closed. The flip cover assembly 59 includes an inlet conduit 60, and the outlet of the water delivery assembly 14 is connected to the inlet conduit 60. When the flip cover assembly 59 is closed, the water outlet of the water delivery assembly 14 is communicated with the cup opening of the stirring cup assembly 13 through the water inlet pipe 60. When the flip cover assembly 59 is closed, the water inlet pipe 60 extends from one side of the stirring cup assembly 13 to the middle of the cup rim and extends to the position right above the cup rim, so that water can enter the stirring cup assembly 13. When the flip cover assembly 59 is opened, the blender cup assembly 13 may be removed from the main housing 11 or assembled to the main housing 11. Utilize the inlet channel 60 of upset lid subassembly 59, can communicate the rim of a cup of water delivery subassembly 14 and stirring cup subassembly 13 well, guarantee smoothly to intake for stirring cup subassembly 13, and upset lid subassembly 59 can rotate to can open and shut for stirring cup subassembly 13, conveniently switch between the state of intaking on stirring cup subassembly 13 and the state of opening the stirring cup subassembly 13 that can take. The term "closed" as used herein means in a closed state, "open" means in an open state, "during closing" means from an open state to a closed state, and "during opening" means from a closed state to an open state.

In some embodiments, the flip cover assembly 59 covers the rim of the blender cup assembly 13 when closed, and sealingly assembles with the rim of the blender cup assembly 13. The flip cover assembly 59 may completely cover the mouth of the blender cup assembly 13. The turnover cover assembly 59 can cover the cup mouth of the stirring cup assembly 13, water can be fed, and the turnover cover assembly can be used as a cup cover, so that the whole food processor 10 has few components and a simple structure.

Fig. 10 is a partial perspective view of the food processor 10 when the flip cover assembly 59 is closed. The main body 11 includes a hinge assembly 61 connecting the main body portion 16 and the flip cover assembly 59. The flip cover assembly 59 is pivotally coupled to the main body portion 16 by a hinge assembly 61. The flip cover assembly 59 is rotatable relative to the main body portion 16 by a hinge assembly 61. The hinge assembly 61 includes a rotary hinge mechanism 223 and an elastic member 63, the rotary hinge mechanism 223 connects the main body 16 and the flip cover assembly 59, and the elastic member 63 is connected to the rotary hinge mechanism 223. The rotary hinge mechanism 223 is movable as the flip cover assembly 59 rotates, and the elastic member 63 is elastically deformed accordingly.

Fig. 11 shows a side view of the hinge assembly 61 when the flip cover assembly 59 is closed. When the flip cover assembly 59 is closed, the elastic member 63 and the rotary hinge mechanism 223 form a triangle, and the rotary hinge mechanism 223 protrudes to one side of the elastic member 63. Fig. 12 is a partial perspective view of the food processor 10 with the flip cover assembly 59 open. Fig. 13 shows a side view of the hinge assembly 61 with the flip cover assembly 59 open. When the flip cover assembly 59 is opened, the elastic member 63 and the rotary hinge mechanism 223 form a triangle, and the rotary hinge mechanism 223 protrudes to the other side of the elastic member 63. The rotary hinge mechanism 223 protrudes from one side of the elastic member 63 to the other side of the elastic member 63 through the dead point position during the opening or closing of the flip cover assembly 59. When the extending direction of the swing hinge 223 coincides with the extending direction of the elastic member 63, the swing hinge 223 is at the dead point position. The triangular shape formed by the resilient member 63 and the pivoting hinge mechanism 223 and the tension of the resilient member 63 maintain the flip cover assembly 59 in the closed position and in close proximity to the rim of the blender cup assembly 13 when the flip cover assembly 59 is closed. The triangle formed by the resilient member 63 and the rotational hinge mechanism 223 and the tension of the resilient member 63 maintain the flip cover assembly 59 in the open position when the flip cover assembly 59 is opened.

The turning cover assembly 59 is opened and closed by rotating the hinge mechanism 223 and the elastic piece 63, the turning cover assembly 59 is not provided with keys for opening and closing operations, the turning cover assembly 59 is not limited to one position, the opening and closing operations can be realized at a plurality of positions of the turning cover assembly 59, the operation is more convenient, the usability is improved, the structure of the turning cover assembly 59 is more compact and simple, the appearance design with higher requirements can be met, and better operation experience is brought to a user; moreover, compared with a flip cover opened through a key structure, the flip cover assembly 59 of some embodiments of the present application can avoid the problem of dirt collection and dirt collection in the opening provided with the key structure, avoid the risk of key clamping, and the size of the flip cover assembly 59 can be made smaller; in addition, the pivotal hinge mechanism 223 and the elastic member 63 make the opening and closing of the flip cover assembly 59 more stable by the triangular relationship, and well maintain the opened and closed states. Further, since the flip cover assembly 59 is not separately provided, the problem of loss does not occur.

Referring to fig. 10-13, in some embodiments, the rotational hinge mechanism 223 includes a rotational slide conversion mechanism including a rotational end 224 and a sliding end 225, the rotational end 224 connecting the main body portion 16 and the flip cover assembly 59, the sliding end 225 being slidable relative to the main body portion 16, the elastic member 63 being disposed between the rotational end 224 and the sliding end 225. The rotation end 224 of the rotational slide conversion mechanism connects the main body portion 16 and the flip cover assembly 59, and the elastic member 63 is connected to the rotational slide conversion mechanism. The rotating end 224 of the rotation-slide converting mechanism can rotate as the flip cover assembly 59 rotates, and the sliding end 225 slides. The rotation-slide conversion mechanism can convert rotation into sliding, so that the rotation of the flip cover assembly 59 can be converted into sliding, and the elastic member 63 is arranged between the rotating end 224 and the sliding end 225, so that the elastic member 63 can stretch along with the sliding of the sliding end, thereby ensuring the stability of opening and closing the cover. The elastic member 63 can be extended and retracted in the linear direction, and the elastic deformation is stable, so that the opening and closing of the cover is stable.

In some embodiments, the rotational slide conversion mechanism includes a crank block mechanism 62, the crank block mechanism 62 connecting the main body portion 16 and the flip cover assembly 59, and the elastic member 63 connected to the crank block mechanism 62. The crank block mechanism 62 is rotatable and slidable as the flip cover assembly 59 rotates, and the elastic member 63 moves with the movement of the crank block mechanism 62. A hinge assembly 61 may be located within the main body portion 16 and connected to the flip cover assembly 59.

When the flip cover assembly 59 is closed, the elastic member 63 and the slider-crank mechanism 62 form a triangle, and the slider-crank mechanism 62 protrudes to one side of the elastic member 63. When the flip cover assembly 59 is opened, the elastic member 63 and the slider-crank mechanism 62 form a triangle, and the slider-crank mechanism 62 protrudes to the other side of the elastic member 63. During the opening or closing of the flip cover assembly 59, the slider-crank mechanism 62 protrudes from one side of the elastic member 63 to the other side of the elastic member 63 through the dead point position. When the extending direction of the crank slider mechanism 62 coincides with the extending direction of the elastic member 63, the crank slider mechanism 62 is at the dead point position. When the flip cover assembly 59 is closed, the triangle formed by the resilient member 63 and the slider-crank mechanism 62 and the tension of the resilient member 63 maintain the flip cover assembly 59 in the closed position and in close proximity to the rim of the blender cup assembly 13. The triangle formed by the resilient member 63 and the crank block mechanism 62 and the tension of the resilient member 63 maintain the flip cover assembly 59 in the open position when the flip cover assembly 59 is opened.

The turning cover assembly 59 is opened and closed through the crank slider mechanism 62 and the elastic piece 63, keys for opening and closing operations are not arranged on the turning cover assembly 59, the opening and closing of the turning cover assembly 59 are not limited to one position, the opening and closing operations can be realized at a plurality of positions of the turning cover assembly 59, the operation is more convenient, the usability is improved, the structure of the turning cover assembly 59 is more compact and simpler, the industrial design with higher requirements can be met, and more surprise experiences can be brought to users; moreover, compared with a flip cover opened through a key structure, the flip cover assembly 59 of some embodiments of the present application can avoid the problem of dirt collection and dirt collection in the opening provided with the key structure, avoid the risk of key clamping, and the size of the flip cover assembly 59 can be made smaller; in addition, the slider-crank mechanism 62 and the elastic member 63 make the opening and closing of the flip cover assembly 59 more stable by the triangular relationship, and the open and closed states are well maintained.

In some embodiments, the elastic member 63 includes a tension spring. The tension springs may provide tension so that the flip cover assembly 59 may be well held in the open and closed positions.

Fig. 14 shows an exploded perspective view of the hinge assembly 61. Referring to fig. 10-14, in some embodiments, the crank-slider mechanism 62 includes a crank 64, a connecting rod 65 rotationally coupled to the crank 64, and a slider 66 coupled to the connecting rod 65. A slider block 66 is provided at the end of the connecting rod 65 remote from the crank 64. The crank 64 connects the flip cover assembly 59 to the main body portion 16 and the slide 66 is slidable relative to the main body portion 16. The end of the crank 64 away from the connecting rod 65 is a rotating end 224, the end of the connecting rod 65 away from the crank 64 is a sliding end 225, and the slider 66 is arranged at the sliding end 225. The crank 64 may serve as a pivot to connect the flip cover assembly 59 to the main body portion 16. The crank 64 is fixedly connected with the flip cover assembly 59. referring to fig. 15, the flip cover assembly 59 includes a shaft hole 70, and the crank 64 is inserted into the shaft hole 70 and is fixedly assembled with the shaft hole 70. With continued reference to fig. 10-14, the crank 64 is rotatable relative to the body portion 16. The flip cover assembly 59 rotates, bringing the crank 64 to rotate together. The crank 64 has one end connected to the flip cover assembly 59 and the main body portion 16 and the other end rotatably connected to the link 65. The crank 64 may be connected to the connecting rod 65 by a bolt 71. The rotational axis of the end of the crank 64 connected to the flip cover assembly 59 is a first axis 67, and the rotational axis of the end connected to the link 65 is a second axis 68. One end of the connecting rod 65 is rotatably connected to the crank 64, and the other end is connected to the slider 66. In some embodiments, the link 65 and the slider 66 are fixedly connected. When the crank 64 rotates, the connecting rod 65 is driven to rotate, and the sliding block 66 is driven to slide and rotate. In other embodiments, the link 65 and the slider 66 are rotatably connected, and when the link 65 rotates, the end of the link 65 connected to the slider 66 rotates relative to the slider 66, and the slider 66 slides. The rotation axis of one end of the connecting rod 65 connected with the slide block 66 is a third axis 69.

The elastic member 63 is provided between the slider 66 and the crank 64. Both ends of the elastic member 63 are respectively pulled. One end of the elastic member 63 is connected to the slider 66 and is movable in a direction away from or toward the other end of the elastic member 63 as the slider 66 slides. One end of the elastic member 63 may be sleeved outside the sliding block 66, in some embodiments, the sliding block 66 may rotate relative to the elastic member 63 to hook the elastic member 63 in the extending direction of the elastic member 63, and the sliding block 66 cooperates with the elastic member 63 in the extending direction of the elastic member 63 to pull the elastic member 63. The other end of the elastic member 63 is fixed, the position of the elastic member 63 is kept unchanged in the extending direction, the elastic member 63 can be fixed relative to the main body part 16, the elastic member 63 can be connected with the main body part 16, or the flip cover assembly 59 can be connected with the flip cover assembly 59, the flip cover assembly 59 can rotate relative to the elastic member 63, the elastic member 63 is pulled in the extending direction of the elastic member 63, and the elastic member 63 is in limit fit with the elastic member 63 in the extending direction of the elastic member 63. One end of the elastic member 63 is movable and the other end is fixed so that the elastic member 63 can be stretched and restored. One end of the elastic member 63 is movable in accordance with the movement of the crank slider mechanism 62, and the other end is fixed so that the elastic member 63 can be stretched and restored in accordance with the movement of the crank slider mechanism 62, and thus can be stretched and restored in accordance with the inversion of the flip cover assembly 59. Accordingly, the flip cover assembly 59 may be flipped relative to the main body portion 16 by the hinge assembly 61.

When the flip cover assembly 59 is closed, the crank 64, the link 65 and the elastic member 63 form a triangle, and the connection point of the crank 64 and the link 65 is located at one side of the elastic member 63. When the flip cover assembly 59 is opened, the crank 64, the link 65 and the elastic member 63 form a triangle, and the connection point of the crank 64 and the link 65 is located at the other side of the elastic member 63. The elastic member 63 extends between a first axis 67 and a third axis 69, the first axis 67 and the third axis 69 being in the extending direction of the elastic member 63. When the flip cover assembly 59 is closed, the connecting position of the crank 64 and the connecting rod 65 is positioned on one side of the extending direction of the elastic member 63, and when the first axis flip cover assembly 59 is opened, the connecting position of the crank 64 and the connecting rod 65 is positioned on the other side of the extending direction of the elastic member 63. When the flip cover assembly 59 is closed, the second axis 68 is located at one side of the elastic member 63, and the first axis 67, the second axis 68 and the third axis 69 are not in a straight line to form a virtual triangle, so that a stable tightening force can be obtained, and the flip cover assembly 59 is tightly closed. When the flip cover assembly 59 is opened, the second axis 68 is located on the other side of the elastic member 63, and the first axis 67, the second axis 68 and the third axis 69 are not aligned to form a virtual triangle, so that a stable tightening force can be obtained to stably maintain the flip cover assembly 59 at an opening angle. The second axis 68 passes over the elastic member 63 from one side of the elastic member 63 to the other side of the elastic member 63 during opening and closing of the flip cover assembly 59. The second axis 68 passes from one side of the dead point line 72, across the dead point line 72, to the other side of the dead point line 72, the dead point line 72 being the central axis of the elastic member 63. The tension of the resilient member 63 maintains the flip cover assembly 59 in the closed position and the open position.

Thus, when the flip cover assembly 59 is closed, the crank 64, the connecting rod 65 and the elastic member 63 form a triangle, and the elastic member 63 can provide a stable tightening force to make the flip cover assembly 59 closed tightly; when the flip cover assembly 59 is opened, the crank 64, the link 65 and the elastic member 63 form a triangle shape, so that a stable tension force can be obtained, and the flip cover assembly 59 is stably maintained at an opening angle by the tightening force of the elastic member 63, thereby preventing the flip cover assembly 59 from automatically rebounding and closing.

In some embodiments, the elastic member 63 extends in the up-down direction. When the flip cover assembly 59 is closed, the rotary hinge 223 protrudes toward the side of the elastic member 63 facing away from the stirring cup assembly 13, and when the flip cover assembly 59 is opened, the rotary hinge 223 protrudes toward the side of the elastic member 63 facing toward the stirring cup assembly 13. In some embodiments, the slider-crank mechanism 62 protrudes toward the side of the elastic member 63 facing away from the stirring cup assembly 13 when the flip-top cover assembly 59 is closed, and the slider-crank mechanism 62 protrudes toward the side of the elastic member 63 facing toward the stirring cup assembly 13 when the flip-top cover assembly 59 is opened. When the flip cover assembly 59 is closed, the connecting rod 65 and the crank 64 are connected at the side of the elastic member 63 facing away from the stirring cup assembly 13, and the second axis 68 is located at the side of the elastic member 63 facing away from the stirring cup assembly 13 relative to the side of the elastic member 63 facing away from the stirring cup assembly 13. When the flip cover assembly 59 is opened, the connection point of the connecting rod 65 and the crank 64 is located at the side of the elastic member 63 close to the stirring cup assembly 13, and the second axis 68 is located at the side of the elastic member 63 close to the stirring cup assembly 13 relative to the side of the elastic member 63 close to the stirring cup assembly 13. During opening, the connection between the connecting rod 65 and the crank 64 moves from the side of the elastic member 63 away from the stirring cup assembly 13 to the side close to the stirring cup assembly 13. The process of closing and opening is reversed. In other embodiments, the slider-crank mechanism 62 projects toward the side of the elastic member 63 facing the stirring cup assembly 13 when the flip cover assembly 59 is closed, and the slider-crank mechanism 62 projects toward the side of the elastic member 63 facing away from the stirring cup assembly 13 when the flip cover assembly 59 is opened.

In some embodiments, the maximum distance L1 (shown in fig. 11) that the rotary hinge mechanism 223 protrudes relative to the elastic member 63 when the flip cover assembly 59 is closed is greater than the maximum distance L2 (shown in fig. 13) that the rotary hinge mechanism 223 protrudes relative to the elastic member 63 when the flip cover assembly 59 is open. In some embodiments, the maximum distance L1 (shown in fig. 11) that the crank-slider mechanism 62 protrudes relative to the resilient member 63 when the flip-top cover assembly 59 is closed is greater than the maximum distance L2 (shown in fig. 13) that the crank-slider mechanism 62 protrudes relative to the resilient member 63 when the flip-top cover assembly 59 is open. The distance from the second axis 68 to the central axis of the elastic member 63 when the flip cover assembly 59 is closed is greater than the distance from the second axis 68 to the central axis of the elastic member 63 when the flip cover assembly 59 is opened. The crank slider mechanism 62 protrudes farther when the turnover cover assembly 59 is covered, and the crank slider mechanism 62 protrudes to one side of the elastic piece 63 back to the stirring cup assembly 13 when the turnover cover assembly 59 is covered, so that the space of the turnover cover assembly 59 in the main body part 16 is utilized, the structure of the main body part 16 is compact, the size can be designed to be smaller, and the reasonable utilization and miniaturization of the space are facilitated. The slider-crank mechanism 62 is protruding to stretch more closely towards one side of stirring cup subassembly 13 to elastic component 63 when upset lid subassembly 59 is opened, and elastic component 63 can set up and be close to stirring cup subassembly 13, and main part 16 can be less in the size towards stirring cup subassembly 13's horizontal direction, and the size can be less around so main part 16 to the size can be less around the cooking machine 10 is whole, is favorable to the miniaturization, more is favorable to placing on the operation mesa of small-size.

In some embodiments, the hinge assembly 61 includes a support bracket 73 that supports the slider-crank mechanism 62. The lever slider mechanism 62 and the elastic member 63 may be assembled to opposite sides of the support frame 73. The handle slider mechanism 62 may be located on a side of the support bracket 73 adjacent the flip cover assembly 59. The support bracket 73 is fixedly connected to the main body portion 16 and includes a slide groove 74. In some embodiments, the hinge assembly 61 may be assembled to the body portion 16 as a single unit after the crank block mechanism 62 and the elastic member 63 may be assembled to the support bracket 73. In other embodiments, the support bracket 73 may be integrally formed with the body portion 16, and the handle slider mechanism 62 and the elastic member 63 are respectively assembled to the support bracket 73. One end of the crank 64 is provided with a crank rotating shaft 75, the crank rotating shaft 75 is fixedly connected with the turnover cover component 59 and is rotatably connected with the main body part 16, and the other end of the crank 64 is rotatably connected with the connecting rod 65. The crank shaft 75 extends in the transverse direction of the food processor 10 and serves as a shaft for the flip cover assembly 59. The crank shaft 75 is rotatably connected to the support frame 73, passes through the support frame 73, and is rotatable relative to the support frame 73, so as to be rotatably connected to the main body 16 through the support frame 73 and rotatable relative to the main body 16. In some embodiments, the crank shaft 75 passes through the support bracket 73 and is connected to the elastic member 63. One end of the elastic member 63 is connected to the slider 66, and the slider 66 is slidably located in the slide groove 74. The slider 66 slides along the slide channel 74 when the crank-slider mechanism 62 moves. In some embodiments, the slide block 66 and the link 65 are fixedly connected, and the slide block 66 can slide in the slide slot 74 and rotate simultaneously. The slider 66 slides along the slide slot 74 and thus along a fixed path, ensuring stable opening and closing of the flip cover assembly 59.

In some embodiments, one end of the elastic member 63 is connected to the slider 66, and the other end of the elastic member 63 is connected to the main body 16, the flip cover assembly 59, or other components of the hinge assembly 61. In some embodiments, the other end of the elastic member 63 is connected to the crank shaft 75, the body portion 16 or the support bracket 73. The spring 63 includes a first spring end 76 connected to the slider 66 and an opposite second spring end 77. The second spring end 77 is connected to the body portion 16, flip cover assembly 59, or other component of the hinge assembly 61. One end of the elastic member 63 is fixed to ensure the stability of opening and closing. In some embodiments, the second elastic member end 77 of the elastic member 63 is connected to the crank shaft 75, the crank shaft 75 pulls the elastic member 63 in the extending direction of the elastic member 63, and the second elastic member end 77 of the elastic member 63 can be hooked on the crank shaft 75. When the crank shaft 75 rotates, it can rotate relative to the elastic member 63, and the second elastic member end 77 of the elastic member 63 connected to the crank shaft 75 remains stationary. In other embodiments, the second elastic member end 77 of the elastic member 63 is connected to the main body portion 16, and the second elastic member end 77 of the elastic member 63 may be fixedly connected to the main body portion 16. In still other embodiments, the second end 77 of the elastic member 63 can be connected to the supporting frame 73, and can be fixedly connected to the supporting frame 73. In other embodiments, the second end 77 of the elastic member 63 may be connected to the flip cover assembly 59, and when the flip cover assembly 59 rotates, the flip cover assembly 59 may rotate relative to the elastic member 63, and the flip cover assembly 59 pulls the elastic member 63 in the extending direction of the elastic member 63. In other embodiments, the second spring end 77 of the spring 63 can be connected to other components such that the position of the second spring end 77 is unchanged.

In some embodiments, in an orthographic projection in a plane perpendicular to the crank rotation shaft 75, the axial center of the crank rotation shaft 75, the central axis of the elastic member 63, and the central axis of the slide groove 74 are aligned. Thus, the opening and closing stability can be improved. As shown in fig. 11 and 13, the axis of the crank rotating shaft 75 is the first axis 67, and in an orthogonal projection in a plane perpendicular to the crank rotating shaft 75, the axis of the crank rotating shaft 75 is located on the central axis of the elastic member 63, and the central axis of the sliding groove 74 and the central axis of the elastic member 63 are overlapped. So when closing and opening, stable structure guarantees that the stable lid of upset lid subassembly 59 closes and opens.

In some embodiments, the angle between the resilient member 63 and the link 65 is less than 90 degrees when the flip cover assembly 59 is closed and opened. When the flip cover assembly 59 is closed and opened, in an orthographic projection in a plane perpendicular to the crank rotating shaft 75, included angles between connecting lines between the central axis of the elastic member 63 and rotating axes of two ends of the connecting rod 65 are both smaller than 90 degrees, and included angles between a connecting line of the first axis 67 and the third axis 69 and a connecting line of the second axis 68 and the third axis 69 are both smaller than 90 degrees. As shown in fig. 11, angle a is less than 90 degrees and in fig. 13 angle b is less than 90 degrees. The angle between the elastic member 63 and the link 65 is less than 90 degrees, and the flip cover assembly 59 is easily rotated.

With continued reference to fig. 11, 13, and 14, in some embodiments, the host 11 further includes a switching magnetic member 81 and a switching inductive magnetic switch 82. The opening/closing magnetic member 81 is provided on the hinge assembly 61, and is movable relative to the main body portion 16 when the flip cover assembly 59 is rotated, and the opening/closing induction magnetic switch 82 is fixed relative to the main body portion 16. When the flip cover assembly 59 rotates, the opening and closing magnetic member 81 moves, and the opening and closing induction magnetic switch 82 remains stationary. When the flip cover assembly 59 is closed, the opening and closing magnetic member 81 is in the sensing range of the opening and closing sensing magnetic switch 82, the opening and closing sensing magnetic switch 82 is closed, and when the flip cover assembly 59 is opened, the opening and closing magnetic member 81 is located outside the sensing range of the opening and closing sensing magnetic switch 82, and the opening and closing sensing magnetic switch 82 is disconnected. When the flip cover assembly 59 is closed, the opening and closing magnetic member 81 is close to the opening and closing induction magnetic switch 82, and when the flip cover assembly 59 is opened, the opening and closing magnetic member 81 is far from the opening and closing induction magnetic switch 82. The controller (not shown) of the food processor 10 can detect the on-off state of the opening and closing induction magnetic switch 82, and determine the opening and closing state of the flip cover assembly 59 according to the on-off state of the opening and closing induction magnetic switch 82, thereby performing different controls on the food processor 10. For example, when the flip cover assembly 59 is determined to be closed, the food processor 10 can be controlled to start the food processing operation, and when the flip cover assembly 59 is determined to be opened, the protection mode can be started, for example, the motor 21 is controlled not to rotate, and the stirring blade assembly 25 is not rotated, so that the safety is improved.

The opening and closing magnetic part 81 closes the opening and closing induction magnetic switch 82 when the flip cover assembly 59 is closed, and opens the opening and closing induction magnetic switch 82 when the flip cover assembly 59 is opened, so that the food processor 10 can work according to the opening and closing of the opening and closing induction magnetic switch 82, for example, when the opening and closing induction magnetic switch 82 is opened, a protection mode is started to improve the safety; in addition, the opening and closing magnetic part 81 is arranged on the hinge assembly 61, and the structure is compact and the performance is stable.

In some embodiments, the hinge assembly 61 includes a hinge transmission 83 connecting the body portion 16 and the flip cover assembly 59 and a support bracket 73 supporting the hinge transmission 83. The flip cover assembly 59 is rotatable relative to the main body 16 by a hinge mechanism 83, the support bracket 73 is fixed to the main body 16, and the opening and closing magnetic member 81 is disposed on the hinge mechanism 83. The hinge transmission mechanism 83 moves when the flip cover assembly 59 is flipped, and the opening and closing magnetic member 81 is disposed on the hinge transmission mechanism 83 and can move together with the hinge transmission mechanism 83. The support bracket 73 can assemble the hinge actuator 83 to the main body 16 for easy installation. The opening and closing magnetic member 81 moves together with the hinge transmission mechanism 83, and the movement of the flip cover assembly 59 can be accurately reflected, so that the opening and closing of the flip cover assembly 59 can be accurately detected. In some embodiments, the open/close magnetic switch 82 is disposed on the support bracket 73. The support bracket 73 is fixed to the main body portion 16, and the opening/closing inductive magnetic switch 82 is fixed to the main body portion 16 via the support bracket 73, so that the opening/closing inductive magnetic switch 82 is fixed to the main body portion 16. The opening and closing magnetic part 81 is arranged on the hinge transmission mechanism 83, and the opening and closing induction magnetic switch 82 is arranged on the support frame 73, so that the opening and closing magnetic part 81 and the opening and closing induction magnetic switch 82 are both arranged on the support frame 73, and therefore, the signal stability is good, the structure is compact, and the assembly process is simple. The supporting frame 73 can be assembled on the main body 16, and the opening and closing magnetic member 81, the opening and closing induction magnetic switch 82 and the hinge transmission mechanism 83 are assembled on the supporting frame 73 and then assembled on the main body 16 together, thereby facilitating the installation.

In some embodiments, the hinge transmission mechanism 83 includes a rotary hinge mechanism 223 and an elastic member 63. In some embodiments, the hinge transmission mechanism 83 includes a slider-crank mechanism 62 and an elastic member 63, and the opening and closing magnetic member 81 is provided on the slider-crank mechanism 62. The opening and closing magnetic member 81 moves along with the movement of the slider-crank mechanism 62, and the opening and closing state of the flip cover assembly 59 can be accurately represented, so that the detection is accurate. In some embodiments, the opening and closing magnetic member 81 is disposed on the sliding block 66. Slider 66 is located to magnetism spare 81 that opens and shuts, slider 66 movement displacement is great, thereby magnetism spare 81 that opens and shuts is great for the movement displacement of the response magnetic switch 82 that opens and shuts, the distance that magnetism spare 81 that opens and shuts moved between the response region of the response magnetic switch 82 that opens and shuts and the non-response region is big, can move and be closer to the response magnetic switch 82 that opens and shuts, guarantee to open and shut response magnetic switch 82 closed, and can move and be farther away from the response magnetic switch 82 that opens and shuts, guarantee to open and shut response magnetic switch 82 disconnection, thereby can switch between triggering the response magnetic switch 82 that opens and shuts and the disconnection more accurately, the state that opens and shuts of flip lid subassembly 59 is distinguished more accurately, reduce the condition of spurious triggering, improve the accuracy of the judgement that opens and shuts of flip lid subassembly 59.

In some embodiments, the slide channel 74 extends in an up-down direction, and the slide block 66 is slidably positioned within the slide channel 74. The opening and closing induction magnetic switch 82 is located above or below the slide groove 74. The slider 66 is located at one end of the slide groove 74 close to the opening and closing induction magnetic switch 82 in the up-down direction when the flip cover assembly 59 is closed, and the slider 66 is located at the other end of the slide groove 74 in the up-down direction when the flip cover assembly 59 is opened. The slider 66 slides up and down, and the elastic member 63 extends up and down and deforms up and down. In some embodiments, the opening and closing magnetic switch 82 is located above the sliding slot 74, the sliding block 66 is located at the upper end of the sliding slot 74 when the flip cover assembly 59 is closed, the sliding slot 74 abuts against the sliding block 66, the opening and closing magnetic member 81 disposed on the sliding block 66 is close to the opening and closing magnetic switch 82, and the opening and closing magnetic switch 82 is closed. When the flip cover assembly 59 is opened, the slider 66 is located at the lower end of the slide groove 74, the opening and closing magnetic member 81 provided on the slider 66 is away from the opening and closing induction magnetic switch 82, and the opening and closing induction magnetic switch 82 is opened. In other embodiments, the opening and closing magnetic switch 82 is located below the sliding slot 74, the sliding block 66 is located at the lower end of the sliding slot 74 when the flip cover assembly 59 is closed, the opening and closing magnetic member 81 is close to the opening and closing magnetic switch 82, and the opening and closing magnetic switch 82 is closed. When the flip cover assembly 59 is opened, the slider 66 is located at the upper end of the slide groove 74, the opening and closing magnetic member 81 is away from the opening and closing induction magnetic switch 82, and the opening and closing induction magnetic switch 82 is opened. The structure is simple and compact, the opening and closing induction magnetic switch 82 can be triggered more accurately, the condition of false triggering is reduced, and the accuracy of opening and closing judgment of the turnover cover component 59 is improved.

In some embodiments, a slider 66 is fixedly attached to an end of the connecting rod 65 distal from the crank 64, the slider 66 being slidable and rotatable upon opening and closing of the flip cover assembly 59. The axial direction of the open-close magnetic part 81 is intersected with the rotation plane of the sliding block 66, and the open-close magnetic part 81 is a magnetic part magnetized in the radial direction. The opening and closing magnetic member 81 slides and rotates synchronously with the sliding and rotating of the slider 66. The radial direction of the opening and closing magnetic member 81 is in the rotation plane of the slider 66, and the opening and closing magnetic member 81 extends from one side to the other side of the opening and closing induction magnetic switch 82. The open-close inductive magnetic switch 82 is magnetized in the radial direction, and the peripheral wall has magnetic poles in the axial direction. The problem of angle change and lead to the switch mistake that opens and shuts when sliding and rotating can be solved to the radial magnetization of switching response magnetic switch 82, and the magnetic part 81 that opens and shuts can effectively trigger the switching response magnetic switch 82 closed when being close to switching response magnetic switch 82, prevents the condition that can not trigger to improve the rate of accuracy that judges that opens and shuts of flip cover subassembly 59.

In some embodiments, the opening and closing magnetic switch 82 can be fixed to the support bracket 73 by screws, snaps, or glue. In some embodiments, the slider 66 may be cylindrical and may rotate within the slide channel 74. In some embodiments, the opening and closing magnetic member 81 may be circular, square or irregular.

Fig. 16 is a partial schematic view of the interior of the food processor 10 shown from the rear side of the main body 16. Fig. 17 is a partial cross-sectional view of the food processor 10 of fig. 16 taken along line C-C. Fig. 18 shows an exploded perspective view of the flip cover assembly 59. Referring to fig. 15-18, the flip cover assembly 59 includes a flip cover 84 rotatably coupled to the body portion 16 and an inlet conduit 60 fixedly secured to the flip cover 84. The flip cover 84 may cover the rim of the blender cup assembly 13 with the water inlet conduit 60 extending toward the rim of the blender cup assembly 13. The water delivery assembly 14 includes a water delivery tube 85 connected to the water tank 12 and a spindle tube 86 connected to the water delivery tube 85. The pivot tube 86 is fixedly connected to the body portion 16, the inlet tube 60 is rotatably coupled to the pivot tube 86, and the flip cover 84 is rotatable about the pivot tube 86 relative to the body portion 16. In some embodiments, the flip cover 84 may cover the rim of the blender cup assembly 13 and sealingly close thereto. Water conduit 85 connects water tank 12, water pump 26 (shown in fig. 5), i.e., thermal assembly 27, and shaft conduit 86. The spindle conduit 86 may convey water to the inlet conduit 60 for injection into the blender cup assembly 13 via the inlet conduit 60. The pivot tube 86 is fixedly connected to the body portion 16, and the inlet tube 60 is rotatably connected to the pivot tube 86 such that the flip cover 84 rotates relative to the pivot tube 86 and rotates about the pivot tube 86, such that the pivot tube 86 can serve as a pivot for the flip cover 84 to rotate, and the pivot tube 86 can be used for both water intake and a pivot. Therefore, the water pipe cannot be bent in rotation, and the rotating shaft pipeline 86 and the water pipe 85 cannot be bent in rotation, so that the problem that the pipe is folded due to rotation of the turnover cover 84 can be solved, the service life is prolonged, water leakage caused by pipe folding is prevented, and the safety is improved. In some embodiments, the spindle conduit 86 is inserted into the water inlet conduit 60. In other embodiments, the water inlet conduit 60 is inserted into the spindle conduit 86.

In some embodiments, the pivot tube 86 extends into the flip cover 84 in rotatable connection with the flip cover 84, and the pivot tube 86 and the inlet tube 60 interface within the flip cover 84. A spindle conduit 86 extends from the body portion 16 into the flip cover 84. The pivot tube 86 does not extend beyond the flip cover 84. The rotation shaft pipe 86 extends into the flip cover 84 so as to better connect the flip cover 84 and the main body 16, the rotation shaft pipe 86 and the water inlet pipe 60 are butted in the flip cover 84 so as to protect the butted position of the two, and when the flip cover 84 rotates, the uniform side of the flip cover 84 and the water inlet pipe 60 moves relative to the rotation shaft pipe 86, friction exists between the rotation shaft pipe 86 and the main body 16, and thus the rotation is smoother. In other embodiments, the water inlet conduit 60 may extend into the body portion 16, interfacing with the spindle conduit 86 within the body portion 16. The spindle conduit 86 does not extend beyond the body portion 16. One side of the water inlet conduit 60 is in rotational friction with the spindle conduit 86 and the other side is in rotational friction with the main body 16.

Fig. 19 shows a perspective view of the spindle conduit 86. Referring to fig. 16, 17 and 19, in some embodiments, the spindle conduit 86 includes a first subduct 88 extending along the axis of rotation 87 of the flip cover 84, and a second subduct 89 connected to the first subduct 88. The extending direction of the second sub-pipe 89 is intersected with the rotating axis 87 of the turnover cover 84, the water inlet pipe 60 is in rotating butt joint with the first sub-pipe 88 on the rotating axis 87 of the turnover cover 84, and the second sub-pipe 89 is connected with the water conveying pipe 85. The first sub-conduit 88 and the second sub-conduit 89 communicate. The extending directions of the first sub-pipeline 88 and the second sub-pipeline 89 are crossed, and the rotating shaft pipeline 86 is a bent pipe, so that the rotating shaft pipeline 86 can be more conveniently connected with the water inlet pipeline 60 and the water conveying pipe 85, the structure is compact, and the assembly is simple. The first sub-pipe 88 serves as a rotation axis, and the second sub-pipe 89 changes a pipe path, and is connected to the water pipe 85. Second sub-conduit 89 may be perpendicular to first sub-conduit 88, with second sub-conduit 89 extending downward and communicating with the underlying instant heating assembly 27 via water delivery conduit 85. So that the water pipe 85 does not need to be bent. The second sub-duct 89 is fixedly assembled to the main body portion 16.

Fig. 20 is an enlarged view of a partial region 10a of the food processor 10 shown in fig. 17. Referring to fig. 19 and 20, in some embodiments, a sealing ring 90 is disposed between the shaft conduit 86 and the water inlet conduit 60. The sealing ring 90 is waterproof. A sealing ring 90 is arranged at the joint of the rotating shaft pipeline 86 and the water inlet pipeline 60. A sealing ring 90 is located between the shaft conduit 86 and the side wall of the inlet conduit 60. In some embodiments, the outer sidewall of the shaft conduit 86 is recessed to form a sealing groove 91, the sealing ring 90 is retained in the sealing groove 91, and the sealing ring 90 is in sealing contact with the inner sidewall of the water inlet conduit 60. The sealing ring 90 is clamped in the sealing groove 91, so that the assembly is more stable, the displacement is not easy, and the sealing effect is better. The sealing ring 90 is ring-shaped, and the sealing groove 91 is an annular groove. In some embodiments, a seal groove 91 is recessed in first subduct 88.

Referring to fig. 18 and 20, in some embodiments, the inlet conduit 60 includes an adapter 92 and an outlet pipe 93 connected to the adapter 92. The adapter 92 includes a first adapter tube 94 and a second adapter tube 95 connected to the first adapter tube 94, the first adapter tube 94 extending along the rotational axis 87 of the flip cover 84 and being in rotational engagement with the spindle tube 86. The extending direction of the second adapter tube 95 is intersected with the rotation axis 87 of the turning cover 84, the second adapter tube 95 is connected with the water outlet tube 93, and the water outlet tube 93 extends towards the cup opening of the stirring cup assembly 13 when the turning cover 84 is covered. The second adapter tube 95 may extend perpendicular to the rotation axis 87 of the flip cover 84 and in a horizontal plane with the first adapter tube 94 on the cross section of the food processor 10. The second adapter tube 95 may be perpendicular to the first adapter tube 94. Adapter 92 bends and extends, can dock with pivot pipeline 86 well, and can be connected with the outlet pipe 93 that extends to stirring cup subassembly 13 top, can introduce the water that the pivot direction came in well toward stirring cup subassembly 13 in, and simple structure is compact, and the assembly is simple. The adapter 92 and the outlet pipe 93 can be independent parts and assembled together by plugging.

Referring to fig. 16, 18 and 20, in some embodiments, the flip cover assembly 59 includes a hinge portion 78 rotatably connected to the body portion 16, the hinge portion 78 including opposing first and second hinge sides 79 and 80, each of the first and second hinge sides 79 and 80 intersecting a rotation axis 87 of the hinge portion 78. The hinge assembly 61 is attached to the first hinged side 79 and one end of the inlet conduit 60 extends toward the second hinged side 80 to interface with the water delivery assembly 14. The flip cover 84 includes a hinge portion 78, and the first hinge side 79 and the second hinge side 80 are opposite sides in the direction of the rotation axis 87 of the hinge portion 78. The crank slider mechanism 62 of the hinge assembly 61 is connected to the first articulation side 79 and the crank 64 of the crank slider mechanism 62 is connected to the first articulation side 79. The adapter 92 of the inlet conduit 60 extends toward the second hinge side 80 and the first adapter 94 extends from a middle of the hinge 78 toward the second hinge side 80. The pivot tube 86 is located at the second hinge side 80 and is connected to the second hinge side 80. In some embodiments, the hinge assembly 61 and the water inlet conduit 60 may be interchangeable in position. The hinge assembly 61 and the water inlet pipe 60 are respectively arranged at two sides of the hinge part 78 of the turnover cover assembly 59, the hinge assembly 61 can be connected with the turnover cover assembly 59 and the main body part 16 at one side to serve as a rotating shaft at one side, and the water inlet pipe 60 can be connected with the turnover cover assembly 59 and the main body part 16 at the other side to serve as a rotating shaft at the other side, so that the structure is compact and simple.

Fig. 21 shows a partially exploded perspective view of the flip cover assembly 59. Fig. 22 shows a perspective view of the flip cover assembly 59 from the bottom. Fig. 23 is an enlarged view of a partial region 10b of the food processor 10 shown in fig. 9. Referring to fig. 18, 21-23, the flip cover assembly 59 includes a flip cover body 96 rotatably coupled to the main body portion 16, a liner cover assembly 97 removably assembled to the flip cover body 96, and the water inlet conduit 60 provided in the flip cover body 96. The flip cover 84 includes a flip cover body 96 and a liner cover assembly 97. In some embodiments, the flip top cover 96 includes a flip top cover 98 and a flip bottom cover 99 fixedly assembled to the flip top cover 98, and the water inlet conduit 60 is assembled between the flip top cover 98 and the flip bottom cover 99. The liner cover assembly 97 is detachably assembled to the bottom surface of the flip-top lower cover 99 facing away from the flip-top upper cover 98. When the flip cover assembly 59 is closed, the liner cover assembly 97 is positioned between the flip cover body 96 and the blending cup assembly 13 and sealingly assembled with the rim of the blending cup assembly 13. When the flip cover assembly 59 is closed, the liner cover assembly 97 separates the flip cover body 96 and the blender cup assembly 13. The lining cover assembly 97 of the turnover cover assembly 59 can be detached, the lining cover assembly 97 is contacted with food materials, the food materials are possibly adhered to the lining cover assembly 97 during stirring, the turnover cover body 96 is not contacted or basically not contacted with the food materials, and therefore the lining cover assembly 97 can be detached to be cleaned, and the cleaning is convenient.

In some embodiments, the flip cover 96 is provided with a slot 100 and a latch 101 on a side facing the liner cover assembly 97, and the slot 100 and the latch 101 are disposed on opposite sides of the flip cover 96. The lining cover assembly 97 includes a lining cover 102 and an elastic buckle 103 movably provided to the lining cover 102. The lining cover 102 is provided with pins 104, and the pins 104 and the elastic buckles 103 are oppositely arranged on two sides of the lining cover 102. When the lining cover assembly 97 is assembled on the flip cover 96, the pins 104 are inserted into the slots 100, and the elastic buckles 103 are clamped with the buckles 101. This facilitates the removal and installation of the bushing cap assembly 97. In some embodiments, the bottom end of the sidewall of the flip cover 96 is provided with a protrusion 105 protruding inward, and a distance is provided between the protrusion 105 and the bottom surface of the flip cover 96 to form the slot 100. In some embodiments, the edge of the liner cover 102 is stepped as a pin 104.

In some embodiments, the slot 100 is disposed on a side of the flip cover 96 facing away from the hinge 78, and the latch 101 is disposed on the hinge 78. The flip cover 96 includes a cover body 107 and a cover turning part 106 connected to the cover body 107. The lid body portion 107 may cover the blender cup assembly 13. The lid rotating portion 106 is rotatably connected to the body portion 16, the slot 100 is provided in the lid body portion 107, and the catch 101 is provided in the lid rotating portion 106. The liner cover 102 includes a liner cover main body 108 and a liner cover turning portion 109 connected to one side of the liner cover main body 108. The lining cover main body 108 is assembled with the cover main body 107 to cover the stirring cup assembly 13, and the lining cover rotating part 109 is assembled with the cover rotating part 106. The plug 104 is provided in the cover body 108, and the elastic buckle 103 is provided in the cover rotating part 109. The elastic buckle 103 is provided in the liner cover rotating portion 109, and has no or little influence on the covering of the flip cover body 96. The hinge portion 78 includes a cover turning portion 106 and a liner cover turning portion 109.

In some embodiments, the elastic buckle 103 includes a buckle 110 and an elastic member 111 elastically supported between the buckle 110 and the lining cover 102. The lock 110 is movable relative to the liner cover 102 by an elastic member 111, and the elastic member 111 extends in the direction of the liner cover main body portion 108 at the liner cover turning portion 109. When the lining cover assembly 97 is assembled on the flip cover 96, the lock 110 is engaged with the buckle 101. When the lining cover assembly 97 is disassembled, the latch 110 can be pushed towards the lining cover main body part 108, the elastic part 111 is elastically deformed, the latch 110 is separated from the buckle 101, and the pin 104 is separated from the slot 100, so that the lining cover assembly 97 can be disassembled. When the lining cover assembly 97 is installed, the pins 104 are inserted into the slots 100, the latches 110 are pushed towards the lining cover body 108, the elastic members 111 are elastically deformed, the latches 110 are released, the elastic members 111 are reset, and the latches 110 and the buckles 101 are clamped. Thus, the operation is convenient for the user and the operation can be carried out by one hand.

In some embodiments, the body portion 16 is provided with a rotation recess 112. referring to FIG. 5, the rotation recess 112 opens upwardly and toward the blending cup assembly 13, and the lid rotation portion 106 and the liner rotation portion 109 are located within the rotation recess 112 and are rotatably connected to the side walls of the rotation recess 112. When the flip cover assembly 59 is closed, the snap 101 and the elastic snap 103 are located in the rotation groove 112. The latch 101 and the resilient latch 103 are located in the rotational groove 112 of the body portion 16 and have little or no effect on the covering of the flip cover 96. In some embodiments, the hinge portion 78 of the flip cover assembly 59 has a gap from the bottom surface of the rotation groove 112, and the elastic buckle 103 and the liner cover 102 have a gap from the bottom surface of the rotation groove 112, so that the rotation is not affected. The flip cover assembly 59 extends from the rotating recess 112 in the direction of the blending cup assembly 13 when closed.

In some embodiments, the flip top cover 96 includes a cover bottom wall 113 facing the liner cover assembly 97 and a cover side wall 114 connected to the cover bottom wall 113. The cover side wall 114 extends beyond the cover bottom wall 113 toward the liner cover assembly 97. The latch 101 protrudes from the edge of the cover sidewall 114. When the liner cover assembly 97 is assembled to the flip cover 96, the resilient latch 103 is captured between the latch 101 and the cover bottom wall 113. The catch 101 is ribbed and projects laterally inwardly from the bottom edge of the lid side wall 114, spaced from the lid bottom wall 113. The buckle 101 has a simple structure and occupies a small space, so that the whole structure is compact and the processing and forming are convenient. The liner cover assembly 97 is assembled between the bottom lid wall 113 and the bottom edge of the lid side wall 114. In some embodiments, the rib 105 projects laterally inwardly from the bottom edge of the cover sidewall 114 and is spaced from the cover bottom wall 113 to form the slot 100.

In some embodiments, the cover bottom wall 113 is recessed with an avoiding groove 115 in a direction away from the liner cover assembly 97, and an orthographic projection of the latch 101 on the cover bottom wall 113 is located in the avoiding groove 115. When the lining cover assembly 97 is assembled on the flip cover 96, the elastic buckle 103 is partially located in the yielding groove 115 and clamped between the yielding groove 115 and the buckle 101, and the elastic buckle 103 can move in the yielding groove 115. The height of the offset groove 115 can be reduced, so that the height of the connecting part of the flip cover assembly 59 and the main body part 16 is lower, the height of the hinge part 78 is lower, and the height of the whole machine is lower. The buckle 101 extends from the bottom edge of the cover side wall 114 to the offset groove 115, the opening area of the offset groove 115 facing the buckle 101 is larger than the area of the buckle 101, and the elastic buckle 103 can move in the offset groove 115, so that the elastic buckle 103 can be clamped with the buckle 101 and also can move to be separated from the buckle 101. The relief groove 115 may extend laterally inward from the cover sidewall 114.

Fig. 24 is an enlarged view of a partial region 10C of fig. 23. Referring with emphasis to fig. 18, 21 and 24, in some embodiments, the flip cover body 96 includes a cover body through hole 116 through a surface of the flip cover body 96 facing the liner cover assembly 97, and the liner cover assembly 97 includes a liner cover water inlet hole 117. The position of the liner cover water inlet hole 117 corresponds to the position of the cover body through hole 116. And when the flip cover assembly 59 is closed, the liner cover water inlet 117 is communicated with the stirring cup assembly 13, and one end of the water inlet pipe 60 passes through the cover body through hole 116 and is in sealing and abutting contact with the periphery of the liner cover water inlet 117. The cover through hole 116 extends through the cover bottom wall 113 of the flip cover 96. The liner cover inlet opening 117 is in communication with the cover body through opening 116, and the liner cover inlet opening 117 is above the rim of the mixing cup assembly 13 when the flip cover assembly 59 is closed. The inlet conduit 60 extends from within the flip cover 96 through the cover through-hole 116, and the inlet conduit 60 abuts the surface of the liner cover 102 facing the flip cover 96. The water inlet pipe 60 is in sealing contact with the periphery of the liner cover water inlet hole 117, and water leakage during water inlet can be prevented.

In some embodiments, one end of the outlet tube 93 passes through the cover through-hole 116 and sealingly abuts the periphery of the liner cover inlet hole 117. The outlet pipe 93 includes a connection pipe 118 and a sealing head 119 connected to the connection pipe 118. The connection pipe 118 is assembled with the adaptor 92 and extends from one side of the flip cover 96 to the cover through hole 116 in the flip cover 96. The sealing head 119 extends in the thickness direction of the flip cover 96, passes through the cover through hole 116 from inside the flip cover 96, and sealingly abuts against the periphery of the liner cover water inlet hole 117. The water outlet pipe 93 has good sealing effect and simple structure. The connection tube 118 connects the adapter 92 and the sealing head 119, and guides water laterally into the mouth of the blender cup assembly 13, and the sealing head 119 extends downward to allow water to be injected into the blender cup assembly 13. In some embodiments, the outlet tube 93 may be integrally formed, and may be made of a flexible material such as rubber. In other embodiments, the connection tube 118 and the sealing head 119 may be assembled together after being molded separately, the sealing head 119 may be made of a flexible material such as rubber, and the connection tube 118 may be made of a flexible material such as rubber or other rigid materials.

In some embodiments, the sealing head 119 includes a water inlet fitting 120 connected to the connecting tube 118 and a water inlet seal 121 connected to an end of the water inlet fitting 120 proximate the liner cover assembly 97. The water inlet assembly 120 is assembled to the cover body through hole 116, and the water inlet sealing portion 121 is located outside the cover body through hole 116 and is in sealing contact with the periphery of the liner cover water inlet hole 117. The water inlet fitting 120 passes through the cover through hole 116, and the water inlet sealing portion 121 is located outside the flip cover 96 and between the flip cover 96 and the liner cover 102. The water inlet sealing portion 121 comprises a first water inlet sealing portion 122 connected with the water inlet assembling portion 120 and a second water inlet sealing portion 123 connected with one end, close to the lining cover assembly 97, of the first water inlet sealing portion 122, wherein the first water inlet sealing portion 122 is radially and gradually enlarged in the direction from the water inlet assembling portion 120 to the lining cover assembly 97, and the second water inlet sealing portion 123 is radially and gradually reduced in the direction from the first water inlet sealing portion 122 to the lining cover assembly 97. The first water inlet seal portion 122 has a horn shape with a large opening at the lower side, and the second water inlet seal portion 123 has a horn shape with a large opening at the upper side. The water inlet seal portion 121 has a certain elasticity in the vertical direction. Therefore, the sealing effect is good, and the good sealing effect can be ensured when the stirring vibration is carried out. The second water inlet sealing portion 123 guides water toward the water inlet hole 117 of the liner cover. In some embodiments, the height of the first water ingress seal 122 is greater than the height of the second water ingress seal 123. The sealing head 119 may be integrally formed.

Fig. 25 is a partially exploded perspective view of the main unit 11. In some embodiments, the host 11 includes a vent cover assembly 124 that is removably assembled to the flip cover assembly 59. Fig. 26 is a perspective view of the flip cover assembly 59. Referring to fig. 18, 25 and 26, the flip cover assembly 59 includes a vent through hole 125 and a vent gasket 126 assembled to the vent through hole 125. The vent seal 126 is not shown in fig. 26. The exhaust cover assembly 124 is assembled to the exhaust through hole 125, and the exhaust sealing ring 126 is sealed between the exhaust through hole 125 and the exhaust cover assembly 124. The vent seal 126 may function to prevent liquid leakage from the sides and also may function as a damping feature during assembly and disassembly of the vent cover assembly 124.

Fig. 27 is a perspective view of the vent seal 126. Fig. 28 is an enlarged view of a partial region 10e of the food processor 10 shown in fig. 2. The exhaust seal ring 126 includes an exhaust seal ring body 127 and a seal bead 128 protruding from an inner surface of the exhaust seal ring body 127. The exhaust seal ring main body 127 is assembled in the exhaust through hole 125, the exhaust cover assembly 124 is assembled in the exhaust seal ring main body 127, and the sealing rib 128 abuts against the exhaust cover assembly 124. The sealing ribs 128 may act to prevent liquid leakage from the sides and also act as a damper during assembly and disassembly of the exhaust cover assembly 124. The exhaust sealing ring main body 127 is annular and is sleeved in the exhaust through hole 125. The exhaust cover assembly 124 includes an exhaust cover main body 129 and an exhaust cover insertion part 130 downwardly protruded from the exhaust cover main body 129. The exhaust cover main body 129 covers the exhaust through hole 125, the exhaust cover insertion part 130 is inserted into the exhaust through hole 125, and the exhaust seal ring 126 is sealed between the exhaust through hole 125 and the exhaust cover insertion part 130. The exhaust cap insertion part 130 is inserted into the exhaust seal ring 126, and the outer side surface of the exhaust cap insertion part 130 abuts against the seal rib 128.

As shown in connection with fig. 21, in some embodiments, flip top cover 96 includes a cover vent hole 131 and liner cover assembly 97 includes a liner cover vent hole 132, the liner cover vent hole 132 being located at a position corresponding to the position of cover vent hole 131. The exhaust through hole 125 includes a cover exhaust hole 131 and a liner exhaust hole 132. The exhaust seal ring 126 is assembled in the lid exhaust hole 131 in a sealing manner, extends beyond the lid exhaust hole 131, and is in sealing contact with the periphery of the liner exhaust hole 132. The lid assembly 124 is assembled to the lid vent hole 131 and communicates with the blender cup assembly 13 through the lid vent hole 131 and the liner vent hole 132. The vent seal 126 is sealingly positioned between the lid vent hole 131 and the vent cover assembly 124. The exhaust seal ring 126 is in sealing contact with the liner cover 102, and the sealing effect is good. The liner cover 102 is detachable, and the exhaust sealing ring 126 can also ensure good sealing effect. The lid vent hole 131 extends vertically through the flip-top lid 96 and the liner vent hole 132 extends vertically through the liner assembly 97. The vent gasket 126 extends beyond the lid vent hole 131, protrudes beyond the bottom surface of the flip top lid 96, and extends toward the liner lid assembly 97. The bottom end of the vent seal 126 abuts the liner cover assembly 97 and surrounds the liner cover vent hole 132.

In some embodiments, the vent seal 126 is removably assembled to the lid vent hole 131, thus facilitating cleaning of the vent seal 126. The exhaust sealing ring 126 may be clamped at the edge of the cover exhaust hole 131. In some embodiments, the vent gasket 126 includes an annular seal groove 133, and the edge of the cover vent hole 131 is detachably retained in the seal groove 133. The exhaust seal ring 126 is easy to assemble and disassemble.

In some embodiments, the vent gasket 126 includes a vent fitting portion 134 and a vent sealing portion 135 connected to the vent fitting portion 134, the vent fitting portion 134 is assembled in the cover vent hole 131, and the vent sealing portion 135 is located outside the cover vent hole 131 and sealingly abuts against the periphery of the liner vent hole 132. In some embodiments, the vent fitting 134 is removably assembled to the cover vent hole 131. The exhaust fitting portion 134 is provided with a seal catching groove 133. The exhaust seal portion 135 is connected to an end of the exhaust fitting portion 134 facing the liner cover assembly 97. The exhaust sealing part 135 includes a first exhaust sealing part 136 connected to the exhaust fitting part 134 and a second exhaust sealing part 137 connected to one end of the first exhaust sealing part 136 near the liner cover assembly 97. The first exhaust seal portion 136 is radially gradually enlarged in a direction from the exhaust fitting portion 134 toward the cap unit 97, and the second exhaust seal portion 137 is radially gradually contracted in a direction from the first exhaust seal portion 136 toward the cap unit 97. The exhaust seal portion 135 has elasticity in the upper and lower directions. The first exhaust seal unit 136 is formed in a horn shape having a large lower opening, and the second exhaust seal unit 137 is formed in a horn shape having a large upper opening. So sealed effectual, and also can guarantee good sealed effect when the whipping vibration.

Referring to fig. 26 and 28, in some embodiments, the flip cover assembly 59 includes a flip cover front surface 138, a flip cover back surface 139 opposite the flip cover front surface 138, and a vent cover receiving slot 140 recessed from the flip cover front surface 138 toward the flip cover back surface 139. When the flip cover assembly 59 is closed, the flip cover back 139 faces the blender cup assembly 13, the vent through hole 125 is located in the vent cover receiving cavity 140, and the vent cover assembly 124 is received in the vent cover receiving cavity 140. The exhaust cover assembly 124 is received in the exhaust cover receiving groove 140, and the height thereof can be reduced. The flip top cover 96 and the liner cover assembly 97 are stacked in a direction from the flip top front 138 to the flip top back 139. The side of the flip top assembly 96 facing away from the flip top assembly 97 is a flip top front 138 and the side of the flip top assembly 97 facing away from the flip top assembly 96 is a flip top back 139.

In some embodiments, a finger relief space 141 for a finger is provided between the sidewall of the vent cover assembly 124 and the sidewall of the vent cover receiving groove 140. The user's fingers can extend into the finger relief space 141 to remove the venting cover assembly 124. This may facilitate removal of the vent cover assembly 124 by a user. In some embodiments, the vent cover assembly 124 includes a vent cover front face 142 facing away from the flip cover back face 139, the vent cover front face 142 being lower than the flip cover front face 138 or flush with the flip cover front face 138. When the flip top assembly 59 is closed, the lid front 142 of the lid assembly 124 is the top surface of the lid assembly 124, the lid front 138 is the top surface of the flip top assembly 59, and the top surface of the lid assembly 124 does not exceed the top surface of the flip top assembly 59. Therefore, the whole height is low, and the appearance is beautiful. In some embodiments, the thickness of the flip cover assembly 59 ranges from 15mm to 45 mm. The distance between the flip cover front 138 and the flip cover back 139 is the thickness of the flip cover assembly 59. The flip cover assembly 59 is low profile and more aesthetically pleasing.

FIG. 29 illustrates an exploded perspective view of the exhaust cap assembly 124. The vent cover assembly 124 includes a vent top cover 143, a vent bottom cover 144, flaps 145, and vent cover snaps 146. The upper exhaust cover 143 and the lower exhaust cover 144 are fixedly assembled. The baffle 145 and the exhaust cover spring catch 146 are disposed between the exhaust top cover 143 and the exhaust bottom cover 144. The baffle 145 is movably assembled to the bottom cover 144 and can be lifted by the steam in the cup. The vent cover snap 146 may snap the vent cover assembly 124 to the flip cover assembly 59. The exhaust cap snap fastener 146 includes an exhaust cap snap fastener 147 and an exhaust cap spring 148, the exhaust cap snap fastener 147 and the exhaust cap spring 148 are assembled to the exhaust bottom cap 144, and the exhaust cap spring 148 abuts between the exhaust cap snap fastener 147 and the exhaust bottom cap 144.

Fig. 30 shows an exploded perspective view of the cap liner assembly 97. Fig. 31 is an enlarged view of a partial region 10f of the food processor 10 shown in fig. 2. As shown in fig. 18, the flip cover assembly 59 includes a cup packing 149 assembled to the flip cover 84, the cup packing 149 includes a seal fixing portion 150 and a deforming portion 151 connected to the seal fixing portion 150, and the seal fixing portion 150 is fixed to the flip cover 84. The flip cover 84 presses the rim seal 149 down toward the upper rim of the blender cup assembly 13, and the deformable portion 151 deforms into an interference fit with the upper rim of the blender cup assembly 13. The rim of the cup sealing ring 149 comprises a deformation part 151, the rim of the cup sealing ring 149 is pressed down when the turnover cover 84 is covered, and the deformation part 151 deforms and is in interference fit with the upper edge of the rim of the stirring cup assembly 13, so that a better sealing effect with the rim of the cup is achieved.

Fig. 32 shows a cross-sectional view of the cap liner assembly 97. Fig. 33 is an enlarged view of a partial region 10g of the cap liner assembly 97 shown in fig. 32. Referring to fig. 32 and 33 in combination, the deforming part 151 includes a first deforming part 152 extending from the seal fixing part 150 in a thickness direction of the flip cover assembly 59, and a second deforming part 153 extending radially outward from the first deforming part 152. When the flip cover assembly 59 is closed, the second deformation portion 153 is in interference fit with the upper edge of the rim of the stirring cup assembly 13. The structure enables the interference magnitude to be larger, the interference fit area with the cup mouth is large, and the sealing is more reliable. When the flip cover assembly 59 is closed, the second deforming part 153 is pressed and deformed upward. In some embodiments, the deformation 151 includes a third deformation 164 extending from the second deformation 153 to the seal holder 150. The cup rim 149 has a C-shaped longitudinal section.

In some embodiments, the flip cover 84 includes a flip cover body 96 and a liner cover assembly 97. The liner cap assembly 97 includes a liner cap 102 removably assembled to the flip top lid 96, and a cup seal 149 assembled to the liner cap 102. The lining cover 102 is detachable, so that the lining cover 102 is convenient to clean, and the cup opening sealing ring 149 can well seal the lining cover 102 and the cup opening. The cup seal 149 is assembled to the liner cover 102 and is detachable from the flip top cover 96 together with the liner cover 102 for cleaning. In some embodiments, the liner cover 102 includes a bracket 154 and a liner plate 155 disposed on the bracket 154. The bracket 154 is detachably assembled with the flip cover 96, and the rim 149 is assembled to the bracket 154 around the edge of the liner 155. The structure is simple. When the flip cover assembly 59 is closed, the liner 155 is within the mouth of the mixing cup assembly 13 and the bracket 154 presses the rim seal 149 against the upper edge of the mouth. The liner 155 may be a metal material, which is easy to clean and sanitary. The bracket 154 may be a plastic material. The elastic buckle 103 may be provided to the bracket 154. The liner cover inlet opening 117 and the liner cover outlet opening 132 are both provided in the liner 155.

In some embodiments, the bracket 154 includes a liner mounting hole 156, and the cupped seal 149 surrounds the inside of the liner mounting hole 156. The liner 155 is mounted in the liner mounting hole 156 and is fixedly connected to the rim 149 and the bracket 154. Therefore, the lining plate 155, the cup opening sealing ring 149 and the bracket 154 are fixedly assembled together, the structure is simple, and the assembly is convenient. The liner plate mounting hole 156 is vertically penetrated, the aperture of the liner plate mounting hole 156 is slightly smaller than the diameter of the liner plate 155, and the edge of the liner plate 155 is fixed to the edge of the liner plate mounting hole 156.

In some embodiments, the backing 155 includes a backing body 157 and a backing fixing portion 158 connected to an edge of the backing body 157, the backing body 157 is located in the backing mounting hole 156, and the backing fixing portion 158 presses the seal fixing portion 150 against the bracket 154 to be fixedly connected with the seal fixing portion 150 and the bracket 154. The structure is simple, and the assembly is simple and convenient. In some embodiments, the caul sheet body 157 may protrude inwardly of the blender cup assembly 13 relative to the caul sheet retainer portion 158. The liner retainer 158 and the bracket 154 retain the cup seal 149.

In some embodiments, the rim seal 149 has a retaining block 159 and a seal screw hole 160, and the liner 155 has a retaining hole 161 and a liner screw hole 162. The fixing block 159 is held in the fixing hole 161, the bracket 154 is provided with a bracket screw hole 163, and the bushing cover assembly 97 includes a screw (not shown) fixed to the liner plate screw hole 162, the seal ring screw hole 160, and the bracket screw hole 163. So can firmly fix the rim of a cup sealing ring 149, prevent the rim of a cup sealing ring 149 from loosening. The seal ring threaded bore 160 is located between the liner threaded bore 162 and the bracket threaded bore 163. The fixing block 159 may be protruded from the seal fixing portion 150, and the seal ring screw hole 160 may be formed in the seal fixing portion 150. The fixing hole 161 and the packing screw hole 162 are provided in the packing fixing portion 158. The packing retainer portion 158 and the bracket 154 sandwich the seal retainer portion 150.

In some embodiments, the liner fixing portion 158, the first deforming portion 152 and the second deforming portion 153 collectively surround the edge of the liner mounting hole 156, and the second deforming portion 153 has a gap with a side of the bracket 154 facing away from the flip cover 96. The support 154 can support the rim 149, and when the deformation portion 151 deforms, the support 154 can also support the deformation portion 151, and the interference can be made larger, so that the sealing is more reliable. When the second deforming part 153 is deformed, it can abut against the bracket 154, thereby ensuring reliable sealing effect. The upper portion of the first deforming part 152 is connected to the seal fixing part 150 and abuts against the inner side of the liner plate mounting hole 156 of the bracket 154, the lower portion of the first deforming part 152 extends downward beyond the bottom surface of the bracket 154, and the second deforming part 153 extends radially outward from the lower end of the first deforming part 152, is located below the bottom surface of the bracket 154, and has a gap with the bottom surface of the bracket 154, leaving a certain deformation space.

In some embodiments, the third deformation 164 is located on a side of the bracket 154 facing away from the flip cover 96, and has a gap with a side of the bracket 154 facing away from the flip cover 96. The deformation 151 may surround the bracket 154, and the bracket 154 may have a good supporting function, so that the interference may be made larger, and the sealing may be more reliable. When the deformation portion 151 is deformed, the third deformation portion 164 may abut against the bracket 154, thereby ensuring reliability of sealing. The top of the cup opening sealing ring 149 is fixed, and the bottom of the cup opening sealing ring can deform and is in interference fit with the cup opening of the stirring cup component 13, so that a better sealing effect is realized.

Fig. 34 is a schematic view of a part of the internal structure of the stirring cup assembly 13 and the main body 11. Fig. 35 is an enlarged view of a partial region 10h of the food processor 10 shown in fig. 3. Blender cup assembly 13 includes a spout 165 coupled to blender cup 37, spout 165 communicating with juice outlet 24 and extending from juice outlet 24 in a direction away from blender cup 37. The spout 165 is disposed at the lower portion of the blender cup 37, extends outwardly and downwardly from the sidewall of the blender cup 37, and extends toward the juice receiving opening 28 of the juice receiving cup assembly 15. Slurry within blender cup 37 enters spout 165 through outlet 24 and may flow through spout 165 to catch cup assembly 15.

The food processor 10 comprises a juice outlet valve assembly 166, the juice outlet valve assembly 166 comprises a valve core 167 accommodated in the juice outlet 165 and a valve driving assembly 168 connected with the valve core 167, and the valve driving assembly 168 is used for driving the valve core 167 to move. Valve plug 167 opens and closes spout 165, and when spout 165 is closed, slurry cannot flow from the inside of blender cup 37 to juice cup assembly 15, and when spout 165 is opened, slurry can flow. The valve actuator assembly 168 may actuate the valve plug 167 to move within the spout 165, opening the spout 165 or closing the spout 165. A controller (not shown) of the food processor 10 can control the valve driving assembly 168 to drive the valve plug 167.

In some embodiments, spout 165 is integrally formed with blender cup 37. Go out juice mouth 165 and stirring cup 37 integrated into one piece, simple structure, it is with low costs, solved when components of a whole that can function independently set up sealed not tight and the problem of leaking, reduce assembly and processing technology, and make case 167 can be closer to stirring cup 37, more be favorable to going out juice. In other embodiments, spout 165 may be formed separately from and fixedly attached to blender cup 37.

In some embodiments, the valve drive assembly 168 is provided on the main body 11, such that the blender cup assembly 13 may not include electrical components, thereby facilitating cleaning of the blender cup assembly 13, and allowing for full body cleaning. The stirring cup assembly 13 can be taken off from the main machine 11 for cleaning and can be soaked for cleaning.

Stirring cup assembly 13 is detachably disposed on main body 11, juice outlet 165 is connected with stirring cup body 37, valve driving assembly 168 is disposed on main body 11, and juice outlet 165 and stirring cup body 37 can be taken off from main body 11 together. Thereby can take off and wash out juice mouth 165 and stirring cup 37, convenient washing can wash out the juice mouth better, especially to some thick liquids that glue in the inner wall of juice mouth 165 easily, can conveniently the sanitization. Moreover, the thick liquid pouring device can be taken off to pour out juice, has more application scenes, and particularly can be taken off to pour out thick liquid which is not easy to flow out.

In some embodiments, the valve drive assembly 168 includes a valve motor 169 located within the host 11, the valve motor 169 including a valve motor shaft 170 connected to the valve spool 167. The valve motor shaft 170 and the valve element 167 are offset in the longitudinal direction of the juice outlet 165, and the valve element 167 is adjacent to the juice outlet 24 in the longitudinal direction of the juice outlet 165 with respect to the valve motor shaft 170. The valve motor 169 drives the valve plug 167 to move, the valve motor shaft 170 is connected with the valve plug 167, and the valve motor shaft 170 rotates to drive the valve plug 167 to move. The valve element 167 is rotatable within the spout 165 and may be repeatedly rotated to switch between open and closed positions. The valve motor shaft 170 is offset from the valve core 167 in the direction of the length of the juice outlet 165 extending from the juice outlet 24 away from the juice outlet 24. The valve core 167 is closer to the juice outlet 24 and can be closer to the blender cup 37, which is beneficial to juice extraction.

FIG. 36 shows an exploded perspective view of the blender cup assembly 13 and the juice outlet valve assembly 166. Referring to fig. 34-36, the valve drive assembly 168 includes a drive wheel 171 connected to a valve motor shaft 170, the drive wheel 171 being provided to the main body 11. The juice valve assembly 166 includes a driven wheel 172 connected to the valve element 167, the driven wheel 172 being provided at the juice outlet 165, the driven wheel 172 being in engagement with a drive wheel 171. The driven wheel 172 may be connected to the shaft of the spool 167. The valve motor shaft 170 drives the valve plug 167 through the driving pulley 171 and the driven pulley 172. The driving pulley 171 and the driven pulley 172 are offset in the longitudinal direction of the juice outlet 165, and the driven pulley 172 is located closer to the juice outlet 24 and closer to the kneading cup 37 than the driving pulley 171. The driving wheel 171 and the driven wheel 172 can realize the transmission connection of the staggered valve motor shaft 170 and the valve core 167, so that the valve core 167 can be closer to the stirring cup body 37, the juice can be discharged conveniently, and the structure is simple.

In some embodiments, the driven wheel 172 is positioned below the spout 165 and the valve drive assembly 168 is positioned below the spout 165, which is compact and aesthetically pleasing. The driven wheel 172 is positioned outside the juice outlet 165, and the shaft of the valve core 167 extends out of the juice outlet 165 and is fixedly connected with the driven wheel 172. A drive wheel 171 is also positioned below the spout 165. The drive wheel 171 is disposed outside the main body 11 and between the main body 11 and the spout 165.

In some embodiments, the blending cup assembly 13 is removably assembled to the main body 11, and the driven wheel 172 and the driving wheel 171 are removably engaged. When the stirring cup assembly 13 is detached from the main body 11, the driven wheel 172 is separated from the driving wheel 171, and the driven wheel 172 is detached from the main body 11 together with the stirring cup assembly 13. When the blending cup assembly 13 is assembled to the main body 11, the driven wheel 172 is engaged with the driving wheel 171. So can make things convenient for the connection of case 167 and valve motor 169 when stirring cup subassembly 13 dismouting, simple structure, easy dismounting.

In some embodiments, the valve drive assembly 168 includes a drive shaft 173, the drive shaft 173 connecting the valve motor shaft 170 and the drive wheel 171. The transmission shaft 173 is provided to connect the valve motor shaft 170 and the driving wheel 171, and the valve motor 169 may be spaced far from the driving wheel 171, so that the valve motor 169 may be installed further inside the main body 11, and the inner space is larger, thereby facilitating the installation of the valve motor 169 and making the structure of the main body 11 more compact.

In some embodiments, the valve motor shaft 170 extends in a direction that is inclined relative to the axial direction of the blender cup assembly 13, and in a direction away from the juice outlet 24 in a direction from the valve motor 169 toward the juice outlet 165. The valve motor shaft 170 is disposed obliquely, and the valve motor 169 can be positioned closer to the middle of the main body 11 in the lateral direction, so that the main body 11 can be more miniaturized and more compact. The valve motor shaft 170 may extend in a direction perpendicular to the extending direction (i.e., the length direction) of the juice outlet 165. The drive shaft 173 extends in the same direction as the valve motor shaft 170. The valve spool 167 has a shaft extending in a direction parallel to the valve motor shaft 170, so that the driving pulley 171 and the driven pulley 172 can be engaged well, and the overall structure is simple.

In some embodiments, the juice outlet valve assembly 166 includes a valve seal 174, the valve seal 174 being sealingly positioned between the juice outlet 165 and the valve plug 167, and between the periphery of the juice outlet 24 and the valve plug 167. A sealing clamping rib 175 is convexly arranged at one end of the valve sealing piece 174 close to the juice outlet 24, a juice outlet clamping groove 176 is arranged at one end of the juice outlet 165 close to the juice outlet 24, and the sealing clamping rib 175 is clamped in the juice outlet clamping groove 176. The valve seal 174 may serve a securing function and may prevent water leakage. The spool 167 may be housed within the valve seal 174. The shape of the valve seal 174 may be substantially the same as the shape of the spout 165, with the valve seal 174 attached to the inner wall of the spout 165. In some embodiments, the blender cup assembly 13 includes a pressure plate 177, the spout 165 includes a cartridge mounting hole 178 for receiving the cartridge 167, and the pressure plate 177 is secured to the cartridge mounting hole 178 and is secured to the spout 165 to retain the cartridge 167 within the spout 165. The pressure plate 177 is in limit fit with the valve core 167, and the shaft of the valve core 167 is limited on the inner side of the pressure plate 177 and can rotate relative to the pressure plate 177.

In some embodiments, valve drive assembly 168 includes a valve magnet 179 coupled to valve motor shaft 170 and a valve sensing magnetic switch 180 fixed relative to host 11, valve magnet 179 and valve motor shaft 170 moving synchronously, valve sensing magnetic switch 180 for sensing the magnetic field of valve magnet 179, and the controller can determine the position of valve magnet 179, and thus valve element 167, and whether valve element 167 is in the open or closed position based on the signal from valve sensing magnetic switch 180. The valve magnetic part 179 and the valve induction magnetic switch 180 can detect the opening and closing of the valve core 167, the valve magnetic part 179 is connected with the valve motor shaft 170 and can synchronously rotate with the valve motor shaft 170, and the detection accuracy is high. In some embodiments, the valve-sensing magnetic switch 180 comprises a reed switch. In some embodiments, two valve sensing magnetic switches 180 are provided, one valve sensing magnetic switch 180 corresponding to the position of the valve magnetic member 179 when the valve spool 167 is in the open position, and the other valve sensing magnetic switch 180 corresponding to the position of the valve magnetic member 179 when the valve spool 167 is in the closed position.

In some embodiments, a valve magnet 179 is provided on the drive shaft 173 to facilitate installation of the valve magnet 179. The valve magnet 179 is connected to the valve motor shaft 170 through the drive shaft 173. The valve magnetic member 179 may be fixed to the drive shaft 173 by means of screws, glue, snaps, or the like. The length of the drive shaft 173 is longer than the length of the valve motor shaft 170, and the drive shaft 173 facilitates the positioning of the valve magnet 179. And valve magnetic member 179 sets up in transmission shaft 173, and valve motor 169 can adopt the standard component, and the purchase is more convenient to whole cost is lower.

In some embodiments, the juice outlet valve assembly 166 includes a sensor plate 183, the sensor plate 183 is secured within the main body 11, and the valve sensor magnetic switch 180 is disposed on the sensor plate 183. In some embodiments, the juice outlet valve assembly 166 includes a positioning plate 184, the positioning plate 184 is fixedly mounted to the main body 11, and the valve motor 169 is assembled to the positioning plate 184.

FIG. 37 is a perspective view of the blender cup assembly 13 from the bottom. Referring to fig. 36 in combination, in some embodiments, the driven wheel 172 is a non-full-tooth gear, and the teeth of the driven wheel 172 face away from the blender cup 37, so that the valve element 167 can be as close to the blender cup 37 as possible to facilitate juice extraction. The portion of the follower wheel 172 without teeth faces the side wall of the blender cup 37 and the teeth of the follower wheel 172 face away from the side wall of the blender cup 37. The valve core 167 can rotate in a reciprocating manner between an opening position and a closing position, and can reciprocate on a circular arc at a certain angle, the non-full-tooth gear can meet the reciprocating movement of the valve core 167, and can be closer to the stirring cup assembly 13, so that the valve core 167 is closer to the juice outlet 24, and the juice outlet is more facilitated.

Figure 38 shows a longitudinal cross-sectional view of blender cup 37 and spout 165. Figure 39 shows a top view of blender cup 37 and spout 165. Stirring cup 37 includes first sidewall 181 and second sidewall 182, second sidewall 182 extends from the lower end of first sidewall 181 to the interior of stirring cup 37 in an inclined manner, and extends from top to bottom in a direction different from that of first sidewall 181, second sidewall 182 is provided with juice outlet 24, and juice outlet 165 is communicated with juice outlet 24 and extends from second sidewall 182 to the exterior of stirring cup 37. The juice outlet 24 is formed on the second side wall 182 extending obliquely downward from the lower end of the first side wall 181 into the agitation cup 37, so that the cross-sectional area of the juice outlet 24 can be increased and the pulp flow can be smoother. Second side wall 182 extends obliquely relative to the cross-section of blender cup 37. The juice outlet 24 is provided at the second side wall 182 extending obliquely, so that the cross-sectional area of the juice outlet 24 can be increased and the flow can be smoother.

In some embodiments, the angle of inclination c of second sidewall 182 relative to the cross-section of blender cup 37 ranges from 95 degrees to 130 degrees, such as 100 degrees, 110 degrees, 120 degrees. So can increase the cross sectional area of juice outlet 24, the head flow is more smooth and easy, and is favorable to gathering together the middle part of eating the material toward stirring cup 37, is favorable to beating. Inclination angle c is an angle between a direction in which second sidewall 182 extends upward from below and a horizontal direction from a bottom end of second sidewall 182 into stirring cup 37 in a longitudinal section of stirring cup 37.

The height of the second sidewall 182 is less than the height of the first sidewall 181. In some embodiments, first sidewall 181 extends at an angle relative to the cross-section of blender cup 37 that is less than the angle at which second sidewall 182 extends relative to the cross-section of blender cup 37. The second side wall 182 is inclined at a large angle to allow the juice outlet 24 to be made large. The second side wall 182 is close to the cup bottom, and the inclination angle is large, so that the food materials can be gathered towards the middle part better, and the stirring is convenient. In other embodiments, first sidewall 181 extends vertically, perpendicular to the cross-section of blender cup 37.

In some embodiments, the blending cup assembly 13 includes a seat 186, as shown in fig. 35, the seat 186 being connected to a lower end edge of the second side wall 182. The second side wall 182 extends to the knife seat 186, and the second side wall 182 extends to the bottom of the cup, so that the juice outlet 24 is disposed at the bottom end of the side wall to facilitate juice outlet. The stirring blade assembly 25 is disposed on the blade seat 186. The juice outlet 24 extends downwardly to the blade seat 186 to facilitate juice extraction. In some embodiments, the upper end of the spout 165 is connected to the upper end of the second sidewall 182, and the first sidewall 181 extends upwardly from the upper end of the spout 165.

With continued reference to fig. 35, the blender cup assembly 13 includes a cup handle 38 disposed on one side of the blender cup body 37, and the blender cup assembly 13 includes a cup judging magnetic member 190 disposed on a lower portion of the cup handle 38. The main body 11 includes a cup judging magnetic switch 191. When the stirring cup assembly 13 is assembled to the main body 16, the cup judging magnetic member 190 is located within the sensing range of the cup judging magnetic switch 191, and the cup judging magnetic switch 191 is closed. The controller can be connected with the cup judging magnetic switch 191, and determines whether the stirring cup assembly 13 is placed on the host machine 11 according to an electric signal of the cup judging magnetic switch 191. The cup judging magnetic switch 191 is provided at a position of the main body portion 16 corresponding to the cup handle 38. The cup judging magnetic part 190 is arranged at the lower part of the cup handle 38, the appearance of the stirring cup assembly 13 is not influenced, the structure is simple, and the stirring cup assembly 13 can be cleaned conveniently without arranging electrical elements.

Fig. 40 is a perspective view of the blender cup assembly 13. Blender blade assembly 25 is removably assembled to the bottom of blender cup 37. Stirring knife tackle spare 25 can dismantle, conveniently washs. After the blending cup assembly 13 is removed from the main body 11, the blending blade assembly 25 is removed from the blending cup 37 and cleaned.

Fig. 41 shows an exploded perspective view of the blender cup assembly 13. FIG. 42 shows a perspective view of blender cup 37 from the bottom, and FIG. 43 shows a perspective view of blender knife assembly 25. Referring to fig. 40-43, in some embodiments, the stirring blade assembly 25 includes a blade seat 186, a stirring blade 187, a blade seat mount 188, and a blade seat seal 189. Stirring blade 187 is disposed on blade seat 186, blade seat mount 188 is detachably assembled with stirring cup 37, blade seat mount 188 detachably assembles blade seat 186 to stirring cup 37, and blade seat seal 189 is sealingly disposed between blade seat 186 and stirring cup 37. The structure is simple, and the assembly and disassembly are convenient. The tool seat 186 serves as the tool seat 186. The stirring blade 187 is rotatably provided in the blade holder 186. Blade seat mount 188 may urge blade seat 186 against the bottom of blender cup 37. A holder seal 189 is sealingly disposed between the rim of the holder 186 and the blender cup 37. Blade seat 186, blending blade 187, blade seat mount 188, and blade seat seal 189 are all removable from blending cup 37.

In some embodiments, the blade holder mount 188 and the blade holder 186 are detachable. When stirring knife subassembly 25 assembles stirring cup 37 or when dismantling from stirring cup 37, blade holder 186 is motionless basically, and operation blade holder mounting 188 realizes the dismouting, and so the dismouting is more laborsaving, installs more easily, and blade holder 186 can be dismantled and get off to wash alone, and it is more convenient to wash. Blade holder mounting 188 can be assembled to blender cup 37 in a rotating manner, blade holder mounting 188 and blade holder 186 can be disassembled, blade holder 186 does not rotate during disassembly, and blade holder mounting 188 is rotated to realize disassembly, so that rotating blade holder mounting 188 is more labor-saving and more labor-saving.

Fig. 44 is an enlarged view of a partial region 10i of fig. 35. Referring to fig. 44, in some embodiments, a seat seal 189 covers the side edges of the seat 186, which is a good seal. The side edge of the seat 186 is captured in a seat seal 189. In some embodiments, the seat seal 189 is integrally formed with the seat 186 to facilitate removal and installation of the blending blade assembly 25. In other embodiments, the seat seal 189 is assembled to the seat 186, and the seat seal 189 and the seat 186 are manufactured separately, which is a simple process.

In some embodiments, blender cup 37 includes cup seal wall 185 projecting laterally inward from an inner surface of blender cup 37, and blade holder mount 188 includes a laterally extending blade holder seal wall 192. Seat seal wall 192 abuts seat seal 189 against cup seal wall 185, and seat 186 is sandwiched between seat seal wall 192 and cup seal wall 185. The cup body sealing wall 185 can play a role in positioning and make the sealing effect good. When tool holder mount 188 is assembled to blender cup 37, tool holder sealing wall 192 and cup sealing wall 185 tightly hold tool holder sealing ring 189 to ensure a good seal. The side edges of holder 186 are also clamped between holder sealing wall 192 and cup sealing wall 185 to allow assembly of holder 186 to blender cup 37. The side edge of the seat 186 is covered by a seat seal 189, so the upper edge of the seat 186 is sealed with the cup seal wall 185, and the lower edge of the seat 186 is sealed with the seat seal wall 192, so the whole sealing effect is good. The holder fixing member 188 has a cylindrical shape, and a holder seal wall 192 is provided at an upper end of the holder fixing member 188, extends laterally inward of the holder fixing member 188, and has an annular shape.

In some embodiments, juice outlet 24 is disposed on a side wall of blender cup 37, and the upper surface of seat 186 is higher than the lowest point of juice outlet 24, which facilitates smooth outflow of the slurry. In some embodiments, a middle portion of tool post 186 protrudes upward relative to a side edge, the middle portion of tool post 186 extends into blending cup 37 and forms a cavity with a side wall of blending cup 37 for receiving foodstuff, and the side edge of tool post 186 is outside the cavity and below cup sealing wall 185. The food material is above the middle of the seat 186 and the side edges of the seat 186 do not contact the food material. The upper surface of the middle portion of the blade seat 186 is higher than the lowest point of the juice outlet 24.

In some embodiments, the bottom end of the blending cup 37 is provided with a locking buckle 193, the tool post 186 is provided with a locking groove 194 and a clearance groove 195, the clearance groove 195 and the locking groove 194 are arranged in the circumferential direction of the tool post 186 and are correspondingly communicated, and the dimension of the clearance groove 195 in the circumferential direction of the tool post 186 is larger than the dimension of the locking buckle 193 in the circumferential direction of the blending cup 37. The locking button 193 can be screwed into the locking groove 194 from the clearance groove 195. So make things convenient for the dismouting, simple structure, it is with low costs. During assembly, the upper part of the clearance groove 195 is opened, the upper part of the locking groove 194 is closed, and one side of the circumferential side of the locking groove is opened and is communicated with the clearance groove 195. The locking buckle 193 enters the empty avoiding groove 195 from the up-down direction, reaches the bottom wall of the empty avoiding groove 195, is screwed into the locking groove 194, and is clamped in the locking groove 194. When the locking buckle 193 is removed, the locking buckle is rotated in the opposite direction, and the locking buckle 193 is rotated from the locking groove 194 to the clearance groove 195, and is separated from the clearance groove 195 above the clearance groove 195. In some embodiments, lock catch 193 is in the form of a rib that extends laterally inward from the bottom edge of blender cup 37. A plurality of locking buttons 193 may be provided in a circumferential direction, and a plurality of locking grooves 194 and clearance grooves 195 may be provided correspondingly.

In some embodiments, the cartridge mount 188 includes a cartridge assembly 196 and a rotational operator 197 disposed below the cartridge assembly 196. The holder 186 is assembled between the holder assembling portion 196 and the stirring cup 37, the holder assembling portion 196 is located inside the stirring cup 37, the rotating operation portion 197 is located outside the stirring cup 37, and the outer surface of the rotating operation portion 197 is uneven. The tool apron assembling portion 196 is located inside the blending cup body 37, so that the overall height of the blending cup assembly 13 is low, the rotating operation portion 197 is located outside the blending cup body 37, and the rotating operation portion 197 facilitates the grasping operation of a user. The lock groove 194 and the clearance groove 195 are provided in the holder assembling portion 196, and the holder seal wall 192 is provided at the upper end of the holder assembling portion 196. The holder assembling portion 196 abuts against the holder seal 189 and the holder 186 to the blending cup 37. The rotation operating portion 197 is positioned below the holder assembling portion 196 and below the kneading cup 37. The side wall of the rotation operating part 197 is convex at intervals. In some embodiments, the rotating operation portion 197 protrudes laterally outward relative to the holder assembly portion 196, and the rotating operation portion 197 abuts against a lower end edge of the blending bowl 37. The rotating operation part 197 protrudes laterally outward relative to the lower end edge of the agitation cup 37. The rotating operation part 197 plays a role of positioning, and when the rotating operation part 197 abuts against the blending cup 37, it shows that the assembly is in place.

Fig. 45 is a partial perspective view of the main body 11 and the blending cup assembly 13. In some embodiments, the main body 11 includes a blending cup receptacle 50 and a spout receptacle 198 opening into a side wall of the blending cup receptacle 50, the bottom of the blending cup 37 being positioned within the blending cup receptacle 50, and the upper end of the blending cup receptacle 50 supporting the blending cup 37. The spout receiving well 198 is upwardly open and communicates with the blender cup receiving well 50, and the juice outlet spout 165 is positioned within the spout receiving well 198. The nozzle accommodating groove 198 can play a role in assembly and positioning, is convenient to position quickly, facilitates a user to place the stirring cup assembly 13 on the main machine 11, and can protect the juice outlet nozzle 165. The mixing cup accommodating tub 50 and the nozzle accommodating tub 198 are provided in the main body portion 16, and the nozzle accommodating tub 198 is recessed downward from an upper end of a side wall of the mixing cup accommodating tub 50 to communicate the inside and the outside of the mixing cup accommodating tub 50. The spout receiving well 198 is located on a side of the body portion 16 facing the juice receiving support portion 17. The driving wheel 171 is located at the bottom of the nozzle receiving groove 198, and the driving wheel 171 may be a full-tooth gear. The motor 21 is located below the blending cup receiving slot 50, and as shown in fig. 3, the motor 21 extends axially into the blending cup receiving slot 50 so as to be connected to the blending cup assembly 13.

Fig. 46 is a partial perspective view of the main body 11. Referring to fig. 45 and 46, in some embodiments, the main body 11 includes a shock pad 199 disposed at an upper end of the blending cup receiving well 50. Blender cup assembly 13 includes a blender cup 203 and a spout 165 coupled to blender cup 203. The blender cup 203 includes a blender cup body 37 and a blender blade assembly 25. The mixing cup 203 is assembled to the mixing cup receiving tub 50, and includes a cup lower portion 200, a cup waist portion 201 located above the cup lower portion 200, and a cup upper portion 202 located above the cup waist portion 201.

Referring to fig. 3, the lower cup portion 200 is located in the mixing cup accommodating well 50, the upper end of the mixing cup accommodating well 50 supports the cup waist portion 201, the shock pad 199 is located between the upper end of the mixing cup accommodating well 50 and the cup waist portion 201, and the upper cup portion 202 is located above the mixing cup accommodating well 50. Cup lower part 200 of stirring cup 203 is located stirring cup holding tank 50, cup waist 201 is supported to the upper end of stirring cup holding tank 50, shock pad 199 is located between the upper end of stirring cup holding tank 50 and cup waist 201, host computer 11 supports cup waist 201, thereby the roughness of the bottom surface of stirring cup holding tank 50 does not require, be convenient for make, and set up shock pad 199, make stirring cup subassembly 13 more stable, and can play the effect of making an uproar of falling. In some embodiments, the combined height of the lower cup portion 200 and the lower cup portion 201 is less than the height of the upper cup portion 202. In some embodiments, the sidewall of cup upper portion 202 is first sidewall 181 described above, the sidewall of cup waist 201 is second sidewall 182 described above, and cup lower portion 200 may include the lower end of blender cup 37 and blade holder mount 188 of blender knife assembly 25.

In some embodiments, spout 165 extends from cup waist 201 and extends outward of blender cup 37, and spout 165 is positioned low to facilitate dispensing. The juice outlet 24 is arranged at the waist part 201 of the cup body. In some embodiments, cup lower portion 200 is suspended from the floor of blender cup receiving well 50. The bottom surface of the cup body lower portion 200 does not contact the bottom surface of the mixing cup receiving tub 50. The lower part 200 of the cup body is not contacted with the bottom surface of the stirring cup containing groove 50, which is beneficial to noise reduction and shock absorption. In some embodiments, the blade holder mount 188 of the stirring blade assembly 25 of the cup lower portion 200 is suspended from the bottom surface of the stirring cup receiving well 50 without contacting the bottom surface of the stirring cup receiving well 50. In some embodiments, the outer side of the cup body lower portion 200 does not contact the inner side of the mixing cup receiving well 50, which may provide better shock absorption and noise reduction.

In some embodiments, the cup body waist 201 includes a waist sidewall 204 and a positioning portion 205 protruding laterally beyond the waist sidewall 204. The positioning portion 205 is supported by the upper end of the stirring cup accommodating groove 50, and the damper pad 199 is provided between the upper end of the stirring cup accommodating groove 50 and the positioning portion 205. This can stably support the stirring cup assembly 13. The lumbar sidewall 204 may be the second sidewall 182. The positioning portion 205 may be in a ring shape surrounding the waist sidewall 204, and the lower surface is a plane, which can stably press against the upper side of the shock pad 199.

The cushion 199 is formed in a ring shape, surrounds the upper end of the cup holder 50, and is supported on the lower surface of the positioning portion 205. Referring with emphasis to fig. 45 and 46, in some embodiments, the upper end of the blending cup receiving slot 50 includes a limiting wall 206 surrounding the outside of the shock pad 199, the upper surface of the shock pad 199 is lower than the upper edge of the limiting wall 206, and the limiting wall 206 surrounds the outside of the positioning portion 205. The retaining wall 206 may prevent radial movement of the blender cup assembly 13. The upper surface of the cushion 199 is lower than the upper edge of the mixing cup accommodating groove 50, the positioning portion 205 is in the upper edge of the mixing cup accommodating groove 50, and the upper edge of the mixing cup accommodating groove 50 can radially limit the movement of the mixing cup assembly 13.

In some embodiments, the upper end of the mixing cup receiving groove 50 is recessed downward to form a positioning groove 207, and the shock absorbing pad 199 is held in the positioning groove 207 to firmly fix the shock absorbing pad 199. The shock pad 199 may be an interference fit with the positioning slot 207. The outer side wall of the positioning groove 207 may be a stopper wall 206.

Fig. 47 is a perspective view of the cushion 199. Referring to fig. 47, in some embodiments, the cushion 199 includes a cushion support 208 and a positioning rib 209 protruding below the cushion support 208. The positioning rib 209 is clamped in the positioning groove 207, the shock absorption supporting part 208 is positioned above the positioning groove 207 and supports the waist part 201 of the cup body, and the fixing effect is good and the structure is simple. The positioning rib 209 is in interference fit with the positioning groove 207. The radial dimension of the damper support portion 208 is larger than the radial dimension of the positioning rib 209, and the circumferential dimension of the damper support portion 208 is larger than the circumferential dimension of the positioning rib 209. The shock-absorbing support part 208 covers the upper opening of the positioning groove 207, so that the positioning part 205 is not in contact with the stirring cup accommodating groove 50, the shock-absorbing and noise-reducing effects are improved, and the sundries and dust can be prevented from entering the positioning groove 207.

In some embodiments, the bottom wall of the positioning groove 207 is protruded upward with a positioning protrusion 210, and the positioning rib 209 has a positioning notch 211. The positioning protrusion 210 is retained in the positioning notch 211, and is in positioning fit with the positioning notch 211 in the circumferential direction of the cushion 199, so that the cushion 199 can be prevented from rotating. The positioning projection 210 may be opposite to the mouth receiving groove 198 in the radial direction of the agitation cup receiving groove 50. The cup magnetic switch 191 may be disposed in the top end of the mixing cup receiving slot 50, and as shown in fig. 35, may be disposed in the sidewall of the mixing cup receiving slot 50. The cup judging magnetic switch 191 is arranged in the positioning bulge 210, so that the cup judging magnetic switch 191 can be closer to the cup judging magnetic piece 190.

In some embodiments, the cushion 199 includes a position-limiting portion 212 radially protruding from the cushion support portion 208, the sidewall of the positioning groove 207 is radially recessed to form a position-limiting opening 213, the position-limiting portion 212 is retained in the position-limiting opening 213, and the position-limiting portion 212 and the position-limiting opening 213 are in position-limiting fit in the circumferential direction of the cushion 199, so as to prevent the cushion 199 from rotating. And the limiting opening 213 conceals the cup handle 38 of the stirring cup assembly 13, and the limiting opening 213 is opposite to the nozzle accommodating groove 198 in the radial direction of the stirring cup accommodating groove 50. In the circumferential direction of the mixing cup accommodating groove 50, the limiting opening 213 is disposed outside the positioning protrusion 210, and the positioning protrusion 210 extends into the limiting opening 213. The cup judging magnetic switch 191 may be at least partially located below the limiting opening 213, and thus may be opposite to the cup judging magnetic member 190 disposed at the lower portion of the cup handle 38.

In some embodiments, the cushion 199 is annular with a gap 214, and the gap 214 is located above the nozzle receiving well 198 and is positioned to avoid the juice outlet 165. Thus, the juice outlet 165 can enter the nozzle receiving groove 198, and the stirring cup assembly 13 can be conveniently assembled to the main machine 11. The shock pad 199 is C-shaped. The spout 165 enters the spout receiving cavity 198 from above. Spout 165 extends downwardly beyond positioning portion 205.

Fig. 48 is an enlarged view of a partial region 10j of the food processor 10 shown in fig. 3. In some embodiments, the juice cup assembly 15 includes a juice cup body 29 and a juice cup lid 215 that may be attached to the juice cup body 29.

Fig. 49 is a perspective view of the juice receiving cup body 29, and fig. 50 is a perspective view of the juice receiving cup cover 215. Referring to fig. 48-50, juice receiving cup 29 includes juice receiving port 28, and juice receiving port 28 is located below juice outlet 165. The juice cup lid 215 extends above the juice receiving opening 28 and interfaces with the juice spout 165, covering the juice spout 165. The juice receiving cup cover of the juice receiving cup assembly 15 is butted with the juice outlet nozzle 165, and the cover is arranged above the juice outlet nozzle 165, so that the splashing condition caused by the too fast flow rate of the serum can be reduced or prevented, and the juice receiving cup assembly 15 can be conveniently and quickly placed at the correct position. The juice receiving cup cover 215 is detachably covered on the juice receiving cup body 29. The juice receiving cup cover 215 is spaced apart from the juice receiving opening 28, and the juice outlet 165 extends between the juice receiving cup cover 215 and the juice receiving opening 28 to allow for the pouring of the juice into the juice receiving opening 28.

In some embodiments, spout 165 includes a juice outlet end 216 that faces away from blender cup 37, where juice outlet end 216 is horizontally further away from blender cup 37 relative to juice-receiving opening 28. In this manner, the spout 165 extends horizontally into the juice-receiving opening 28, which reduces or prevents spillage of the slurry. The orthographic projection of the juice outlet 165 and the juice receiving opening 28 in the horizontal plane partially overlap.

In some embodiments, the horizontal distance L3 between the lowest point of the juice outlet end face 216 and the horizontally closest point of the juice receiving port 28 to the blender cup 37 may range from 5mm to 20mm, which may effectively reduce or prevent serum. The orthographic projection of the lowest point of the juice outlet end surface 216 in the horizontal plane is positioned in the juice receiving opening 28, so that the pulp can be prevented from flowing out of the juice receiving opening 28. The juice outlet end face 216 is inclined from top to bottom in a direction close to the stirring cup assembly 13, and an orthographic projection of the lowest point of the juice outlet end face 216 in a horizontal plane is positioned in the juice receiving opening 28, so that the orthographic projection of the juice outlet end face 216 in the horizontal plane is positioned in the juice receiving opening 28. In some embodiments, juice receiving port 28 is vertically spaced from spout 165 to facilitate placement and removal of juice receiving cup assembly 15. A space is provided between the juice receiving opening 28 and the juice outlet 165 in the vertical direction.

In some embodiments, the juice-receiving cup lid 215 includes a juice-receiving lid body 217 and a juice-receiving spout 218 coupled to the juice-receiving lid body 217, the juice-receiving spout 218 extending laterally outward and upward from the juice-receiving lid body 217, overlying the juice outlet spout 165, and interfacing with the juice outlet spout 165. When the juice cup assembly 15 is placed on the juice receiving support portion 17, the juice receiving nozzle 218 and the juice outlet nozzle 165 are aligned and matched. The nipple 218 may serve as a drain to reduce or prevent splashing due to excessive slurry flow. Juice receiving spout 218 extends in the direction of blender cup assembly 13 and extends upwardly to cover above juice outlet spout 165 and to interface with the end of juice outlet spout 165 remote from blender cup assembly 13, with juice outlet end face 216 below juice receiving spout 218. In some embodiments, the juice receiving nozzle 218 and the juice outlet nozzle 165 are partially overlapped in the horizontal direction, so that the drainage function can be better performed and splashing can be prevented. The end of spout 165 remote from blender cup assembly 13 overlaps the orthographic projection of spout 218 in the horizontal plane.

In some embodiments, the joint between the juice receiving nozzle 218 and the juice outlet nozzle 165 is higher than the top surface of the juice receiving cover 217, and the juice receiving nozzle 218 extends to a higher height, so that a better drainage effect can be achieved. The juice-catching spout 218 extends upwardly beyond the top surface of the juice-catching cap body 217. In some embodiments, the inner surface of the juice receiving nozzle 218 is a smooth curved surface from top to bottom, and the slurry smoothly flows down along the inner surface of the juice receiving nozzle 218, so that the drainage effect is good, and the slurry is not easy to hit the inner surface of the juice receiving nozzle 218 and splash.

In some embodiments, the nipple 218 partially covers the spout 165 in the circumferential direction of the spout 165. The juice receiving nozzle 218 covers the upper side and both sides of the juice outlet nozzle 165, partially covers the juice outlet nozzle 165, and the juice receiving nozzle 218 may not cover the lower side of the juice outlet nozzle 165. So can prevent effectively splashing to conveniently connect taking and installation of juice glass lid. In some embodiments, the nipple 218 extends in an arc around the circumference of the spout 165. The nipple 218 may advantageously surround a portion of the spout 165 to effectively prevent splashing. The spout 165 is cylindrical. The nipple 218 may be bowed.

Fig. 51 shows another perspective view of the juice-catching cup lid 215. The juice receiving cup cover 215 includes a cover positioning rib 219 protruding on the juice receiving cover body 217, and the cover positioning rib 219 is arc-shaped and extends into the cup opening of the juice receiving cup body 29 to be in limit fit with the cup opening of the juice receiving cup body 29.

Fig. 52 is a perspective view of another embodiment of the food processor 10. Fig. 53 is a cross-sectional view of the food processor 10 of fig. 52 taken along line E-E. Fig. 54 is an exploded perspective view of the food processor 10 shown in fig. 52. Fig. 55 is an enlarged view of a partial region 10k of the food processor 10 shown in fig. 52. The embodiment shown in fig. 52-55 is similar to the embodiment shown in fig. 1-51, and in comparison with the embodiment shown in fig. 1-51, in the embodiment shown in fig. 52-55, blender cup assembly 13 includes a blender cup 37 and a blender cup lid 220 capable of covering blender cup 37, and blender cup lid 220 includes a water inlet hole 221 passing through vertically. The turnover cover assembly 59 can cover the mixing cup cover 220, and the water inlet pipeline 60 is communicated with the water inlet through hole 221. Flip cover assembly 59 is positioned over blender cup lid 220, and blender cup lid 220 covers the rim of blender cup 37, and water is injected into blender cup 37 through water inlet conduit 60 and water inlet aperture 221.

The turnover cover assembly 59 is rotatably connected with the main body part 16 and can cover the stirring cup cover 220, and the water inlet pipeline 60 of the turnover cover assembly 59 is used for feeding water into the stirring cup body 37 through the water inlet through hole 221 of the stirring cup cover 220, so that the water is fed from the upper part of the stirring cup body 37, the structure of a cutter holder at the bottom of the stirring cup body 37 is simple, the stirring cup body 37 is convenient to clean, and the contact area of the turnover cover assembly 59 and food materials is small, so that the turnover cover assembly is convenient to clean; the turnover cover component 59 is rotatably connected with the main body part 16, the turnover cover component 59 can be turned over, closed or opened, and the turnover cover component 59 and the stirring cup cover 220 can be separately designed, so that the stirring cup cover 220 can be cleaned independently and is convenient to clean; when the turnover cover assembly 59 is opened, the stirring cup cover 220 can cover the stirring cup body 37, so that more application scenes can be realized, for example, the stirring cup assembly 13 can be taken out for pouring slurry, the stirring cup cover 220 can prevent the slurry from splashing outside, and a dustproof effect can be realized; in addition, the turnover cover component 59 and the stirring cup cover 220 can be separately designed, so that the structure of the stirring cup cover 220 can be designed to be simpler, the structure of the turnover cover component 59 is also simpler, the whole structure is simple, and the cost is low. Moreover, the blender cup cover 220 covers the blender cup 37, and the flip-top lid assembly 59 does not require the hinge assembly 61 described above, so the structure of the embodiment is simpler and the cost is lower. In other embodiments, the hinge assembly 61 described above may be used in the embodiment shown in fig. 52-55.

In some embodiments, the agitator cup cover 220 is positioned radially outward of the flip-top cover assembly 59. The stirring cup cover 220 is not completely covered by the turnover cover assembly 59, and the turnover cover assembly 59 is small in size, convenient to clean and low in cost.

In some embodiments, the maximum dimension L4 of the flip cover assembly 59 in the rotational axis direction is less than the maximum dimension L5 of the upper end of the main body portion 16 in the rotational axis direction. The rotational axis direction is the extending direction of the rotational axis 87 described above. The flip cover assembly 59 is small in size, easy to clean, and low in cost. The flip cover assembly 59 extends into the upper end of the main body portion 16 and is rotatably connected to the upper end of the main body portion 16. The width of the flip cover assembly 59 is less than the width of the upper end of the main body portion 16. The flip cover assembly 59 may be elongated. In some embodiments, the maximum dimension L4 of the upper surface of the flip cover assembly 59 in the rotational axial direction is less than the maximum dimension L6 in a direction perpendicular to the rotational axial direction. The upper surface of flip cover assembly 59 is generally elongated and extends laterally toward blender cup 37 by a length greater than the width in the axial direction of rotation. Upset lid subassembly 59 is less at the ascending size of axis of rotation, and the ascending size of the size relative rotation axis in the direction of perpendicular rotation axis to the size of upset lid subassembly 59 can be as little as possible when guaranteeing to extend to stirring cup 37 top so that it is interior to intake toward stirring cup 37, thereby convenient washing and reduce cost. In some embodiments, the size of flip-top cover assembly 59 in the axial direction of rotation is less than the smallest diameter of blender cap 220. The flip cover assembly 59 is small in size to facilitate cleaning and reduce costs.

In some embodiments, the blender lid 220 is provided with a recess 222 recessed downwards, the water inlet hole 221 is provided in the recess 222, and the flip lid assembly 59 extends into the recess 222 when closed. Flip-top lid assembly 59 and agitator cup lid 220 are more stable and have a lower overall height. The water inlet hole 221 penetrates the bottom wall of the recess 222. The bottom of the flip-top cover assembly 59 is located in the recess 222 when the flip-top cover assembly 59 is closed, and the top surface of the flip-top cover assembly 59 is higher than the top surface of the blender lid 220. In other embodiments, the flip-top lid assembly 59 may be closed such that its top surface does not extend above the top surface of the blender lid 220. When the turnover cover component 59 is closed, the water inlet pipeline 60 is in sealing and abutting connection with the stirring cup cover 220.

In some embodiments, the mixing cup cover 220 includes an air vent 125 that passes through from top to bottom, and when the flip cover assembly 59 is covered, an orthographic projection of the air vent 125 on the cross section of the food processor 10 is located outside an orthographic projection of the flip cover assembly 59 on the cross section of the food processor 10. The orthographic projection of the exhaust through hole 125 in the horizontal plane is positioned outside the orthographic projection of the flip cover assembly 59 in the horizontal plane, and the flip cover assembly 59 does not cover the exhaust through hole 125. The exhaust through holes 125 can exhaust air in the cup during stirring, and the exhaust through holes 125 are communicated with the inside and the outside of the cup, so that the air pressure in the cup is consistent with the air pressure outside the cup, and smooth slurry discharge is facilitated.

In some embodiments, when the flip cover assembly 59 is closed, the center of the orthographic projection of the blender cover assembly 220 on the cross section of the food processor 10 is located outside the orthographic projection of the flip cover assembly 59 on the cross section of the food processor 10, and the water inlet through hole 221 is located between the center of the blender cover assembly 220 and the water tank. The flip-top cover assembly 59 does not extend to the center of the agitator cup cover 220, the extension length of the flip-top cover assembly 59 is shorter, the size of the flip-top cover assembly 59 is smaller, and the cost is lower. The vent through hole 125 may be formed in a central region of the blender cup cover 220.

The food processor 10 shown in fig. 52-55 is similar to the food processor 10 shown in fig. 1-51, the above only illustrates the main differences, and other structures, functions, and the like can refer to the above detailed description of the embodiment shown in fig. 1-51, and are not repeated herein.

Fig. 56 is a perspective view of another embodiment of the food processor 10. Fig. 57 is a cross-sectional view of the food processor 10 of fig. 56 taken along line D-D. Fig. 58 is an exploded perspective view of the food processor 10 shown in fig. 56. Fig. 59 is a front view of the food processor 10 shown in fig. 56. The main body 11 includes a main body 16 and a juice receiving support 17 provided on the front side of the main body 16. The tank 12 is provided on the rear side of the main body 16. The water tank 12 is arranged on the side of the main body part 16 opposite to the juice receiving supporting part 17. Blending cup assembly 13 is removably assembled to body portion 16 and includes a blending cup 37 and a cup handle 38 attached to a side wall of blending cup 37. The juice outlet 24 is provided in the side wall of the blender cup 37, and the juice outlet 24 faces the juice receiving support portion 17 toward the front side of the main body portion 16. Cup handle 38 is located on either the left or right side of body portion 16. The cup handle 38 is located on the side of the main body portion 16 adjacent to the juice receiving support portion 17. The water delivery assembly 14 is disposed on the main body 11, connected to the water tank 12, and configured to deliver water in the water tank 12 to the stirring cup assembly 13. The juice receiving cup assembly 15 is detachably disposed on the juice receiving support portion 17 and includes a juice receiving opening 28, and the juice receiving cup assembly 15 is used for receiving the juice flowing out from the juice outlet 24 through the juice receiving opening 28.

The embodiment shown in fig. 56-59 is similar to the embodiment shown in fig. 1-51, and compared to the embodiment shown in fig. 1-51, the embodiment shown in fig. 56-59 has the juice receiving support portion 17 and the water tank 12 oppositely disposed at opposite sides of the main body portion 16, the juice receiving support portion 17 disposed at the front side of the main body portion 16, and the water tank 12 disposed at the rear side of the main body portion 16, and arranged in a straight line in the front-rear direction. The juice receiving cup assembly 15 and the water tank are positioned on two opposite sides of the main body part 16, and the juice receiving cup assembly 15 and the water tank are positioned on two opposite sides of the stirring cup assembly 13, so that the packaging size of the whole machine can be reduced, and the cost is reduced; the stirring cup assembly 13 is detachably assembled on the host machine 11, the stirring cup assembly 13 can be taken down for cleaning, and can be taken down for cleaning when the automatic cleaning is not clean, so that the cleaning is convenient; in addition, the cup handle 38 of the blending cup assembly 13 is located on the left or right side of the main body portion 16, thereby facilitating the user to grasp the cup handle and take the blending cup assembly 13.

Fig. 60 is a perspective view of the stirring cup assembly 13 of the food processor 10 shown in fig. 56, and fig. 61 is a perspective view of the stirring cup assembly 13 shown in fig. 60 at another angle. 56-61, in some embodiments, the arc of the side wall of the blender cup 37 between the cup handle 38 and the juice outlet 24 in the horizontal plane is greater than 0 degrees and no more than 90 degrees, which is more convenient for the user. In orthographic projection in the horizontal plane, the radian of the arc of the side wall of the stirring cup body 37 from the cup handle 38 to the juice outlet 24 is more than 0 degree and not more than 90 degrees.

In some embodiments, a cup handle 38 extends from blender cup 37 to the right side of body portion 16 for ease of operation by the right hand of the user. The cup handle 38 is located on the right side of the main body 16 as viewed from the front of the main body 16.

In some embodiments, blender cup assembly 13 includes a spout 165 coupled to blender cup 37, spout 165 being in communication with spout 24 and extending toward juice receiving port 28, spout 165 being integrally formed with blender cup 37. The juice outlet 165 and the stirring cup body 37 are integrally formed, the structure is simple, the cost is low, the problem of water leakage caused by loose sealing in split arrangement is solved, and the assembly and processing technology is reduced. The spout 165 extends forward of the body 16.

In some embodiments, the food processor 10 includes a juice valve assembly 166, the juice valve assembly 166 includes a valve core 167 received in the juice outlet 165 and a valve driving assembly 168 connected to the valve core 167, and the valve driving assembly 168 is disposed on the main body 11 for driving the valve core 167 to move. Go out juice mouth 165 and stirring cup 37 integrated into one piece, case 167 can be more close to stirring cup 37, more is favorable to going out juice, and valve drive assembly 168 locates host computer 11, and stirring cup subassembly 13 can not include electrical components to conveniently stir cup subassembly 13 and wash, but whole body cleaning.

In some embodiments, the water inlet of the water delivery assembly 14 is in communication with the water tank 12, the water delivery assembly 14 extends to the upper end of the blender cup assembly 13, and the water outlet of the water delivery assembly 14 is in communication with the cup mouth of the blender cup assembly 13. Water is fed from the upper part of the stirring cup assembly 13, and the cutter holder at the bottom of the stirring cup assembly 13 is simple in structure and convenient to clean. In some embodiments, the main body 11 includes a flip cover assembly 59 rotatably connected to the main body 16, the flip cover assembly 59 can cover the rim of the blending cup assembly 13, the flip cover assembly 59 includes a water inlet conduit 60, and the water outlet of the water delivery assembly 14 is connected to the water inlet conduit 60. When the flip cover assembly 59 is closed, the water outlet of the water delivery assembly 14 is communicated with the cup opening of the stirring cup assembly 13 through the water inlet pipe 60. Utilize the inlet channel 60 of upset lid subassembly 59, can communicate the rim of a cup of water delivery subassembly 14 and stirring cup subassembly 13 well, guarantee smoothly to intake for stirring cup subassembly 13, and upset lid subassembly 59 can rotate to can open and shut for stirring cup subassembly 13, conveniently switch between the state of intaking on stirring cup subassembly 13 and the state of opening the stirring cup subassembly 13 that can take.

In some embodiments, blender cup assembly 13 includes a blender cup lid 220 that covers blender cup 37, blender cup lid 220 includes a through-hole 221 that extends vertically therethrough, and flip-top lid assembly 59 covers blender cup lid 220 with water inlet conduit 60 in communication with through-hole 221. The turnover cover assembly 59 is rotatably connected with the main body part 16 and can cover the stirring cup cover 220, and the water inlet pipeline 60 of the turnover cover assembly 59 feeds water into the stirring cup body 37 through the water inlet through hole 221 of the stirring cup cover 220, so that the contact area of the turnover cover assembly 59 and food materials is small, and the turnover cover assembly is convenient to clean; upset lid subassembly 59 and stirring bowl cover 220 detachable design, when upset lid subassembly 59 was opened, stirring bowl cover 220 can be covered on stirring cup 37 for use the sight more, for example stirring cup subassembly 13 can be taken out and the thick liquid falls, and the stirring bowl cover can prevent this moment that the thick liquid from splashing the outside, and can play dustproof effect.

In other embodiments, the flip-top lid assembly 59 may be similar to the flip-top lid assembly 59 of the embodiment shown in fig. 1-51, with the flip-top lid assembly 59 covering the rim of the mixing cup assembly 13 when closed, and sealingly assembled with the rim. The turnover cover assembly 59 can cover the cup mouth of the stirring cup assembly 13, water can be fed, and the turnover cover assembly can be used as a cup cover, so that the whole food processor 10 has few components and a simple structure.

In some embodiments, the main body 11 includes a hinge assembly 61 connecting the main body 16 and the flip cover assembly 59, and the related description of the hinge assembly 61 can refer to the related description above, and will not be repeated herein.

In some embodiments, the blending cup assembly 13 includes a cup judging magnetic member 190 located at a lower portion of the cup handle 38, and the main body 11 includes a cup judging magnetic switch 191 provided at the main body portion 16, similar to the cup judging magnetic switch 191 described above. When the stirring cup assembly 13 is assembled to the main body 16, the cup judging magnetic member 190 is located within the sensing range of the cup judging magnetic switch 191, and the cup judging magnetic switch 191 is closed. The cup judging magnetic part 190 is arranged at the lower part of the cup handle 38, so that the appearance of the stirring cup assembly 13 is not influenced, and the structure is simple.

The embodiment shown in fig. 56-61 is similar to the embodiment shown in fig. 1-51 and also similar to the embodiment shown in fig. 52-55, and the description of the related structures, functions, etc. is referred to the above detailed description and will not be repeated herein.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the scope of protection of the present application.

Claims (10)

1. A food processor, comprising:

the main machine (11) comprises a main body part (16), a turning cover assembly (59) rotatably connected to the main body part (16), and a vent cover assembly (124) detachably assembled to the turning cover assembly (59), wherein the turning cover assembly (59) comprises a water inlet pipeline (60), a vent through hole (125) and a vent sealing ring (126) assembled to the vent through hole (125), the vent cover assembly (124) is assembled to the vent through hole (125), and the vent sealing ring (126) is positioned between the vent through hole (125) and the vent cover assembly (124) in a sealing manner;

the stirring cup assembly (13) is arranged on the main body part (16) and comprises a juice outlet (24), the turnover cover assembly (59) can cover the cup opening of the stirring cup assembly (13), and the exhaust cover assembly (124) is communicated with the stirring cup assembly (13) through the exhaust through hole (125);

a water tank (12) provided in the main body (16);

the water delivery assembly (14) is arranged on the host (11), is connected with the water tank (12) and the water inlet pipeline (60), and is used for delivering water in the water tank (12) to the stirring cup assembly (13), and when the turnover cover assembly (59) is covered, the water delivery assembly (14) is communicated with the cup opening of the stirring cup assembly (13) through the water inlet pipeline (60); and

the juice receiving cup assembly (15) is detachably arranged on one side of the main body part (16) and comprises a juice receiving opening (28), and the juice receiving cup assembly (15) is used for receiving the juice flowing out of the juice outlet (24) through the juice receiving opening (28).

2. The food processor as claimed in claim 1, wherein the exhaust sealing ring (126) comprises an exhaust sealing ring main body (127) and a sealing rib (128) protruding from an inner surface of the exhaust sealing ring main body (127), the exhaust sealing ring main body (127) is assembled to the exhaust through hole (125), the exhaust cover assembly (124) is assembled in the exhaust sealing ring main body (127), and the sealing rib (128) abuts against the exhaust cover assembly (124).

3. The food processor of claim 1, wherein the flip cover assembly (59) comprises a flip cover body (96) and a lining cover assembly (97) detachably assembled to the flip cover body (96), when the flip cover assembly (59) is covered, the lining cover assembly (97) covers the cup mouth of the stirring cup assembly (13), and the flip cover body (96) covers the lining cover assembly (97);

the flip top lid (96) includes a lid vent hole (131), the liner lid assembly (97) includes a liner lid vent hole (132), a position of the liner lid vent hole (132) corresponds to a position of the lid vent hole (131), and the vent through hole (125) includes the lid vent hole (131) and the liner lid vent hole (132); the exhaust sealing ring (126) is assembled on the cover body exhaust hole (131) in a sealing way, extends out of the cover body exhaust hole (131), and is in sealing and abutting joint with the periphery of the lining cover exhaust hole (132); the exhaust cover assembly (124) is assembled on the cover body exhaust hole (131) and communicated with the stirring cup assembly (13) through the cover body exhaust hole (131) and the lining cover exhaust hole (132), and the exhaust sealing ring (126) is positioned between the cover body exhaust hole (131) and the exhaust cover assembly (124) in a sealing mode.

4. The food processor as claimed in claim 3, wherein the exhaust sealing ring (126) is detachably assembled to the cover body exhaust hole (131).

5. The food processor as claimed in claim 4, wherein the exhaust sealing ring (126) comprises an annular sealing groove (133), and the edge of the cover body exhaust hole (131) is detachably clamped in the sealing groove (133).

6. The food processor as claimed in claim 3, wherein the exhaust sealing ring (126) comprises an exhaust fitting part (134) and an exhaust sealing part (135) connected to the exhaust fitting part (134), the exhaust fitting part (134) is assembled in the cover body exhaust hole (131), the exhaust sealing part (135) is located outside the cover body exhaust hole (131) and is in sealing abutment with the periphery of the liner cover exhaust hole (132), the exhaust sealing part (135) comprises a first exhaust sealing part (136) connected to the exhaust fitting part (134) and a second exhaust sealing part (137) connected to one end of the first exhaust sealing part (136) close to the liner cover assembly (97), the first exhaust sealing part (136) is gradually enlarged in a radial direction from the exhaust fitting part (134) to the liner cover assembly (97), and the second exhaust sealing part (137) is gradually enlarged from the first exhaust sealing part (136) to the liner cover assembly (97) 97) Gradually radially in the direction of (a).

7. The food processor of claim 1, wherein the flip cover assembly (59) comprises a flip cover front surface (138), a flip cover back surface (139) opposite to the flip cover front surface (138), and a vent cover receiving groove (140) recessed from the flip cover front surface (138) to the flip cover back surface (139), wherein the flip cover back surface (139) faces the stir cup assembly (13) when the flip cover assembly (59) is closed, the vent hole (125) is located in the vent cover receiving groove (140), and the vent cover assembly (124) is received in the vent cover receiving groove (140).

8. The food processor of claim 7, wherein a finger relief space (141) for relieving fingers is provided between the side wall of the exhaust cover assembly (124) and the side wall of the exhaust cover receiving groove (140); and/or

The vent cover assembly (124) includes a vent cover front face (142) facing away from the flip cover back face (139), the vent cover front face (142) being lower than the flip cover front face (138) or flush with the flip cover front face (138).

9. The food processor of claim 1, wherein the flip cover assembly (59) has a thickness in the range of 15mm to 45 mm.

10. The food processor of claim 1, wherein the juice receiving cup assembly (15) is provided on the left or right side of the main body portion (16), and the water tank (12) is provided on the rear side of the main body portion (16).

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