CN211722870U - Food processor - Google Patents

Abstract

The application discloses cooking machine, it includes cup, bowl cover and stirs the subassembly. The cup body comprises a bottom, a side wall and a top opening, the cup body is used for containing liquid, and a heating component is arranged at the bottom of the cup body; the cup cover is matched with the cup body to cover the top opening of the cup body; mix the subassembly and install in the bottom of cup, mix the pivot that the subassembly includes flabellum, blade and connection flabellum and blade, flabellum detachably installs on the top of pivot, and in the cup was located to the flabellum, the blade was fixed in the pivot in the below position on the top of pivot, and the flabellum is used for being driven rotatory and mix the liquid in the cup. In this way, this application can reach the effect of stirring to the liquid in the cup of cooking machine to make liquid obtain the even heating in the cup, and be favorable to realizing accurate accuse temperature.

Description

Food processor

Technical Field

The application relates to the technical field of household appliances, in particular to a food processor.

Background

With the continuous progress of science and technology, the classification of household electrical appliances is more and more abundant. People are continuously pursuing quality life, and more household electrical appliances are favored by people, such as cooking machines.

A food processor commonly available in the market at present can adopt a constant-temperature slow cooking mode, especially a low-temperature slow cooking mode, to cook food materials (e.g., meat, eggs, etc.) by heating liquid (e.g., water, oil-water mixture, brine, etc.) in the food processor. This in turn requires a heating device to be provided in the food processor. The cup that is used for holding edible material of current cooking machine is during the heating and/or keep warm during because thereby the heating heat is too concentrated and cause the edible material temperature in the cup inhomogeneous or reach the even time of temperature longer, and this also does not benefit to and realizes accurate accuse temperature.

SUMMERY OF THE UTILITY MODEL

The application provides a cooking machine to the realization is to the even heating of cooking machine internal liquid.

In order to solve the technical problem, the application adopts a technical scheme that: providing a food processor, the food processor comprising:

the cup body comprises a bottom, a side wall and a top opening, the cup body is used for containing liquid, and a heating component is arranged at the bottom of the cup body;

the cup cover is matched with the cup body to cover the top opening of the cup body; and

mix the subassembly, install the bottom of cup, mix the subassembly and include flabellum, blade and connection the flabellum with the pivot of blade, flabellum detachably installs the top of pivot, just the flabellum is located in the cup, the blade is in the below position on the top of pivot is fixed in the pivot, the flabellum is used for being driven rotatory and stirs liquid in the cup.

Optionally, the stirring assembly further comprises a transmission column fixed at the bottom end of the rotating shaft, and the transmission column is arranged at the outer side of the bottom of the cup body to receive the driving force of a driving device to drive the fan blades and the blades on the rotating shaft to rotate.

Optionally, the flabellum includes the mount pad and follows a plurality of blades that mount pad circumference interval set up, the center department of mount pad is provided with the axle center hole, the mount pad passes through the axle center hole is installed in the pivot.

Optionally, the top end of the rotating shaft includes a nut connected to the rotating shaft, the nut is used for fixing the blade on the rotating shaft, and the axle hole receives the nut and is in transmission fit with the nut.

Optionally, the number of the blades is four, and the four blades are uniformly distributed around the rotating shaft; the blades comprise a first blade and a second blade, and the first blade and the second blade are arranged on the rotating shaft in a crossed mode.

Optionally, the first blade and the second blade are vertically arranged, and the first blade, the second blade and the plurality of blades are arranged in a staggered manner.

Optionally, the highest portion of the blade is higher than the highest portion of the blade.

Optionally, the stirring assembly further comprises a bearing and a bearing sleeve for accommodating the bearing, the bearing is arranged on the rotating shaft, and the bearing sleeve is mounted at the bottom of the cup body.

Optionally, the agitating assembly further comprises a bearing cap covering the top of the bearing housing, and the bearing cap is disposed on the bottom side of the blade.

Optionally, the food processor further comprises a base, wherein an accommodating space is formed in the base and used for accommodating the lower end part of the cup body; the base comprises a driving device, when the cup body is installed on the base, the driving device drives the transmission column, and then the fan blades on the rotating shaft and the blades are driven to rotate through the transmission column.

Compared with the prior art, the beneficial effects of this application are: this application cooking machine's stirring subassembly includes flabellum, blade and connection the flabellum with the pivot of blade, flabellum detachably installs the top of pivot, just the flabellum is located in the cup, the blade is in the below position on the top of pivot is fixed in the pivot, this makes the flabellum is used for being driven rotatory and stirs the liquid in the cup, and then right liquid in the cup of cooking machine reaches the effect of stirring to make liquid obtain the even heating in the cup, and be favorable to realizing accurate accuse temperature. In addition, when will the flabellum is dismantled from the pivot, the accessible drive epaxial blade is high-speed rotatory and realize the garrulous of edible material, and then expands the function of cooking machine.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

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

FIG. 2 is a schematic top view of a cup and whipping assembly of the food processor of an embodiment of the present application;

fig. 3 is an enlarged schematic structural view of a fan blade of the food processor in an embodiment of the present application;

FIG. 4 is a schematic cross-sectional view of an assembly of a cup body and a cup lid of a food processor according to an embodiment of the present application;

FIG. 5 is a schematic perspective exploded view of a cup body and a lid of the food processor in an embodiment of the present application;

fig. 6 is a schematic perspective exploded view of a base of the food processor in an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, the present application will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 4, fig. 1 is a schematic structural diagram of a food processor according to the present application. The processor 100 can be used to hold a liquid, such as water, an aqueous mixture, etc., while heating and stirring the held liquid.

The food processor 100 can include a cup 10, a lid 20, a stirring assembly 30, and a base 40. The lid 20 is closed to the cup 10 and the agitation assembly 30 is mounted in the cup 10. The base 40 is provided with an accommodating space for accommodating a lower end portion of the cup body 10.

Referring also to fig. 5, cup 10 includes a bottom 11, a sidewall 12, and a top opening 13. The side wall 12 is cylindrical and connected with the bottom 11 to jointly define a containing space; the top end of cylindrical sidewall 12 defines the top opening 13. The cup body 10 can be used to contain liquids such as water, aqueous mixtures, and the like, and can also contain food materials such as meat, eggs, and the like, which can be packaged in filter bags, sealed bags, and the like to prevent the food materials from being dispersed. The bottom 11 of the cup body 10 is provided with a heat generating component 14; lid 20 cooperates with cup 10 to cover top opening 13 of cup 10.

The food processor 100 can also include a whipping assembly 30 mounted to the bottom 11 of the cup 10. The agitating assembly 30 includes fan blades 32, a blade 31, and a shaft 33 connecting the fan blades 32 and the blade 31. The blade 32 is detachably mounted on the top end of the rotating shaft 33, the blade 32 is arranged in the cup body 10, and the blade 31 is fixed on the rotating shaft 33 at a position below the top end of the rotating shaft 33. When the food in the cup body 10 needs to be crushed, the fan 32 mounted on the top end of the rotating shaft 33 is detached, and the blade 31 is driven to rotate to crush the food in the cup body 10. When it is desired to heat the material in the cup 10 uniformly, the blades 32 are mounted on the top of the shaft 33 and the blades 31 are rotated together, the blades 32 are driven to rotate to stir the liquid in the cup 10, it will be appreciated that the blades 31 are also driven to rotate to stir the liquid in the cup 10, and the blades 31 cannot be used to crush the material.

The heat generating component 14 may be a heat generating plate or a heat generating tube. When the heat generating component 14 is a heating tube, the heating tube can be disposed under the bottom 11 of the cup body 10 by welding, screwing, fastening, or the like, so that the heating tube is in close contact with the bottom 11, and the heating tube can generate heat when being powered on to heat the bottom 11 of the cup body 10; when the heat-generating component 14 is a heat-generating plate, the heat-generating plate may be a part of the bottom 11 of the cup body 10.

Referring to fig. 2 to 5, the fan blade 32 includes a mounting base 313 and a plurality of blades 315 circumferentially spaced along the mounting base 313, a central hole (not shown) is disposed at a center of the mounting base 313, and the mounting base 313 is mounted on the rotating shaft 33 through the central hole. Wherein the fan blade 32 further comprises a connecting arm 314 for connecting the mounting seat 313 and the fan blade 315. The connecting arm 314 is generally inverted L-shaped in cross-section. The connecting arm 314 also serves to provide a fitting distance between the blade 315 and the blade 31, preventing interference between the blade 315 and the blade 31.

In one embodiment, there are four vanes 315, and the four vanes 315 are uniformly distributed around the rotating shaft 33, so that adjacent vanes 315 are vertically arranged with respect to the vanes 315; the blade 31 includes a first blade 311 and a second blade 312, and the first blade 311 and the second blade 312 are disposed on the rotating shaft 33 in an intersecting manner. The first blade 311 and the second blade 312 are vertically arranged, and the first blade 311, the second blade 312 and the plurality of blades 315 are arranged in a staggered manner. The highest portion of the blade 315 may be higher than the highest portion of the blade 31 to avoid contact and damage of the blade 31 to the food material during agitation; in other words, during agitation, the highest portion of the blade 315 may act to support the food material without the blade 31 supporting and contacting the food material. The lowermost portion of blade 315 may be flush with the lowermost portion of blade 31 and may be proximate to bottom 11 of cup 10. It is understood that the fan blade 32 may adopt four blades 315, each blade 315 has a rectangular plate shape vertically disposed, and the four blades 315 are arranged in a cross shape as a whole. It will be appreciated that fan blade 32 is a conventional fan blade. It is understood that fan blades 32 may also be other types of fan blades, such as turbine blades, fan blades, and the like. This application adopts above-mentioned mode can stir the liquid in the cup 10 through the rotation of drive flabellum 32 continuously to make liquid obtain even heating in the cup 10, be difficult for producing and glue the pot or paste the pot, and be favorable to realizing accurate accuse temperature.

Referring to fig. 4 and 5, in an embodiment, the top end of the rotating shaft 33 includes a nut 331 connected to the rotating shaft 33, the nut 331 is used for fixing the blade 31 on the rotating shaft 33, and the axial hole receives the nut 331 and is in driving fit with the nut 331. It is easy to understand that when the fan blade 32 generates an upward pushing force on the liquid in the cup body 10, the liquid will generate a downward reaction force on the fan blade 32; thus, such fan blades 32 are not disengaged from the nut 331 during agitation due to the downward force applied thereto. In addition, in order to make the engagement between the fan blade 32 and the nut 331 more stable, the axial hole and the nut 331 may be configured to be snap-fit or magnetically-attracted.

Referring to fig. 5, the cup 10 may also include a handle 15. The handle 15 includes a handle main body 151 and a handle cover 152. A handle body 151 is mounted on the side wall 12 of the cup body 10, and a handle cover 152 is provided to cover the handle body 151. The handle cover 152 is snap fit with the lid 20 to cover the top opening 13 of the cup 10 with the lid 20. It will be appreciated that the handles 15 may be two and fixed to two opposite sides of the cup 10, respectively. The handle 15 may be made of metal, metal alloy, wood or plastic, such as aluminum, aluminum alloy, bakelite, wood block, etc. In another embodiment, handle 15 may further comprise a link 153 and a movably connected latch 154, wherein link 153 is disposed between handle 15 and sidewall 12 of cup 10, and link 153 can move back and forth along the height direction of cup 10 to activate latch 154 and engage latch 154 with a structure (e.g., a detent or stop) on base 40, thereby fixing cup 10 to base 40 or releasing cup 10 from base 40. The handle 15 may further include a handle plug 155, and the handle plug 155 is used to cover a through hole (not shown) in the handle 15, such as a through hole for mounting a screw.

Referring to fig. 5, the lid 20 is provided with an exhaust hole 21. An anti-overflow cover 22 is inserted into the exhaust hole 21, and a channel for discharging steam is formed between the anti-overflow cover 22 and the cup cover 20. The lid 22 may also serve as a gauge for the foodstuff. The spill-proof cover 22 is provided with a plurality of volume scales. Volumetric scales, e.g., 20ml, 40ml, 60ml, 80ml, 100ml, etc. The cap 20 may be made of stainless steel or food grade plastic. The lid 20 also mounts a gasket 23 to allow the lid 20 to mate with the cup 10 to cover the top opening 13 of the cup 10. The sealing ring 23 may be made of silica gel. In another embodiment, a lid stopper 24 is disposed on the lid 20, and the lid stopper 24 is fixed to the bottom of the handle at two sides of the lid 20 to facilitate the user to take the lid 20.

Referring to fig. 4 and 5, in one embodiment, the stirring assembly 30 further includes a driving post 34, the driving post 34 is fixed at the bottom end of the rotating shaft 33, and the driving post 34 is disposed at the outer side of the bottom of the cup body 10 to receive the driving force of the driving device to drive the fan blade 32 and the blade 31 on the rotating shaft 33 to rotate. The agitating assembly 30 further includes a bearing 35 and a bearing housing 36 that houses the bearing 35, the bearing 35 is provided on the rotating shaft 33, and the bearing housing 36 is mounted on the bottom of the cup body 10. The bearing 35 may include a first bearing and a second bearing, the first bearing and the second bearing are disposed on the rotating shaft 33, and both the first bearing and the second bearing are received in the bearing housing 36. The bearings 35 may be ball bearings. A seal 320 is also provided between the bearing sleeve 36 and the cup 10. The seal 320 may be a seal ring. The sealing ring serves to provide sealing properties to the cup body 10 to prevent liquid leakage.

Referring to fig. 5, the agitating assembly 30 further includes a bearing cap 39 covering the top of the bearing housing 36, and the bearing cap 39 is disposed on the bottom side of the blade 31. Wherein the agitating assembly 30 further includes an oil seal 310 disposed between the bearing cap 39 and the bearing 35. It will be appreciated that the bearing cap serves to cover the top of the first bearing (i.e., the upper bearing 35) and the bearing housing 36. The oil seal 310 also covers the rotating shaft 33 and has lubricating and sealing functions.

Referring to fig. 5, the whipping assembly 30 can further comprise a catch 321, the catch 321 is disposed between the underside of the bottom 11 of the cup 10 and the drive post 34, and the catch 321 cooperates with the bearing sleeve 36 to apply a downward force to the bearing sleeve 36, thereby securing the whipping assembly 30 to the bottom 11 of the cup 10. The driving post 34 may also be fixed to the rotating shaft 33 by a snap spring 323 to prevent the driving post 34 from being disengaged from the rotating shaft 33.

In one embodiment, cup 10 is a single-layer cup, i.e., sidewall 12 of cup 10 is a single-layer structure. In other embodiments, cup body 10 may be a double-layer cup, i.e., sidewall 12 of cup body 10 may include an outer layer and an inner layer. The upper end of the inner layer is hermetically connected with the upper end of the outer layer, and the lower end of the outer layer is hermetically connected with the lower end of the inner layer, so that a closed cavity is formed between the outer layer and the inner layer. The closed cavity can be arranged in vacuum. The closed cavity may also be provided with insulation, for example by filling it with insulation. The outer and inner layers may be made of stainless steel.

Referring to fig. 5, cup 10 further includes a bottom cup cover 18, and bottom cup cover 18 is fixed to the lower side of bottom 11 of cup 10 and encloses a space for accommodating electronic components with bottom 11 of cup 10. A temperature sensor may be provided in the space for accommodating the electronic device for detecting the temperature of the cup body 10 during heating to prevent overheating and dry burning protection. The space for accommodating the electronic device can also be provided with power supply or control components such as a temperature controller, a conductive terminal and the like. In the above embodiment, the cup bottom cover 18 may be fixed to the lower side of the bottom 11 of the cup 10 by welding, or may be fixedly connected by bonding, welding, or pressing.

Referring to fig. 5, cup 10 may further include a cup mount 19, cup mount 19 being secured to bottom 11 of cup 10 and surrounding cup bottom lid 18. The cup mount 19 is used to cooperate with the seat 40 to fix the cup 10, and the cup mount 19 can also be used as a support when the cup 10 is taken out from the seat 40, so that the cup 10 can be stably placed on a platform such as a table.

Referring also to fig. 6, the base 40 includes a driving device 42, and when the cup 10 is mounted on the base 40, the driving device 42 drives the driving post 34, and thus the fan blade 32 and the blade 31 on the rotating shaft 33 are driven to rotate through the driving post 34.

Specifically, referring to fig. 6, the base 40 further includes a control panel 43 and a control circuit 44, and the control circuit 44 is electrically connected to the control panel 43 and the driving device 42, respectively. The drive means 42 may be a motor. The control panel 43 is used for controlling the operating status of the food processor 100, such as power on/off, food material selection, heat preservation/heating, temperature setting, rotation speed setting, and the like. The control circuit 44 is used for receiving control signals from the control panel 43 and further controlling the operation of the driving device 42, the heat generating component 14, the temperature sensor, and the like. The control panel 43 may be a touch display screen, and the touch display screen is used for controlling the operating state of the food processor 100, and correspondingly sets the functions such as food material selection, heat preservation/heating, temperature setting, and rotation speed setting on the touch display screen.

Referring to fig. 6, the base 40 further includes a transmission mechanism (not shown) including a first pulley 451, a second pulley 452, and a transmission cover assembly (not shown) connected to the second pulley 452. The diameter of the first pulley 451 may be smaller than the diameter of the second pulley 452, and may be set according to a desired gear ratio. The drive cover assembly includes a drive cover 454 and a drive shaft 455 fixedly connecting the drive cover 454 and the second pulley 452. The transmission cover 454 has a receiving slot for receiving the transmission post 34, and the transmission post 34 is inserted into the receiving slot of the transmission cover 454, so that the transmission post 34 is engaged with the transmission cover 454 to realize transmission. The first belt wheel 451 is installed at the output end of the driving device 42, and the first belt wheel 451 is connected to the second belt wheel 452 through a belt 456 to drive the driving cover assembly to rotate and drive the driving post 34, so as to drive the fan blade 32 on the rotating shaft 33 to rotate through the driving post 34. The belt 456 may be a synchronous belt, i.e., the belt 456 may be provided with belt teeth that engage teeth on the first and second pulleys 451, 452.

Referring to fig. 6, in one embodiment, the base 40 further includes an upper housing 46, an upper housing inner member 47, a middle frame 48, and a base bottom cover 49. The upper case 46 has an opening 463 and a mounting groove 464 for mounting the control panel 43. The upper case inner 47 is disposed in the opening 463 to form a receiving space for receiving the lower end portion of the cup body 10, and the upper case inner 47 is fixed to the base 40, for example, may be fixedly connected to the upper case 46, the middle frame 48, or the base bottom 49. The control panel 43 is disposed in the mounting groove 464 of the upper housing 46. The upper casing 46, the middle frame 48 and the base bottom cover 49 are covered to form a containing cavity. The containing cavity is used for containing the upper shell internal part 47, the control circuit 44, the driving device 42, the transmission mechanism and other parts.

Referring to fig. 6, the upper housing 46 is further provided with an electronic lock 461 and a mounting opening 462 for mounting the electronic lock 461, and the electronic lock 461 is fixedly disposed in the mounting opening 462. The electronic lock 461 may be electrically connected to the control circuit 44. The electronic lock 461 may be a micro switch. The electronic lock 461 is used to contact with the protrusion 27 on the outer edge of the lid 20 to turn on the control circuit 44, that is, when the protrusion 27 on the outer edge of the lid 20 is rotatably mounted on the cup 10, the protrusion 27 can simultaneously press the electronic lock 461, thereby turning on the control circuit 44 by the electronic lock 461.

The bottom of the upper housing inner 47 may further include a switch assembly (not shown) that is inserted into the inner sidewall of the bottom of the upper housing inner 47 and is activated by the rod 153 of the cup 10. The switch assembly can be used for detecting whether the cup body 10 is in place or for connecting the control circuit 44 with the heat generating component 14, the temperature sensor, the temperature controller, the conductive terminal and other power supply or control components. The switch assembly includes a silicone cover 472, a top bar 473, a bracket 474 and a microswitch 475. The top bar 473 is movably mounted on the bracket 474, the silicone cover 472 covers the upper end of the top bar 473, the micro switch 475 is fixed on the bracket 474, and the micro switch 475 is located at the lower end of the top bar 473. The silicone cover 472 is used to prevent vibration or electric shock. It will be appreciated that the switch assembly may be two and fixed to the two opposite inner sidewalls of the bottom of the upper housing inner 47, respectively. A ledge provided below the lid 20 causes the link 153 to move downward and depress the microswitch 475 when the cup 10 is mounted on the mount 40 and when the lid 20 is engaged on the handle 15. The microswitch 475 can be used for controlling the on-off of an internal circuit of the machine base 40, and when the microswitch 475 is pressed by the connecting rod 153 to be closed, the microswitch 475 controls the conduction of the internal circuit of the machine base 40, so that the functions of heating, stirring and the like are realized; when the cup body 10 is taken down, the microswitch 475 controls the internal circuit of the machine base 40 to be automatically switched off, so that the functions of automatic power-off and the like after the cup body 10 is taken down are realized, and the safety factor of the cooker is improved. The microswitch 475 may be used in combination with the electronic lock 461.

Referring to fig. 6, the housing 40 further includes a carrier plate 50 rotatably coupled to the drive cover assembly. The loading plate 50 is provided with a plurality of mounting holes 51, the base bottom cover 49 is provided with positioning posts 491 for fixing, and the positioning posts 491 are disposed corresponding to the mounting holes 51. The mounting hole 51 of the carrier plate 50 is further provided with a vibration-proof rubber 52 for shock absorption.

At least one weight sensor 492 is provided on the base bottom cover 49. The weight sensor 492 is fixedly disposed on the base bottom cover 49 through the rubber foot fixing post 493. The weight sensor 492 is used to detect the weight of the food to be processed in the food processor 100, so as to prevent the food to be processed from being insufficient to cause dry burning or the stirring assembly 30 from being unloaded to cause no stirring action, and prevent the food to be processed from being excessive to cause over-load operation.

The bottom of the base bottom cover 49 is also provided with anti-skid pads 494. The number of the non-slip pads 494 may be 1 or more than 2. The anti-slip pad 494 is used for preventing because of the vibrations of cooking machine 100 during operation, cause the job instability, and then influence life. Each non-slip mat 494 is installed on the bottom of the rubber foot fixing post 493.

Referring to fig. 6, the base 40 is provided with at least one heat sink 485, and the heat sink 485 is located on the middle frame 48. An exhaust fan 496 may be disposed within the housing 40. The exhaust fan 496 is used for discharging the excessive heat generated by the operation of the food processor 100 from the base 40, so as to prevent each electronic component of the base 40 from being damaged due to overheating, and further prolong the service life of the food processor 100. The base bottom cover 49 may also be provided with a heat sink 495 to achieve a good heat dissipation effect.

The base 40 is further provided with a control circuit fixing frame 497, a power switch 499 and a power input interface 498 for connecting the control circuit 44, wherein the control circuit fixing frame 497 is used for fixing the control circuit 44 on the base bottom cover 49. The power switch 499 and the power input interface 498 are disposed on the chassis bottom cover 49. The power input interface 498 is fixed on the sidewall of the base bottom cover 49 through a pressing block 502. The power switch 499, the power input interface 498 and the control circuit 44 are electrically connected. The housing 40 may also be provided with a connector 500, the connector 500 being electrically connected to the control circuit 44. The connector 500 may also be fixed to the base bottom cover 49 by the connector fixing seat 501. The connector 500 is used for connecting the control circuit 44 to the heat generating component 14, the temperature sensor, the temperature controller, and the conductive terminal on the cup body 10 for electrical connection.

The stirring subassembly 30 of this application cooking machine 100 includes flabellum 32, blade 31 and the pivot 33 of connecting flabellum 32 and blade 31, flabellum 32 detachably installs the top at pivot 33, and flabellum 32 locates in the cup 10, blade 31 is fixed on pivot 33 at the below position on the top of pivot 33, this makes flabellum 32 be used for being driven rotatory and stirs the liquid in the cup 10, and then reach the effect of stirring to the liquid in cooking machine 100, so that liquid obtains even heating in the cup 10, be difficult for producing the clay pot or sticking with paste the pot, and be favorable to realizing accurate accuse temperature. Food materials such as meat, eggs and the like can be contained in the food processor 100, and can be packaged by a filter bag, a sealing bag and the like, and the food materials can be cooked by heating liquid in the food processor 100. The food processor 100 can also be used for decocting medicine, etc. In addition, when will the flabellum is dismantled from the pivot, the accessible drive epaxial blade is high-speed rotatory and realize the garrulous of edible material, and then expands the function of cooking machine.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Claims (10)

1. The utility model provides a cooking machine which characterized in that, cooking machine includes:

the cup body comprises a bottom, a side wall and a top opening, the cup body is used for containing liquid, and a heating component is arranged at the bottom of the cup body;

the cup cover is matched with the cup body to cover the top opening of the cup body; and

mix the subassembly, install the bottom of cup, mix the subassembly and include flabellum, blade and connection the flabellum with the pivot of blade, flabellum detachably installs the top of pivot, just the flabellum is located in the cup, the blade is in the below position on the top of pivot is fixed in the pivot, the flabellum is used for being driven rotatory and stirs liquid in the cup.

2. The food processor of claim 1, wherein the stirring assembly further comprises a transmission post fixed at the bottom end of the rotating shaft, and the transmission post is disposed at the outer side of the bottom of the cup body to receive the driving force of the driving device to drive the fan blades and the blades on the rotating shaft to rotate.

3. The food processor of claim 2, wherein the fan blade comprises a mounting seat and a plurality of blades circumferentially spaced along the mounting seat, a central hole is provided at the center of the mounting seat, and the mounting seat is mounted on the rotating shaft through the central hole.

4. The food processor of claim 3, wherein the top end of the shaft comprises a nut attached to the shaft for securing the blade to the shaft, and the spindle hole receives and drivingly engages the nut.

5. The food processor of claim 3, wherein the number of the blades is four, and the four blades are evenly distributed around the rotating shaft; the blades comprise a first blade and a second blade, and the first blade and the second blade are arranged on the rotating shaft in a crossed mode.

6. The food processor of claim 5, wherein the first blade and the second blade are vertically disposed, and the first blade and the second blade are staggered from the plurality of blades.

7. The food processor of claim 6, wherein the highest portion of the blade is higher than the highest portion of the blade.

8. The food processor of claim 1, wherein the agitation assembly further comprises a bearing and a bearing housing for receiving the bearing, the bearing is disposed on the shaft, and the bearing housing is mounted to the bottom of the cup body.

9. The food processor of claim 8, wherein the agitation assembly further comprises a bearing cap covering the top of the bearing housing, and wherein the bearing cap is disposed on the underside of the blade.

10. The food processor of any one of claims 2 to 7, further comprising a base, wherein the base is provided with an accommodating space for accommodating a lower end portion of the cup body; the base comprises a driving device, when the cup body is installed on the base, the driving device drives the transmission column, and then the fan blades on the rotating shaft and the blades are driven to rotate through the transmission column.

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