CN212394681U - Food processor - Google Patents

Abstract

The utility model discloses a food processor, include: the stirring cup assembly is arranged on the main machine and is provided with a discharge hole; the slurry discharge valve device is arranged on the stirring cup assembly and opens or closes the discharge hole; a liquid receiving container assembly located below the slurry discharge valve apparatus, the liquid receiving container assembly comprising at least a first cup and a second cup; and the movement driving component drives the first cup body and the second cup body to move so that one of the first cup body and the second cup body enters a liquid receiving position to receive liquid discharged by the slurry discharge valve device. The utility model discloses a food processor washs conveniently.

Description

Food processor

Technical Field

The utility model relates to the technical field of household appliances, in particular to food processor.

Background

In the food preparation machine that has automatic thick liquid function of arranging now, the fluid-discharge tube is fixed, reminds the user to place the waste water box in fluid-discharge tube department when needing to wash, and this kind of setting makes food preparation machine can't realize complete automation. In addition, the design of two liquid discharge ports for discharging liquid to different cups respectively has the problem of incomplete cleaning, namely, after pulping is finished, liquid is discharged from one liquid discharge port, waste liquid is discharged from the other liquid discharge port during cleaning, so that the liquid discharge ports for discharging the liquid cannot be cleaned, peculiar smell is easily generated at the liquid discharge ports, and therefore, how to realize automatic cleaning in the food processing machine is convenient, and the design is a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a food processor, which aims to realize the convenience of automatic cleaning of the food processor.

In order to achieve the above object, the present invention provides a food processor, including:

the host computer is used for storing the data,

the stirring cup assembly is arranged on the host machine and is provided with a discharge hole;

the slurry discharge valve device is arranged on the stirring cup assembly and opens or closes the discharge hole;

a liquid receiving container assembly located below the slurry discharge valve apparatus, the liquid receiving container assembly comprising at least a first cup and a second cup; and

and the movement driving component drives the first cup body and the second cup body to move so that one of the first cup body and the second cup body enters a liquid receiving position to receive the liquid discharged by the slurry discharge valve device.

The utility model discloses among the technical scheme, connect liquid container subassembly through setting up in row thick liquid valve gear below to order about the first body and the second cup that the subassembly drive connects among the liquid container subassembly with the removal and carry out the position switch in order to accept row thick liquid valve gear exhaust liquid, so in the food preparation machine use, through above-mentioned structure setting, can realize in the food preparation machine use, after accomplishing food whipping discharge liquid, carry out the self-cleaning procedure, so self-cleaning process is convenient. Wherein first cup can be used for connecing food thick liquid, and the second cup can connect the washing waste liquid, then the food preparation machine of this application except under the convenient condition of self-cleaning, when needs share for many people to food thick liquid after the food preparation machine whipping, also can order about first cup of subassembly drive and second cup through the removal and come to connect thick liquid respectively, realize the automatic allocation of liquid.

Optionally, the movement actuation assembly drives the first cup and the second cup to translate to bring one of the first cup and the second cup into the liquid receiving position.

Optionally, the movement actuation assembly drives the first cup and the second cup to rotate to bring one of the first cup and the second cup into a liquid receiving position.

Optionally, the movement driving assembly includes a bearing part for carrying the liquid receiving container assembly and a rotary driving part for driving the bearing part to rotate.

Optionally, the main machine is further provided with a placing table below the slurry discharging valve device, and the movement driving component is arranged on the placing table.

Optionally, the bearing component is a rotating disc, the rotary driving component is a rotary motor, the rotating disc is rotatably connected to the placing table, the rotary motor is fixed to the placing table, a motor shaft of the rotary motor is connected to the rotating disc, or the rotary motor is connected to the rotating disc through a transmission structure.

Optionally, the turntable includes a disk body and a positioning shaft connected to the disk body, the movement driving assembly further includes a rolling member, the rolling member is located between the placing table and the disk body, a motor shaft of the rotating motor is fixedly connected to the positioning shaft, or the positioning shaft is rotatably connected to the placing table, a gear and a rack are disposed on the motor shaft of the rotating motor and the periphery of the disk body, the gear and the rack are engaged with each other, and the transmission structure is formed by the gear and the rack.

Optionally, the dish body include the support ring and with support ring inner wall connection's support bar, the location axle with support bar fixed connection, the rolling member is located the support ring with place between the platform, the support ring with the support bar is injectd and is corresponded respectively first cup with second cup screens, first cup with the bottom card of second cup is gone into in the screens.

Optionally, the first cup body and the second cup body are respectively provided with a splicing surface, and when the bottoms of the first cup body and the second cup body are clamped into the clamping position, the splicing surface on the first cup body and the splicing surface on the second cup body abut against each other.

Optionally, an auxiliary positioning assembly is further disposed between the carrier and the placing table, and the auxiliary positioning assembly is used for keeping one of the first cup and the second cup stationary when the one of the first cup and the second cup is in the liquid receiving position.

In this embodiment, the secondary positioning assembly can securely stop the first and second cups in the receiving position.

Optionally, the auxiliary positioning assembly includes a magnetic member disposed on the bearing member and a magnetic member disposed on the placement table, and when one of the first cup and the second cup is in the liquid receiving position, the magnetic member and the magnetic member are magnetically attracted to each other.

In this embodiment, the auxiliary positioning component is a combination of a magnetic part and a magnetic part, and the structure is simple.

Optionally, sensing structures for detecting the installation state are arranged between the first cup and the bearing piece and between the second cup and the bearing piece; and/or the presence of a gas in the gas,

a trigger and a sensor for detecting the rotation position are arranged between the bearing piece and the placing table.

In this embodiment, detect the installation state through the response structure, can make automatic control more accurate, and detect the rotational position through trigger and sensor, can make and can more accurate stopping in connecing the liquid position with first cup and second cup.

Optionally, the slurry discharge valve device comprises a valve body, the valve body comprises a valve body shell and a valve core, the valve body shell is provided with a feed hole, a slurry discharge hole and a liquid channel communicated with the feed hole and the slurry discharge hole, the feed hole can be communicated with the slurry discharge hole in a butt joint mode, and the valve core is movably connected with the valve body shell to control the on-off of the liquid channel;

wherein at least part of the valve body shell of the valve body can be detached and separated by the stirring cup assembly and/or the valve core can be detached and separated by the valve body shell.

In this embodiment, the valve body shell that has valve body through the thick liquid valve gear of arranging at food preparation machine can at least partially be dismantled, valve body and case all can be dismantled, or the setting that the case can be dismantled for arrange the thick liquid valve gear and use the back for a long time, can conveniently wash arranging thick liquid valve gear, get rid of the edible material residue who arranges thick liquid valve gear, promote food hygiene safety.

Optionally, the slurry discharge valve device further comprises a driving motor, and the driving motor is in transmission connection with the valve core.

In the embodiment, the valve core is automatically controlled by the driving part, so that the food processing machine can realize various automatic control programs and is more convenient to use.

Optionally, the valve body is extractable laterally relative to the blender cup assembly.

In this embodiment, the valve body can be taken out from the side direction, and when needing to wash, the dismouting is comparatively convenient.

Optionally, the slurry discharge valve device further comprises a bracket assembly, the bracket assembly is connected with the outer wall of the stirring cup assembly, and the valve body is connected with the bracket assembly.

In this embodiment, the bracket assembly is arranged so that the whole structure is simplified and the assembly and disassembly are more convenient.

Optionally, the bracket assembly comprises a first bracket adapted to be mounted to the blender cup assembly and a second bracket to which the valve body is connected, wherein the second bracket is movable along the first bracket to bring the feed aperture and the discharge aperture into close proximity and abutting communication; or the second bracket can move along the first bracket and drive the valve body to move out of the first bracket together.

In this embodiment, the valve body can be conveniently taken out and cleaned by means of the drawing manner formed by the sliding fit of the first bracket and the second bracket.

Optionally, a locking structure is arranged between the first support and the second support, and when the second support drives the valve body to be close to the discharge hole and enables the feed hole to be in butt joint communication with the discharge hole, the first support and the second support are relatively fixed together through the locking structure.

In this embodiment, after the valve bodies are butted through the locking structure, the connection at the connecting part of the feeding hole and the discharging hole is stable, and the valve bodies are not easy to loosen to generate leakage.

Optionally, the stirring cup subassembly includes stirring cup and stirring sword, the stirring cup includes lateral wall and diapire, seted up the bottom of lateral wall the relief hole, the internal face of lateral wall is the inside protruding vortex convex part that is equipped with, the vortex convex part is in the circumference of stirring cup extends, the vortex convex part the lateral wall and the diapire cooperation is injectd the grinding chamber, the stirring sword is located grind the intracavity.

In this embodiment, through the protruding vortex convex part that is equipped with of lateral wall internal face at the stirring cup, the vortex convex part extends in the circumference of stirring cup, the vortex convex part, lateral wall and diapire cooperation form and grind the chamber, the stirring sword is located and grinds the intracavity, thereby stir at stirring cup subassembly and beat and eat the material in-process, the edible material stream in the stirring cup becomes the baffling by the laminar flow, the wadding flows, such setting not only the stirring and smash effectually, and need not drive the rotatory motor of stirring sword and must possess great power, can also save the complete machine cost.

Optionally, the stirring cup subassembly is including stirring cup and stirring sword, the stirring cup includes lateral wall and diapire, the bottom of lateral wall has been seted up the relief hole, the internal face of lateral wall is provided with the vortex muscle, the vortex muscle orientation the diapire extends, the vortex muscle include first vortex face, second vortex face and with the crossing looks of lateral wall, the face of crossing is followed the central line of the vertical direction of lateral wall is O, first vortex face with the crossing crest line that forms of second vortex face is in projection on the lateral wall is S, wherein S and the crossing setting of O.

In this embodiment, through being the slope setting with the vortex muscle, so eat material stirring in-process at the stirring cup subassembly, eat the material and will flow towards the center surge of different directions to the stirring cup for the edible material stream in the stirring cup mixes more acutely, then the stirring process is more thorough, and the edible material slurry that obtains is more exquisite, simultaneously, also can correspondingly reduce required motor power, reduces food processor's cost.

Optionally, the first flow disturbing surface and the second flow disturbing surface are sequentially arranged in the rotation direction of the stirring knife, an included angle between the first flow disturbing surface and the central line of the stirring cup is defined as γ, an included angle between the second flow disturbing surface and the central line of the stirring cup is defined as θ, and γ is smaller than θ.

In this embodiment, first vortex face is comparatively precipitous for the internal wall face of lateral wall, then first vortex face will eat the center guide of material flow direction stirring cup, and the second vortex face is for first vortex face and stirring cup's internal wall face to some gently, eat the material flow when the second vortex face of flowing through then can form the vortex at the junction with the medial surface of stirring cup because the change of angle and speed, it piles up at the junction of second vortex face and stirring cup's medial surface to eat the material difficult, also can not form the washing dead angle simultaneously in the cleaning process.

Drawings

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

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

FIG. 2 is a schematic cross-sectional view of the food processor of FIG. 1;

FIG. 3 is an elevational view of a portion of the food processor of FIG. 1 with the discharge valve assembly of the first embodiment installed;

FIG. 4 is a cross-sectional view of the structure of FIG. 3;

FIG. 5 is a cross-sectional view taken at A-A of FIG. 4;

FIG. 6 is an exploded schematic view of the structure of FIG. 3; in the figure, the valve cover is separated from the valve seat;

FIG. 7 is an exploded view of the structure of FIG. 3; in the figure, the valve cover and the valve core are separated from the valve seat;

FIG. 8 is an exploded view of the slurry discharge valve assembly of FIG. 3;

FIG. 9 is a perspective view showing a part of the structure of a food processor equipped with a slurry discharge valve device according to a second embodiment of the present invention;

FIG. 10 is a cross-sectional view of the structure of FIG. 9;

FIG. 11 is an exploded block diagram of the structure of FIG. 9;

FIG. 12 is a front view of the slurry discharge valve apparatus of FIG. 9;

FIG. 13 is a cross-sectional view taken at A-A of FIG. 12;

FIG. 14 is an exploded view of the slurry discharge valve assembly of FIG. 12;

FIG. 15 is a sectional view showing the structure of a food processor equipped with a discharge valve device according to a third embodiment of the present invention;

FIG. 16 is a schematic structural view of the valve body of FIG. 15 in a removed condition;

FIG. 17 is a schematic view of a first bracket of the slurry outlet valve assembly of FIG. 15;

FIG. 18 is a schematic perspective view of the valve body of the slurry outlet valve assembly of FIG. 15;

FIG. 19 is an exploded view of the valve body of FIG. 18;

FIG. 20 is a schematic cross-sectional view of a food processor incorporating a discharge valve assembly according to a fourth embodiment of the present invention;

FIG. 21 is a perspective view of the structure of FIG. 20 with the valve body and second bracket in a removed condition;

FIG. 22 is a cross-sectional structural view of the structure of FIG. 21;

FIG. 23 is a further perspective structural view of the structure of FIG. 22, with the valve body and second bracket in a removed condition;

FIG. 24 is a cross-sectional structural view of the structure of FIG. 23;

FIG. 25 is an exploded view of the valve body of FIG. 20;

fig. 26 is a schematic view showing a first modified structure of a slurry discharge valve device in accordance with a fourth embodiment;

FIG. 27 is an exploded view of the structure of FIG. 26;

FIG. 28 is a sectional view of a second variation of the slurry outlet valve assembly of the present invention in assembly with a blending cup assembly of a food processor, according to a fourth embodiment of the present invention;

FIG. 29 is an exploded schematic view of a portion of the structure of the slurry discharge valve assembly of FIG. 28;

FIG. 30 is a sectional view of a third variation of a slurry outlet valve assembly according to a fourth embodiment of the present invention in combination with an agitator cup assembly of a food processor;

FIG. 31 is an exploded view of a portion of the slurry discharge valve assembly of FIG. 30;

FIG. 32 is a sectional view of a fourth variation of a slurry discharge valve assembly according to a fourth embodiment of the present invention in combination with an agitator cup assembly of a food processor;

FIG. 33 is an exploded view of a portion of the slurry discharge valve assembly of FIG. 32;

FIG. 34 is a cross-sectional view of the food processor of FIG. 33 at a fluid receiving container assembly;

FIG. 35 is a cross-sectional view of a portion of the structure of the first embodiment of the food processor of FIG. 34;

FIG. 36 is an exploded view of the structure of FIG. 35;

FIG. 37 is a cross-sectional view of a portion of the structure of the second embodiment of the food processor of FIG. 34;

FIG. 38 is an exploded view of the structure of FIG. 37;

FIG. 39 is a schematic view of the food processor of FIG. 35 in a first use configuration;

FIG. 40 is a schematic view of the food processor of FIG. 35 in a second use configuration;

FIG. 41 is a schematic view of a vertical cross-sectional structure of a food processor at a blending cup according to yet another embodiment of the present invention;

FIG. 42 is a schematic cross-sectional view of the food processor of FIG. 43;

FIG. 43 is an enlarged view of a portion of FIG. 41;

FIG. 44 is a perspective view of a portion of the structure of the food processor of FIG. 41;

fig. 45 is a cross-sectional view of the structure in fig. 44.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

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

The utility model provides a food processor 1.

Referring to fig. 1 and 2, the present invention provides a food processor 1, wherein the food processor 1 includes a main body 10, a liquid receiving container assembly 20, a stirring cup assembly 30, a water supply device 40, and a slurry discharge valve device 60.

Host computer 10 includes host computer shell 11 and the bottom 12 of closing cap in host computer shell 11 bottom, internally mounted at host computer shell 11 has driver part 13, driver part 13 can be the motor, stirring cup subassembly 30 is including stirring cup 31 and the stirring sword that stretches into in stirring cup 31, the rotation axis of stirring sword is connected with the drive shaft transmission of motor, of course driver part 13 can also be electromagnetic drive structure, electromagnetic drive structure can be including for example installing the driving-disc of main drive magnet, the driving-disc can be driven by the motor, the driving-disc is located host computer 10, electromagnetic drive structure is still including the vice driving-disc of installing, vice driving-disc is connected in the rotation axis of stirring sword. When the motor is used for driving, part of the stirring knife extends into the stirring cup assembly 30, and when the electromagnetic driving is used, the stirring knife is arranged in the stirring cup assembly. The main frame 10 further comprises a main frame 111 covering the outside of the driving part 13, the bottom of the main frame 111 is further connected with a heat dissipation fan 14, an air guiding cover structure is formed on the main frame 111, a heat dissipation channel 15 flowing through the driving part 13 is formed by matching the main frame 111 and the main frame 11, wherein an air inlet and an air outlet communicated with the heat dissipation channel 15 are formed in the bottom cover 12 or the main frame 11, and under the driving of the heat dissipation fan 14, external air flow or hot air in a machine cavity inside the main frame 11 can enter the heat dissipation channel 15 from the air inlet to exchange heat with the driving part 13 so as to absorb heat generated in the operation process of the driving part 13 and is discharged to the outside from the air outlet. A control circuit board 16 is also installed in the main body case 11, and the driving part 13 is electrically connected to the control circuit board 16. The upper portion of the host shell 11 is provided with a control panel 17, the control panel 17 is electrically connected with a control circuit board 16 in the host shell 11, and the control panel 17 is provided with a plurality of function buttons.

The stirring cup assembly 30 extends from the upper part of the main frame 11 and is assembled to the upper end of the main frame 111 in the main frame 11, the stirring cup assembly 30 comprises a stirring cup 31 and a stirring blade 34 installed on the stirring cup 31, the bottom of the stirring cup 31 is provided with a discharge hole 311, the slurry discharge valve device 60 is installed on the stirring cup assembly 30 and opens or closes the discharge hole 311, and specifically, the slurry discharge valve device 60 is installed on the outer wall of the stirring cup 31. The liquid receiving container assembly 20 is located below the slurry discharging valve device 60, when in use, the liquid receiving container assembly 20 receives the stirring cup assembly 30 to receive liquid discharged through the slurry discharging valve device 60, wherein a part of the bottom cover 12 and the main machine shell 11 further extend towards one side to form a placing table 115, the placing table 115 is located below the slurry discharging valve device 60, the placing table 115 is provided with a groove matched with the bottom of the liquid receiving container assembly 20, and therefore the liquid receiving container assembly 20 can be fixedly placed on the placing table 115 in a stable posture to receive the liquid discharged from the slurry discharging valve device 60.

The water supply device 40 includes a water tank 41, a water pump 42, a pipe connecting the water tank 41, the water pump 42 and the nozzle 43, a nozzle 43 and a check valve 44, the water pump 42 is electrically connected to the control circuit board 16, and the check valve 44 is disposed between the water pump 42 and the nozzle 43 to prevent the liquid in the mixing cup 31 from flowing back. The host housing 11 is formed with a mounting platform 116 on the other side of the slurry discharge valve device 60 away from the host housing 11, the water tank 41 is detachably mounted on the mounting platform 116, the water tank 41 is detachably connected to the host housing 11, the water pump 42 is mounted in the host housing 11, and the nozzle 43 is mounted in the mixing cup 31 and extends into the mixing cup 31 to spray water into the mixing cup 31, wherein the nozzle 43 may preferably be mounted on the upper portion of the mixing cup 31.

When the food processor is used, the corresponding function can be started by the control of the control circuit board 16 by operating the function buttons on the control panel 17, wherein the water supply device 40 can add water into the stirring cup 31 of the stirring cup 31 in the food processing process, in addition, the food processor 1 further has an automatic cleaning function, the water supply device 40 can also add water into the stirring cup 31 in the automatic cleaning process, and the slurry discharge valve device 60 can discharge processed food material liquid or residue liquid for cleaning the stirring cup 31.

After the food processor 1 is used for a long time, food materials are remained at the pipeline, the interface and the valve body structure, and bacteria are easy to breed when the food materials are not cleaned in time, so that the food safety is affected. In order to solve the problems, the food processor 1 improves the design of the slurry discharge valve device 60, and the slurry discharge valve device 60 can be detached and cleaned conveniently.

Referring to fig. 1 to 8, in a first embodiment, the slurry discharge valve device 60 includes a valve body 61, the valve body 61 includes a valve body housing, the valve body housing includes a valve seat 62, a valve cover 63, a discharge pipe 67 and a valve core 64, the valve seat 62 is provided with a feed hole 621, the feed hole 621 can be in butt communication with the discharge hole 311, wherein the valve seat 62 is mounted on an outer wall surface of the stirring cup assembly 30, specifically, a screw column is provided on the outer wall surface of the stirring cup assembly 30, and a screw hole is provided on the valve seat 62, and the screw is screwed into the screw column and the screw hole to realize connection and fixation of the valve seat 62 and the heating plate. The valve cover 63 is provided with a slurry discharge hole 631, and the valve cover 63 can be covered with the valve seat 62 and matched with the interior of the valve seat 62 and the valve cover 63 to form a discharge channel communicated with the feed hole 621 and the slurry discharge hole 631 and a mounting hole 632 communicated with the discharge channel. The valve core 64 at least partially extends into the discharge channel through the mounting hole 632, and the valve core 64 can move relative to the valve cover 63 and the valve seat 62 to control the on-off of the discharge channel;

wherein the valve cover 63 and the valve seat 62 are detachably connected, and/or the valve core 64 can be separated from the valve cover 63 and connected with the valve seat 62, or the valve core 64 can be separated from the valve seat 62 and connected with the valve cover 63, or the valve core 64 can be separated from both the valve cover 63 and the valve seat 62.

In the present embodiment, the valve cover 63 and the valve seat 62 are both substantially in a box-shaped structure, and the valve cover 63 and the valve seat 62 are substantially in a box shape after being covered, but in other embodiments, the valve cover 63 and the valve seat 62 may also be in a cylindrical shape or a special shape. The specific shapes of the discharge hole 311, the feed hole 621, and the slurry discharge hole 631 are not limited, and in this embodiment, all of the three are circular holes. The inlet 621 and the discharge 631 are formed on opposite surfaces of the square box formed by the valve cover 63 and the valve seat 62, and the mounting hole 632 is formed on the surface of the square box between the inlet 621 and the discharge 631. Besides the part of the valve core 64 extending into the discharge channel, the exposed part of the valve core 64 can be observed from the mounting hole 632, and the valve core 64 can control the on-off of the discharge channel in a rotating mode or enter the discharge channel in a drawing mode to block or exit the discharge channel so as to conduct the discharge channel. When the valve cover 63 covers the valve seat 62, the valve core 64 is restrained by the valve cover 63 and the valve seat 62 together, and when the valve cover 63 is separated from the valve seat 62, the valve core 64 can be separated from the restraint of the valve cover 63 and the valve seat 62. The discharge pipe 67 may be integrally formed with the valve cover 63, or may be snap-fit or glued, and the discharge pipe 67 may extend downwardly a distance to better direct fluid into the receiving cup assembly 20.

In this embodiment, through the valve gap 63 design for can the separation of the mode of being connected with valve seat 62 for valve gap 63 can separate with valve seat 62, so can after arranging thick liquid valve device 60 and using for a long time, can take off valve gap 63 from valve seat 62 to case 64, valve gap 63, valve seat 62 all can wash and wash, so can avoid food waste to stop, reduce the possibility of breeding the bacterium, improve food health safety nature.

The valve seat 62 and the valve cover 63 are detachably connected, wherein the detachable connection means that the disassembly without any tool or the installation without any tool is performed on the premise that the structure of the slurry discharge valve device 60 is not damaged when the cleaning is required, so that the disassembly and the cleaning are convenient for a user, and the use sanitation of the food processor is kept; but also includes disassembly that can be easily accomplished using common tools without the need for specialized tools or the guidance of specialized personnel. In some possible solutions of the detachable connection of the valve cover 63 and the valve seat 62, one of the valve cover 63 and the valve seat 62 is provided with a magnetic member 66a, and the other of the valve cover 63 and the valve seat 62 is provided with a magnetic member 66b, and the valve cover 63 and the valve seat 62 are connected by the magnetic attraction of the magnetic member 66a and the magnetic member 66 b. Wherein both the magnetic member 66a and the magnetically attractive member 66b can be magnets, or one magnet and the other a soft magnetic material such as an iron material. Magnetic part 66a and magnetism piece 66b of inhaling can be square form or cake form to can be through gluing, inlay or through pre-buried injection moulding to valve gap 63 or valve seat 62 in, the preferred mode of installing magnetic part 66a and magnetism piece 66b at the relative surface of valve seat 62 and valve gap 63 of this application, specifically all seted up the mounting groove on valve gap 63 and the relative surface of valve seat 62, magnetic part 66a and magnetism piece 66b correspond to inlay and locate in the mounting groove. And four corners on the surface that valve base 62 and valve gap 63 are relative all set up the magnetism piece 66a or inhale the piece 66b of installing of inlaying, through such setting, the sound construction when having guaranteed valve gap 63 and valve base 62 to connect on the one hand, on the other hand when needing to wash the dismouting process, as long as take off valve gap 63 through external force effect in valve gap 63, take out case 64.

In some possible solutions for the detachable connection of the valve cover 63 and the valve seat 62, one of the valve cover 63 and the valve seat 62 is provided with a snap and the other is provided with a snap, and the valve cover 63 and the valve seat 62 are mutually matched and clamped through the snap and the snap. The side wall surface of the valve cover 63 can be connected with a buckle, meanwhile, a buckling position is formed on the side wall surface corresponding to the valve seat 62 in a concave mode, and the buckle and the buckling position can be arranged in pairs and are respectively located on two opposite sides of the valve seat 62 and the valve cover 63. Through such setting, when easy dismounting, also can reduce cost. Of course, in other embodiments, the combination of the magnetic element 66a and the magnetic element 66b may be combined with the combination of the buckle and the position.

In the above, the valve seat 62 and the valve cover 63 can be detachably connected, and in other embodiments, the valve seat 62 and the valve cover 63 can also be detachably connected by screws or bolts.

Referring again to fig. 5 to 8, in the present embodiment, the valve core 64 includes a valve body section 642 and a driving section 643, the valve body section 642 is cylindrical and rotatable in the discharge passage, the valve body section 642 is provided with a valve hole 641 for communicating the feeding hole 621 and the slurry discharge hole 631 when in the conducting position, and the driving section 643 extends from the mounting hole 632. The valve core 64 of this embodiment is movable in the discharge passage by rotating the driving section 643 to extend from the mounting hole 632, so that the valve hole 641 opens the fluid passage by rotating the driving section 643 to drive the valve body 642. When the electrically and automatically driven valve element 64 is rotated, the driving structure may be connected to the driving section 643 to drive the valve element 64, and in addition, in the above-mentioned scheme that the valve element 64 is drawn into the discharge channel to block or exit the discharge channel to conduct, the valve body section 642 of the valve element 64 may be configured as a flat door body structure, and the driving section 643 is drawn outward to open the fluid channel, or inserted inward into the fluid channel to close the fluid channel.

The present embodiment preferably automatically controls the rotation of the valve core 64, wherein the slurry discharge valve device 60 further comprises a driving motor 68, and a driving shaft of the driving motor 68 is in transmission connection with the driving section 643. Wherein the driving motor 68 is electrically connected to the control circuit board 16, the driving motor 68 may be mounted on the outer wall of the stirring cup assembly 30, or on the main housing 11 of the main unit 10 or on the main support 111, in this embodiment, the driving motor 68 is preferably mounted on the valve seat 62, and specifically, a motor support may be formed on the side of the valve seat 62, and the driving motor 68 is fixedly connected to the motor support by screws. In order to facilitate the driving connection between the driving motor 68 and the valve element 64, in this embodiment, a slot 645 is formed in the driving section 643, and the driving shaft of the driving motor 68 is inserted into the slot 645, where the slot 645 is an open slot penetrating in the radial direction of the driving section 643, and the valve element 64 can be installed to conveniently adjust the posture to insert the driving shaft of the motor into the slot 645.

Further, a rotating rod 681 linked with the driving shaft is further installed on the driving shaft of the driving motor 68, and a first position sensing member 682 and a second position sensing member 683 which are engaged with each other are respectively installed on the rotating rod 681 and the valve seat 62. The first position sensing member 682 and the second position sensing member 683 may be a combination of a bump and a micro switch, or a combination of a magnet and a reed pipe, and may control the start/stop position of the driving motor 68 during rotation by calibrating the position, so as to precisely control the valve element 64 to stay at the on position and the off position.

Further, the valve body 61 further includes a sealing sleeve 65 sleeved outside the valve body section 642, a via hole adapted to the valve hole 641 is formed in the sealing sleeve 65, and the via hole is communicated with the valve hole 641 when the valve body section 642 is in the conducting position; the sealing sleeve 65 is fixed relative to the valve seat 62 and/or the valve cover 63, and the valve body segment 642 is rotatably connected to the sealing sleeve 65. Specifically, the outer wall of the sealing sleeve 65 is convexly provided with a positioning rib 651, the valve seat 62 and/or the valve cover 63 are provided with a positioning groove 622, and the positioning rib 651 is clamped in the positioning groove 622. Seal cover 65 can be food level silica gel material, can realize the sealed of valve body 61 through the setting of seal cover 65, avoids the fluid to reveal. During cleaning, the sealing sleeve 65 can be removed along with the valve core 64.

The valve body section 642 is provided with a limiting part 644 in a protruding manner at one end close to the mounting hole 632, the limiting ring is stopped by the inner wall of the discharge channel in the direction that the valve body section 642 is separated from the mounting hole 632, the limiting part 644 can be in an annular structure or a bump structure, and through the design of the limiting part 644, the valve core 64 can rotate without shaking in the axial direction.

In summary, in the first embodiment of the slurry outlet valve device 60, the valve seat 62 and the valve cover 63 in the valve body housing are designed to be detachably connected, so that the valve core 64 can be taken out for cleaning, and electronic components such as the driving motor 68 are not affected during the detachment process, and the cleaning is convenient during the whole process.

Referring to fig. 9 to 14, in a second embodiment of the slurry discharge valve device 70, the slurry discharge valve device 70 includes a valve body 71, the valve body 71 includes a valve body housing, the valve body housing includes a valve seat 72, a valve core 73 and a discharge pipe 76, the valve seat 72 is provided with a feed hole 721 and a slurry discharge hole 722, a discharge channel communicating the feed hole 721 and the slurry discharge hole 722 is formed in the valve seat 72, the valve seat 72 is further provided with a mounting hole 723, the mounting hole 723 is communicated with the discharge channel, the valve core 73 at least partially extends into the discharge channel through the mounting hole 723 and is movable relative to the valve seat 72 to control the on-off of the discharge channel, the discharge pipe 76 may be integrally formed with the valve seat 72, or a separate structure is connected to the valve seat 72 in a snap-fit manner or an adhesive manner, and the discharge pipe 76 extends downward for a distance, so as to better guide fluid into the receiving cup assembly 20; the valve body 73 is removable from the valve seat 72 through the mounting hole 723.

The valve seat 72 is a hollow integral structure, however, the valve seat 72 may be formed by two shells being fastened together. The valve seat 72 is connected to the outer wall surface of the mixing cup 31, specifically, a screw post is arranged on the outer wall surface of the mixing cup 31, a screw hole is arranged on the valve seat 72, and the valve seat 72 is connected and fixed with the mixing cup 31 by screwing a screw into the screw post and the screw hole. The valve seat 72 may be of square box-like configuration or cylindrical, or other contoured shape. The specific shapes of the discharge hole 311, the feed hole 721 and the slurry discharge hole 722 are not limited, and in this embodiment, all of them are circular holes. The feed holes 721 and the slurry discharge holes 722 are located on two opposite surfaces of the cube, and the mounting holes 723 are located on the surface of the cube between the feed holes 721 and the slurry discharge holes 722. The valve core 73 can control the on-off of the discharge channel in a rotating manner, or can be drawn into the discharge channel to block or withdraw from the discharge channel to conduct.

In this embodiment, the valve core 73 is designed to be drawn out through the mounting hole 723, so that the valve core 73 can be directly drawn out for cleaning when the cleaning is needed, and certainly, the interior of the valve seat 72 can be conveniently washed under the condition that the valve core 73 is drawn out, so that the food material residue in the slurry discharge valve device 70 can be reduced, and the food sanitation and safety can be improved. It should be noted that, here, after the valve core 73 is drawn out of the mounting hole 723, cleaning can be conveniently performed, and at this time, the valve core 73 has two existing forms, one is in a separated state from the valve seat 72, and the other is: after the valve core 73 is drawn out of the mounting hole 723, the valve core 73 can be hung on the valve seat 72, and as long as the valve core 73 can be drawn out, the valve core 73 can be cleaned independently.

In this embodiment, the valve core 73 includes a valve body 732 and a handle 733, the valve body 732 is cylindrical and rotatable in the discharge passage, the valve body 732 is opened with a valve hole 731 communicating the inlet 721 and the discharge 722 at the conducting position, and the handle 733 is extended from the mounting hole 723. By extending the handle section 733 out of the mounting hole 723. In addition, in the above-mentioned solution in which the valve core 73 is drawn into the discharge channel to block or withdraw from the discharge channel to conduct the same, the valve body section 732 of the valve core 73 may be configured as a flat door structure, and the fluid channel may be opened by driving the driving section 734 to be drawn outwards, or closed by being inserted inwards into the fluid channel.

Further, in order to facilitate the extraction of the valve core 73, a pull ring 75 is connected to the handle section 733, wherein the mounting hole 723 in this embodiment may be located on the lower surface of the valve seat 72, so that when the valve core 73 is extracted, the pull ring 75 may be pulled directly downward from the lower opening of the lower mounting cavity.

In order to improve the sealing performance, the valve body 71 further includes a sealing sleeve 74 sleeved on the valve body section 732, a through hole adapted to the valve hole 731 is formed in the sealing sleeve 74, the sealing sleeve 74 is in interference fit with the valve seat 72, and the sealing sleeve 74 and the valve body section 732 are linked and can be pulled away from the valve seat 72 together with the valve core 73 through the mounting hole 723.

Furthermore, the outer wall of the sealing sleeve 74 is also convexly provided with a water-stopping barb 741, and the water-stopping barb 741 abuts against the inner wall of the mounting hole 723. In this embodiment, the sealing sleeve 74 is provided with at least one water-stopping barb 741 at one end close to the handle section 733 and at one end far from the handle section 733. The water-stopping barbs 741 surround the sealing sleeve 74 for a circle, and through the arrangement of the water-stopping barbs 741, on one hand, the parts of the fluid channel where the mounting holes 723 are located can be sealed, and on the other hand, when the valve core 73 is drawn out, the water-stopping barbs 741 can scrape the inner walls of the mounting holes 723 to take out food residues. In other embodiments, the valve core 73 may be made of an elastic material, such as silicon rubber, etc., and the water-stopping barb 741 is integrally formed on the valve core 73.

In this embodiment, preferably, the rotation of the valve core 73 is automatically controlled, the slurry discharge valve device 70 further includes a driving motor 77 connected to the valve seat 72, a driving section 734 is connected to one end of the valve body section 732 away from the handle section 733, and a driving shaft of the driving motor 77 is in transmission connection with the driving section 734. The driving section 734 is provided with a slot 735, and the driving shaft of the driving motor 77 is inserted into the slot 735, wherein the slot 735 is an open slot penetrating in the radial direction of the driving section 734, and the valve core 73 can be installed to conveniently adjust the posture to insert the driving shaft of the driving motor 77 into the slot 735.

Further, a sensor 78 for detecting the rotation angle of the valve body 73 is attached to the valve seat 72.

Referring to fig. 15 to 19, in a third embodiment, the slurry discharge valve device 80 includes a valve body 81, the valve body 81 includes a valve body housing and a valve core 84, the valve body housing is provided with a feeding hole 821 and a slurry discharge hole 831, the valve body housing is formed with a discharge channel communicated with the feeding hole 821 and the slurry discharge hole 831 and a mounting hole 822 communicated with the discharge channel, and the valve core 84 extends into the fluid channel through the mounting hole 822 and is movable relative to the valve body housing to control the on-off of the discharge channel. In this embodiment, the valve body 81 is detachable from the blender cup assembly 30 in a downward or upward direction. The upward or downward direction herein includes not only the upward or downward direction perpendicular to the horizontal direction but also an oblique downward or oblique upward direction, for example, an oblique downward or oblique upward direction having an angle of 45 degrees or less with respect to the vertical direction. This embodiment technical scheme constructs through the valve body 81 in row thick liquid valve device 80 and can upwards or dismantle the separation downwards with stirring cup subassembly 30, so when needs wash row thick liquid valve device 80, can directly dismantle valve body 81 get off, wash valve body 81, so wash convenient while, also can improve food security through wasing.

Further, in this embodiment, the slurry discharging valve device 80 further includes a first bracket 87, and the valve body 81 is detachably connected to the first bracket 87, where the detachable means that when the slurry discharging valve device 80 needs to be cleaned, the detachable means does not need any tool to detach or install on the premise that the structure of the slurry discharging valve device 80 is not damaged, thereby facilitating the detachment and cleaning of a user and maintaining the use sanitation of the food processor; but also includes disassembly that can be easily accomplished using common tools without the need for specialized tools or the guidance of specialized personnel. The first bracket 87 may be mounted on an outer wall surface of the mixing cup 31, specifically, a screw post may be disposed on an outer wall surface of the mixing cup 31 near the discharge hole 311, and a screw hole may be disposed on the first bracket 87, and the first bracket 87 and the mixing cup 31 may be connected and fixed by screwing a screw into the screw post and the screw hole. In other embodiments, the first bracket 87 may also be mounted on the main housing 11 of the main body 10 or other parts of the stirring cup assembly 30, and the fixing manner of the first bracket 87 is not limited to the screw connection manner, but may also be a snap connection manner, a welding manner, an adhesive manner, or the like.

In this embodiment, the first bracket 87 can be made of sheet metal through a stamping process, or can be made of plastic through an integral injection molding process. The valve body housing may be a hollow unitary structure, although the valve seat 82 may also be formed by two pieces of housing that are snap-fit together. The valve body shell can be of a square box-shaped structure or cylindrical or other special-shaped shapes. The specific shapes of the discharge hole 311, the feed hole 821 and the pulp discharge hole 831 are not limited, and may be circular holes or square holes, and in this embodiment, the three are all circular holes. The valve body housing of the present application is generally in the shape of a square box, with the inlet 821 and the discharge 831 located on opposite surfaces of the square box, and the mounting 822 located on the surface of the square box between the inlet 821 and the discharge 831. The spool 84 may be rotated to open and close the discharge passage or drawn into the discharge passage to block or exit the discharge passage to allow communication. In the driving method of the valve element 84, the valve element 84 may be driven by a non-contact external force, for example, the valve element 84 may be driven by a magnetic force, or the valve element 84 may be driven by a direct contact action.

This embodiment is through being provided with first support 87 at row thick liquid valve device 80, and construct valve body 81 and can dismantle with first support 87 and be connected, so when needs wash row thick liquid valve device 80, can directly take off valve body 81 by first support 87, directly wash valve body 81, so wash convenient while, also can improve food security through wasing.

In a possible scheme of the detachable connection of the valve body 81 and the first support 87, one of the first support 87 and the valve body housing is provided with a magnetic member 88a, the other of the first support 87 and the valve body housing is provided with a magnetic member 88b, and the first support 87 and the valve body housing are connected by the magnetic attraction of the magnetic member 88a and the magnetic member 88 b. Wherein both the magnetic member 88a and the magnetically attractive member 88b can be magnets, or one magnet and the other a soft magnetic material such as an iron material. The magnetic member 88a and the magnetic member 88b may be in a square block shape or a circular cake shape, and may be adhered, embedded, or pre-cast into the first bracket 87 or the valve body housing. So through the mode that magnetic adsorption connects, mounting structure is comparatively firm on the one hand, and on the other hand dismouting is also comparatively convenient. It will be appreciated that in other embodiments, the removable attachment of the valve body housing to the first bracket 87 may be a snap-fit attachment, or a screw attachment, for example.

Specifically, in some embodiments, the first bracket 87 includes a top plate 871 corresponding to the top wall of the valve body housing, and a side plate 872 adjacent to the top plate 871 and corresponding to the side wall of the valve body housing, i.e., the top plate 871 extends in a substantially horizontal direction, and the side plate 872 extends in a substantially vertical direction; magnetic pieces 88a and magnetic pieces 88b arranged in pairs are arranged between the top plate 871 and the top wall and between the side plates 872 and the side walls. With the above, the installation cavity with the downward opening is formed in the host shell 11, or the first support 87 further includes other plate bodies except the top plate 871 and the side plate 872, and the installation cavity with the downward opening is integrally enclosed, by such a structural arrangement, when the valve body 81 needs to be removed, the valve body 81 can be completely removed by operating from the opening of the installation cavity, and during installation, the two adjacent top plates 871 and side plates 872 can well position the valve body 81, and the valve body 81 can be removed downwards, so that the disassembly and assembly process is convenient. It is understood that in other embodiments, when the mounting position of the top plate 871 is set at the bottom of the side plate 872, the first bracket 87 or the main body case 11 is fitted with a mounting cavity opened upward, and the valve body 81 as a whole can be removed upward, or when the opening of the mounting cavity is slightly inclined upward or downward, the valve body can be removed upward or downward in an inclined direction.

Further, the valve body shell comprises a valve seat 82 and a valve cover 83 which is covered with the valve seat 82, the valve seat 82 is provided with a feeding hole 821, and the valve cover 83 is provided with a grout discharging hole 831; the valve cover 83 and the valve seat 82 are detachably connected, and when the valve cover 83 is separated from the valve seat 82, the valve core 84 can be separated from the valve body shell. Wherein, the magnetic part 88a or the magnetic part 88b in the above can be installed on the valve cover 83 and the valve seat 82, so, in this embodiment, besides the whole valve body 81 can be disassembled for cleaning, the valve body housing is designed to be the form that the valve seat 82 and the valve cover 83 can be opened, when the valve cover 83 covers the valve seat 82, the valve core 84 is restrained by the valve cover 83 and the valve seat 82 together, and when the valve cover 83 is separated from the valve seat 82, the valve core 84 can be separated from the restraint of the valve cover 83 and the valve seat 82, the valve core 84 can be taken out, and then the inside of the valve body housing and the valve core 84 can be cleaned, so that the cleaning convenience and the cleaning effect are better.

Further, a discharge pipe 85 is further installed on the valve cover 83, and the discharge pipe 85 is communicated with the slurry discharge hole 831. The material discharge pipe 85 can be arranged with the valve cover 83 in an integrated structure, or in a clamping mode, or in an adhesive structure, and the material discharge pipe 85 extends downwards for a certain distance, so that fluid can be better guided into the bearing cup assembly. Further, the first support 87 is further connected with a surrounding plate 873 having an arc structure, the surrounding plate 873 is connected with the top plate 871 and encloses a cover structure opened downward, wherein the upper portion of the discharge pipe 85 is surrounded by the surrounding plate 873 to provide good protection.

The valve core 84 of this embodiment includes a valve body 842 and a handle section 844 connected to an end of the valve body 842, wherein a driving section 843 is connected to an end of the valve body 842, the valve body 842 is rotatable in the discharge passage, the valve body 842 is provided with a valve hole 841 communicating the inlet 821 with the discharge 831 when in the conducting position, and the handle section 844 is extended from the mounting hole 822. When the valve element 84 is electrically and automatically driven to rotate, a driving structure may be connected to the driving section 843 to drive the valve element 84, and in the scheme that the valve element 84 is drawn into the discharge channel to block or withdraw from the discharge channel to conduct the discharge channel, the valve body section 842 of the valve element 84 may be a flat door structure, and the driving section 843 is driven to be pulled out outwards to open the fluid channel, or to be inserted inwards into the fluid channel to close the fluid channel. The handle segment 844 extends out of the mounting hole 822, so that the handle segment 844 can be held to operate in the process of disassembling and assembling the valve core 84, and force application is convenient.

In the embodiment, the rotation of the valve core 84 is preferably automatically controlled, and the slurry discharge valve device 80 further includes a driving motor 86 connected to the first bracket 87, and a driving shaft of the driving motor 86 is in transmission connection with the driving section 843. The driving section 843 is provided with a slot 845, the slot 845 is matched with a driving shaft of the driving motor 86, and the driving shaft is inserted into the slot 845. Wherein this example driving motor 86 can be installed and fixed on roof 871 of first support 87, drive section 843 is above, handle section 844 is below, slot 845 is the radial through slot at drive section 843, then during the counterpoint installation, from lower to upper butt joint through the setting that has handle section 844 and drive section 843 simultaneously at case 84, in the electric drive process, can be more conveniently adjusted the gesture and go into the drive shaft card of motor in case 84 slot 845, and when wasing, it is also more convenient to take out the operation of case 84 through operation handle section 844.

In order to prevent the valve core 84 from falling out of the valve body casing, in this embodiment, the valve body 842 is in a sphere shape, and a sealing sleeve 824 is respectively sleeved on one side of the valve body 842 facing the feeding hole 821 and one side of the valve body 842 facing the discharging hole 831, further, in this embodiment, a sealing ring 823 surrounding the feeding hole 821 is embedded on the valve seat 82 of the valve body casing, or a sealing ring surrounding the discharging hole 311 is embedded on the outer wall surface of the stirring cup assembly 30, and after the slurry discharging valve device is installed, the sealing ring 823 is pressed by the stirring cup 31 and the slurry discharging valve device 80 to ensure the sealing of the feeding hole 821 and the discharging hole 311.

Similarly, in order to accurately control the rotation angle of the valve element 84 when the valve element 84 opens and closes the fluid passage by the driving motor 86, a sensor 89 for checking the rotation angle of the driving shaft of the driving motor 86 is mounted on the first bracket 87.

Referring to fig. 20 to 33, in the fourth embodiment, the slurry discharge valve device 90 is installed on the side portion of the outer wall of the stirring cup assembly 30, the slurry discharge valve device 90 includes a valve body 91, the valve body 91 includes a valve body housing, the valve body housing includes a feeding hole 921, a slurry discharge hole 931, a discharge channel communicating the feeding hole 921 and the slurry discharge hole 931, and a valve core 94 for controlling the on/off of the discharge channel, the feeding hole 921 can be close to and in butt communication with the discharge hole 311. To facilitate cleaning, the present embodiment contemplates that the valve body 91 can be withdrawn laterally relative to the blender cup assembly 30. Wherein, the side direction not only includes the side direction perpendicular to the axial direction of the stirring cup assembly 30, but also includes the side direction which is inclined angle with the axial direction of the stirring cup assembly 30, and includes the side direction which is inclined angle with the axial direction of the stirring cup assembly 30 and is upward or downward and is far away from the stirring cup assembly 30 to be extracted. The utility model discloses technical scheme can be for stirring cup subassembly 30 from the side direction to take out for valve body 91 through the design of arranging thick liquid valve device 90 for valve body 91 for stirring cup subassembly 30 for arrange thick liquid valve device 90's structure can conveniently follow and dismantle from stirring cup subassembly 30, so can conveniently wash valve body 91, get rid of remaining edible material residue, reduce the production of bacterium, improved food hygiene safety nature.

In some embodiments of the present invention, the slurry discharge valve assembly 90 further comprises a bracket assembly 96, the bracket assembly 96 comprising a first bracket 97 and a second bracket 98, the first bracket 97 adapted to be mounted to the mixing cup assembly 20 at the discharge hole 311; the valve body 91 is connected to the second bracket 98. in some embodiments, the valve body 91 and the second bracket 98 may be provided separately, for example, the valve body 91 and the second bracket 98 may be detachably connected to enable separation. The detachable structure means that the detachable structure does not damage the structure of the slurry discharge valve device 90 when the food processor needs to be cleaned, and the detachable structure does not need to be detached by any tool or installed by any tool, so that the food processor is convenient to detach and clean for users, and the use sanitation of the food processor is kept; but also includes disassembly that can be easily accomplished using common tools without the need for specialized tools or the guidance of specialized personnel. The second support 98 is movable along the first support 97 to allow the feed holes 921 and the discharge holes 311 to be close to each other and in butt communication; or the second bracket 98 can move along the first bracket 97 and drive the valve body 91 to move out of the first bracket 97 together, and in the process, the valve body 91 can be laterally pulled out relative to the stirring cup assembly 20, the movable connection between the first bracket 97 and the second bracket 98 adopts a sliding mode, and of course, the first bracket 97 and the second bracket 98 can also adopt other moving modes to move out of the valve body 91. For example, a relative oscillation mode or a relative ejection mode can be adopted.

First support 97 and second support 98 are the sliding connection relation, first support 97 is as bearing the structure that supports slip second support 98, therefore first support 97 can be the form of two or many side by side guide rails, or be the frame construction form, or other can provide second support 98 and carry out the structure that slides the direction, and second support 98 is the instrument that carries fixed valve body 91, this application second support 98 is for having the frame construction of upwards opening, it has the polylith bounding wall to enclose and closes the upwards or side opening draw-in groove that forms and can fix and place valve body 91, consequently can be when second support 98 roll-off first support 97, take out valve body 91 in second support 98 and wash valve body 91. When the first bracket 97 is in the form of a plurality of parallel guide rails, the second bracket 98 should have a slide rail that is engaged with the guide rails, and when the first bracket 97 is in the form of a frame, both sides of the second bracket 98 in the advancing direction may be supported by the first bracket 97. The first bracket 97 may be mounted on an outer wall surface of the stirring cup 31, specifically, a screw post may be disposed on an outer wall surface of the stirring cup 31 near the discharge hole 311, and a screw hole is disposed on the first bracket 97, so that the first bracket 97 and the heating plate are connected and fixed by screwing a screw into the screw post and the screw hole. Of course, the way of fixedly connecting the first bracket 97 to the mixing cup 31 is not limited to the screw connection way, but may be a pluggable clamping way, or a welding way, and in addition, the first bracket 97 may also be installed on the main frame housing 11 of the main frame 10 or other parts of the mixing cup assembly 20, such as the main frame 11 described above.

The specific shape of the discharge hole 311, the feed hole 921 and the discharge hole 931 of this application is not limited, and can be round holes or square holes, and in this embodiment, the three are round holes. The valve core 94 can be driven by non-contact external force to move the valve core 94, such as by magnetically driving the valve core 94 to rotate or linearly move to open or close the discharge passage, or by contact external force to drive the valve core 94 to move, such as by driving the valve core 94 to rotate or linearly move by a motor or an air cylinder.

This application technical scheme is through setting up first support 97 and the second support 98 that can slide each other at row thick liquid valve device 90, can drive valve body 91 along the gliding mode of first support 97 and be close to and dock relief hole 311, perhaps second support 98 slides and drives valve body 91 roll-off in the lump after leaving first support 97, and valve body 91 can be taken out in by second support 98, so can conveniently wash valve body 91, get rid of remaining edible material residue, reduce the production of bacterium, the food hygiene security has been improved.

Further, the first bracket 97 is formed with a sliding groove 971, the second bracket 98 is slidably inserted into the sliding groove 971, and during use, the second bracket 98 can be pulled out in a nearly horizontal manner along the direction indicated by the arrow in fig. 21 to 24, and the valve body 91 can be taken out upward to be separated from the second bracket 98, so as to facilitate cleaning of the valve body 91. The first support 97 of this embodiment is preferably a frame structure, and is enclosed by four consecutive baffles and constitutes spout 971, and the cross-sectional area of spout 971 is roughly square, and the shape and size of spout 971 and the overall dimension looks adaptation of second support 98, so set up, make in the sliding process of second support 98, first support 97 can form good spacing and support to the whole body of second support 98, so, the difficult swing that appears in the sliding process of second support 98, then the feed port 921 on the valve body 91 docks more accurately with the relief hole 311 on the stirring cup subassembly 30.

In order to realize higher sealing performance when the valve body 91 is butted with the discharge hole 311, in some embodiments of the present application, a locking structure is further installed between the first support 97 and the second support 98, and when the second support 98 drives the valve body 91 to be close to the discharge hole 311 and enables the feed hole 921 to be butted and communicated with the discharge hole 311, the first support 97 and the second support 98 are relatively fixed together through the locking structure.

Specifically, referring to fig. 20 to 29, in some possible embodiments of the locking structure, the locking structure includes an elastic buckle 972 disposed on one of the first support 97 and the second support 98, and a buckle 983 disposed on the other of the first support 97 and the second support 98, and when the second support 98 drives the valve body 91 to be close to the discharge hole 311 and the feed hole 921 is in butt communication with the discharge hole 311, the buckle 983 is snapped into the elastic buckle 972.

With the locking structure being the mating of the snap 983 and the resilient snap 972, the present application provides a number of designs for the slurry discharge valve assembly 90 through structural changes to the bracket assembly 96.

Specifically, referring to fig. 20 to 25, fig. 20 to 25 are schematic views of a first deformation structure of the slurry discharge valve device 90 according to the present application in a case that a locking structure of a buckle 983 and an elastic buckle 972 is adopted; in this embodiment, the second bracket 98 includes a bracket body 981 and a pressure plate 982 movably connected to the bracket body 981, the pressure plate 982 is connected to one of the elastic buckle 972 and the button head 983, an elastic member 984 is disposed between the bracket body 981 and the pressure plate 982, and when the button head 983 is clamped in the elastic buckle 972, the elastic member 984 provides an elastic force to drive the valve body 91 to approach the discharge hole 311. In this embodiment, the movable connection between the pressure plate 982 and the bracket body 981 may be a sliding rail and a sliding track structure formed at the end of the bracket body 981 and at one side of the pressure plate 982, the sliding rail and the sliding track structure being nested and slidably connected with each other, and a matching structure such as a rib and a bump is provided at the end of the sliding rail and the sliding track structure to prevent the pressure plate 982 from being separated from the bracket body 981, or the pressure plate 982 and the bracket body 981 may also be connected by a pivot at one side and a snap connection at the other side, and the elastic member 984 may be a spring or a resilient piece. The button head 983 and the elastic button 972 are arranged in pairs and located on two opposite outer wall surfaces of the first bracket 97. In the use, make the whole spout 971 along first support 97 of second support 98 slide through promoting clamp plate 982, after feed port 921 and relief hole 311 dock, further application of force makes elasticity buckle 972 and discount 983 combine, this moment because the elastic component 984 between clamp plate 982 and the support main part 981 can be compressed, and then elastic component 984 provides elastic force and orders about second support 98 to the trend that relief hole 311 is close to, so can further press to cover valve body 91 and paste tightly in stirring cup subassembly 20, so feed port 921 and the difficult pine of the laminating connection structure of relief hole 311 take off and produce the leakage.

Fig. 26 and 27 are schematic views of a second variant of the slurry discharge valve device 90 according to the present application, in which the locking structure is a button head 983 and an elastic buckle 972, in this embodiment, the first bracket 97 is a frame structure and is formed with a sliding groove 971 for accommodating the whole second bracket 98, specifically, the first bracket 97 includes a barrel 974 with openings at two ends and a gland 975 movably connected with the barrel 974, one of the barrel 974 and the gland 975 is provided with the elastic buckle 972, and the other of the barrel 974 and the gland 975 is provided with the button head 983, wherein the movable connection of the barrel 974 and the gland 975 may be a rotational connection of one side of the gland 975 by a pivot, or a connection of the two by a flexible material, or a hinge connection, the other side of the gland 975 is provided with the button head 983, and the outer wall surface of the barrel 974 is correspondingly provided with the elastic buckle 972. When the second bracket 98 drives the valve body 91 to slide into the sliding slot 971, the pressing cover 975 covers the cylinder 974, and the fastening head 983 is fastened into the elastic fastener 972, so as to lock the second bracket 98 in the sliding slot 971. In this manner, the second bracket 98 and the valve body 91 are stably limited inside the first bracket 97, and the second bracket 98 can be further prevented from being loosened, so that leakage is not easily caused. Further, the surface of the gland 975 facing the chute 971 is also mounted with a resilient press member 977. In use, after the gland 975 is closed, the elastic pressing member 977 presses against the second support 98 in the sliding groove 971, so that the valve body 91 tends to move toward the discharge hole 311, the feed hole 921 and the discharge hole 311 are more closely attached, when cleaning is required, the gland 975 is opened in the direction indicated by the arrows in fig. 26 and 27, the second support 98 and the valve body 91 can be integrally drawn out, and the valve body 91 is taken off from the second support 98 for cleaning.

Fig. 28 to 33 show other possible solutions of the locking structure of the present application, in which the locking structure includes a magnetic member 984 disposed on one of the first support 97 and the second support 98, and a magnetic member mounted on the other of the first support and the second support, the second support 98 drives the valve body 91 to be close to the discharge hole 311, and when the feed hole 921 is in butt-joint communication with the discharge hole 311, the magnetic member 984 and the magnetic member are magnetically attracted. Under the scheme that the locking structure is magnetic adsorption, the second support 98 comprises a support main body 981 and a pressing plate 982 connected with the support main body 981, the valve body 91 is embedded in the support main body 981, and the pressing plate 982 is provided with one of a magnetic part 984 and a magnetic part. In this embodiment, the pressing plate 982 is fixed at the end of the holder body 981, the holder body 981 slides into the sliding groove 971 in the first holder 97, and after the feeding hole 921 and the discharging hole 311 are butted, the pressing plate 982 abuts against the end surface of the first holder 97, and the magnetic member 984 and the magnetic member are arranged on the opposite wall surfaces of the first holder 97 and the pressing plate 982 in pairs, wherein both the magnetic member 984 and the magnetic member can be magnets, or one of the magnets and the other magnet can be a soft magnetic material such as an iron material. The magnetic member and the magnetic member may be in a square block shape or a round cake shape, and may be adhered, embedded or pre-cast into the first bracket 97 or the pressure plate 982. This embodiment sets up through above-mentioned magnetism connection structure, can be after feed port 921 and relief hole 311 butt joint intercommunication, and the junction through preventing feed port 921 and relief hole 311 appears leaking to when dismantling the washing, the separation operation is also comparatively convenient.

Referring to fig. 25, in some embodiments, the valve body 91 includes a valve seat 92 and a valve cover 93 covering the valve seat 92, the valve seat 92 defines the feeding hole 921, the valve cover 93 defines the slurry discharging hole 931, and the valve seat 92 and the valve cover 93 cover to form a discharging channel;

the valve cover 93 and the valve seat 92 are detachably connected, and/or the valve core 94 can be separated from the valve cover 93 or the valve seat 92 or can be separated from the valve cover 93 and the valve seat 92 simultaneously, wherein the detachable mode means that the valve body 91 is detached without any tool or installed without any tool on the premise that the structure of the valve body is not damaged when the valve body needs to be cleaned, so that the user can detach and clean the valve body conveniently, and the use sanitation of the food processor is kept; but also includes disassembly that can be easily accomplished using common tools without the need for specialized tools or the guidance of specialized personnel. When the cleaning operation is needed, the valve cover 93 can be separated from the valve seat 92, at this time, the valve core 94 can be connected to the valve cover 93 and separated from the valve seat 92, or the valve core 94 is connected to the valve seat 92 and separated from the valve cover 93, or the valve core 94 is separated from the valve cover 93 or the valve seat 92 at the same time, the cleaning can be facilitated, in addition, the valve cover 93 and the valve seat 92 can not be separated, only the valve core 92 is pulled out of the discharge channel, and the cleaning can be achieved. In the present embodiment, the valve cover 93 and the valve seat 92 are detachably provided to further improve the convenience of cleaning, on the basis that the second bracket 98 and the first bracket 97 are slidably connected to form the valve body 91 so that the whole can be taken out and detached for cleaning. In the present application, the valve cover 93 and the valve seat 92 are both substantially in a box-shaped structure, and the valve cover 93 and the valve seat 92 are substantially in a box shape after being covered, but in other embodiments, the valve cover 93 and the valve seat 92 may also be in a cylindrical shape or a special shape. The feeding hole 921 and the discharging hole 931 are located on two opposite surfaces of the square box formed by the valve cover 93 and the valve seat 92, wherein the valve core 94 is restrained by the valve cover 93 and the valve seat 92 together when the valve cover 93 is covered on the valve seat 92, and the valve core 94 can be separated from the restraint of the valve cover 93 and/or the valve seat 92 when the valve cover 93 is separated from the valve seat 92. Through the valve gap 93 design for the mode of being connected for dismantling with disk seat 92 for valve gap 93 can separate with disk seat 92, so can wash valve gap 93 and disk seat 92's inside in the use, and take out in valve core 94 can be by valve gap 93 and disk seat 92, and valve core 94 also can be dismantled and get off and wash, so can avoid food waste to stop, reduce the possibility of breeding the bacterium, improve the healthy security of food.

Further, the valve cover 93 and the valve seat 92 may be formed as different parts from the second support 98, such as the structure shown in fig. 20 to 25, and in other embodiments, the valve cover 93 and the valve seat 92 and the second support 98 may be formed as a single structure, and the second support 98 may be formed in two parts covering each other, which form the valve cover 93 and the valve seat 92, respectively, that is, the valve cover 93 and the valve seat 92 are configured to be matched with the first support 97, such as the structure of the other embodiment of the slurry outlet valve device 90 shown in fig. 32 and 33, wherein the support body 981 mentioned above is formed as the valve seat 92 and the valve cover 93. Further, no matter the valve body shell of the valve body 91 and the second support 98 are arranged in an integrated structure or in a split manner, in order to improve the sealing performance, a sealing ring surrounding the feeding hole 921 can be embedded and arranged on the surface of the valve seat 92 facing the food processor, and when the feeding hole 921 and the discharging hole 311 are in butt joint communication after the valve body 91 is arranged in place, the sealing ring 924 is positioned between the stirring cup 31 and the valve seat 92 in the stirring cup assembly 30.

The embodiment preferably adopts a contact type electrically driven valve core 94 to rotate, wherein when the valve cover 93 is covered with the valve seat 92, the valve seat 92 and the valve cover 93 are also matched to form a mounting hole 922 communicated with the discharge channel, and the mounting hole 922 is positioned on the surface of the square box between the feed hole 921 and the slurry discharge hole 931; the slurry discharge valve device 90 further includes a driving motor 99 connected to the first bracket 97, the valve body 94 includes a valve body 942 and a driving section 943 connected to an end of the valve body 942, the valve body 942 is rotatable in the discharge passage, the valve body 942 has a valve hole 941 formed therein to communicate the feed hole 921 with the slurry discharge hole 931 when in the open position, and a driving shaft of the driving motor 99 is drivingly connected to the driving section 943. The driving motor 99 is electrically connected with the control circuit board 16, and the automatic control of the valve core 94 is realized through the arrangement of the driving motor 99, so that the automatic processing and automatic cleaning process of the food processor can be realized in a matching manner, and the use process is more convenient.

In order to facilitate the driving connection between the driving motor 99 and the valve core 94, the driving section 943 is provided with a slot 945 in the embodiment, the driving shaft of the driving motor 99 is inserted into the slot 945, wherein the slot 945 is an open slot penetrating through the driving section 943 in the radial direction, and the valve core 94 can be conveniently adjusted in posture to insert the driving shaft of the motor into the slot 945 during installation. In addition, through the design of the slot 945, when the valve body 91 is integrally taken out, the motor of the electrical appliance element is not affected, and the valve is more convenient to disassemble and assemble.

In order to accurately control the rotation angle of the valve element 94 when the discharge passage is closed or opened, a sensor 991 for detecting the rotation angle of the driving shaft is further mounted on the first support 97.

In this embodiment, the mounting hole 922 is formed in the surface of the square box formed by the valve seat 92 and the valve cover 93 in the vertical direction, the driving section 943 extends from the upper surface, the driving motor 99 is also mounted on the upper portion of the first bracket 97, the valve body section 942 is formed in a spherical or cylindrical shape to improve the sealing performance, and a sealing sleeve 923 is provided between the valve body section 942 and the valve seat 92 and between the valve body section 942 and the valve cover 93.

Further, the valve core 94 further comprises a handle section 944 connected with the lower end of the valve body section 942, the handle section 944 extends from the lower end opening of the mounting hole 922, and the handle section 944 is arranged, so that on one hand, in the installation process of the valve core 94, the opening orientation of the slot 945 on the driving section 943 can be adjusted by driving the handle section 944, so that in the approaching process of the valve body 91, the driving shaft can be clamped into the slot 945, and the butt joint installation is facilitated.

In the structure of fig. 20 to 25, in order to facilitate the introduction of the fluid into the receiving cup assembly 20, when the valve cover 93 and the second support 98 are in a separate structure, the valve cover 93 is further provided with the discharge pipe 95, and the discharge pipe 95 communicates with the slurry discharge hole 931. The valve cover discharge pipe 95 can be integrally formed with the valve cover 93, or can be clamped or can be arranged in an adhesive structure, and the discharge pipe 95 extends downwards for a certain distance, so that fluid can be better guided into the receiving cup assembly 20. Further, in all of the above embodiments, to facilitate the drawing of the valve body 91, the bottom of the first bracket 97 may be formed with a relief opening 973 for the discharge pipe 95 to pass through.

Further, referring to fig. 28 to 33 again, the present application further improves the sealing structure based on the above-mentioned magnetic attraction connection scheme of the first bracket 97 and the second bracket 98, so as to obtain various slurry outlet valve device 90 variants with simplified structural design.

Fig. 28 and 29 show a modified version of the slurry outlet valve device 90 with a simplified structural design, modified in the sealing structure, in which the sealing sleeve 95 modifies the sealing sleeve 923 shown in fig. 25 to include a first tube 951 and a second tube 952 connected, the first tube 951 being located in the discharge channel and enclosing the valve body section 942, and the second tube 952 extending from the slurry outlet holes 921 and forming the discharge tube.

In fig. 30 to 33, based on the above-mentioned magnetic adsorption connection scheme of the first support 97 and the second support 98, and based on another modified structure scheme of the slurry discharge valve device 90 with simplified structural design of the sealing structure, according to the present application, the sealing sleeve 95 includes a first pipe 951, a second pipe 952, and a third pipe 953, the first pipe 951 is located in the discharge passage and encloses the valve body section 942, the second pipe 952 extends from the slurry discharge hole 931 and forms a discharge pipe, and the third pipe 953 can be in sealing contact with the periphery of the discharge hole 311.

Also above-mentioned arrange thick liquid valve device 90 that improves and have simplified structural design on seal structure warp structural scheme, seal cover 95 will make an organic whole structure with row material pipe and/or sealing washer, wherein case 94 wear penetrate first body 951 can, such design makes the overall structure of valve body 91 simplified, and spare part is less in the dismantlement installation, and it is more convenient to use.

While the foregoing describes various configurations of the slurry discharge valve assembly to facilitate cleaning of the food processor, the following describes how the present application facilitates automatic cleaning of the food processor by providing structural modifications at the fluid receiving container assembly 20.

Referring to fig. 34 to 40, in some embodiments, the food processor 1 of the present application further includes a movement actuating assembly 23, the liquid receiving container assembly 20 is located below the slurry discharge valve device, the liquid receiving container assembly 20 includes at least a first cup 21 and a second cup 22, and the movement actuating assembly 23 actuates the first cup 21 and the second cup 22 to move so that one of the first cup 21 and the second cup 22 enters the liquid receiving position to receive the liquid discharged by the slurry discharge valve device.

The movement of the movement-actuating assembly 23 to actuate the movement of the first and second cups 21, 22 may be planar in some embodiments, for example, the movement-actuating assembly 23 actuates the first and second cups 21, 22 to translate to move one of the first and second cups 21, 22 into the liquid-receiving position. Alternatively, the movement driving assembly drives the first cup 21 and the second cup 22 to rotate, so that one of the first cup 21 and the second cup 22 enters the liquid receiving position. In other embodiments, the movement driving assembly 23 may drive the first cup 21 and the second cup 22 to move spatially, so as to move one of the first cup 21 and the second cup 22 into the liquid receiving position. Wherein the spatial movement of the cup is achieved by a robotic arm structure for example, which grips and places the cup.

The present application prefers to move the driving assembly 23 to drive the first cup 21 and the second cup 22 to rotate to enter the liquid receiving position, so as to achieve the purpose of reducing cost and achieving compact structure, wherein the liquid receiving container assembly 20 shown in the figures is two cups, including the first cup 21 and the second cup 22, it is understood that in other structures, the liquid receiving container assembly 20 may also have three cups or four cups, wherein a plurality of cups may be disposed close to each other and in contact, so as to save space, and preferably, for example, in the figures 36 to 40, the first cup 21 and the second cup 22 in the present application may have splicing surfaces 20a abutting against each other, the splicing surface 20a on the first cup 21 and the splicing surface 20a on the second cup 22 may abut against each other, and by this arrangement, during the rotation process, the first cup 21 and the second cup 22 are mutually limited and fixed, in other embodiments, the first and second cups 21, 22 may be substantially L-shaped in plan view or may be otherwise shaped such that the outer walls of the cups abut each other in a limited manner. Certainly, a plurality of cups can also have certain interval to set up, and a plurality of cups can be set up on a plane, can also be on the plane that is the co-altitude not, and this is according to the structural style that removes drive assembly 23 and decide, and a plurality of cups can be plastics material, metal material or glass material etc. do not do the restriction here, and what this application connects liquid position to refer to is that the cup that connects among liquid container assembly 20 moves to the position that can connect the liquid that the mud discharging hole was discharged below mud valve device 90.

In the technical proposal of the utility model, the liquid receiving container component 20 is arranged below the slurry discharging valve device, and the first cup 21 and the second cup 22 in the liquid receiving container assembly 20 are driven to switch positions by the movement driving assembly 23 to receive the liquid discharged by the slurry discharge valve device, therefore, when the food processor is used, through the structure, the food processor can be used, after the discharge of the liquid after the food whipping is completed, an automatic cleaning process is performed, and in addition, the first cup body 21 of the utility model can be used for receiving the whipped food liquid, and the second cup body 22 can be used for receiving the cleaning waste liquid, or when the liquid stirred by the food processor needs to be shared by a plurality of people, the first cup body 21 and the second cup body 22 can be driven by the movable driving assembly 23 to respectively receive the slurry, so that the automatic distribution of the liquid is realized.

In some embodiments, the movement driving assembly 23 comprises a bearing 25 and a rotary driving member 24, the bearing 25 is used for carrying the liquid receiving container assembly 20, and the rotary driving member 24 drives the bearing 25 to rotate.

The liquid receiving container assembly 20 carried by the carrier 25 may be the liquid receiving container assembly 20 placed above the carrier 25, or the liquid receiving container assembly 20 mounted on the side of the carrier 25, or other connection methods, and further, the main body 10 is provided with a placing table 115 below the slurry discharge valve device 90, and the movement actuating assembly 23 is provided on the placing table 115. Through such setting for under the area's of need not increasing the complete machine structure the condition, the machine becomes the miniaturization, and connect liquid container subassembly 20 and remove and order about subassembly 23 and can wholly place in placing platform 115, make the complete machine transport convenient, be convenient for accomodate, practice thrift the space.

Further, the utility model discloses hold carrier 25 and be the carousel, also connect liquid container assembly 20 to place in the top that holds carrier 25 even more, and rotary driving piece 24 is the rotating electrical machines, carousel rotatable coupling in place platform 115, and the rotating electrical machines is fixed in and places platform 115. The carrier 25 is in the form of a turntable, which occupies a small space, but the carrier 25 may also be in the form of other structures, such as a basket structure or other structures, which can rotate around a rotation axis.

The structure of the turntable of the present application includes a turntable body 251 and a positioning shaft 254 connected to the turntable body 251, the movement driving assembly 23 further includes a rolling member 27, the rolling member 27 may be a roller or a ball, the rolling member 27 is located between the placing table 115 and the turntable body 115, wherein the rolling member 27 realizes the support of the turntable, and reduces the rolling friction, so as to improve the stability in the rotating process, wherein a plurality of rolling members 27 may be arranged at annular intervals. And the support table 115 may be provided with a slot or channel structure for limiting the rolling member 27. It is of course also possible to achieve a rotational stabilization of the turntable by other structures, such as a structure in which a circular guide rail and a guide groove are provided between the turntable and the placement table 115, or an inner and outer bearing structure.

In order to realize the rotation of the turntable and further drive the first cup 21 and the second cup 23 to rotate for switching the positions, please refer to fig. 35 to fig. 36, in some embodiments, a motor shaft of the rotating motor is connected to the turntable, which has a simple structure and a low cost. Referring to fig. 37-38, in other embodiments, the rotating motor is connected to the turntable through the transmission structure 26. In particular, such a design of the transmission structure 26 may allow for a compact arrangement of the transmission structure in a small space of the placing table 115 and a more robust transmission scheme. Specifically, in the above two modes, the motor shaft of the rotating motor is fixedly connected with the positioning shaft 254, or the positioning shaft 254 is rotatably connected with the placing table 115 through the transmission structure 26, the transmission structure 26 may be a driving gear 261 fixedly connected with the motor shaft of the rotating motor shown in fig. 37 and 38 and a gear ring 262 arranged on the turntable, the driving gear 261 and the gear ring 262 are engaged to form the transmission structure 26, the transmission structure 26 may also be a pulley structure, a cam structure, or a crank-rocker structure, and the driving gear 261 and the gear ring 262 shown in fig. 37 and 38 have the characteristic of small occupied space.

Further, in any of the above embodiments, the tray body 251 includes a support ring 252 and a support bar 253 connected to an inner wall of the support ring 252, the positioning shaft 254 is fixedly connected to the support bar 253, the rolling member 27 is located between the support ring 252 and the placing table 115, the support ring 252 and the support bar 253 define the detents 26 corresponding to the first cup 21 and the second cup 22, respectively, and bottoms of the first cup 21 and the second cup 22 are snapped into the detents 256. Through setting up like this, can promote the location effect of placing the in-process to first cup 21 and second cup 22 to simple structure, and can know from above-mentioned, first cup 21 and second cup 22 are provided with concatenation face 20a respectively, and concatenation face 20a is the cambered surface, and when the bottom card of first cup 21 and second cup 22 was gone into in screens 256, concatenation face 20a on the first cup 21 and the concatenation face 20a on the second cup 22 leaned on together. Through the design, the first cup body 21 and the second cup body 22 are not easy to shift due to centrifugal force during rotation, and the cup body placement is more stable.

Since the liquid receiving container assembly 20 has a certain inertia during the rotation when the liquid receiving container assembly 20 is driven to rotate, in order to ensure that the cups can be stationary in the liquid receiving position, an auxiliary positioning assembly for keeping one of the first cup 21 and the second cup 22 stationary in the liquid receiving position is further provided between the bearing member 25 and the placing table 115. The auxiliary positioning assembly can stably stop the first cup 21 and the second cup 22 at the liquid receiving position, and in some embodiments, the auxiliary positioning assembly includes a magnetic member disposed on the supporting member 25 and a magnetic member disposed on the placing table 115, and when one of the first cup 21 and the second cup 22 is at the liquid receiving position, the magnetic member and the magnetic member are magnetically attracted, where both the magnetic member and the magnetic member may be a magnet block, or one of the magnetic member and the other is a soft magnetic metal block, and adverse effects of inertia factors are overcome by a magnetic structure, so that the cups can be stably stopped at the liquid receiving position, and the structure is simple. It can be understood that the auxiliary positioning assembly may also be in other structures capable of playing a damping friction function at the liquid receiving position, so that the residual inertia potential energy of the liquid receiving container assembly 20 driven by the turntable to rotate to the liquid receiving position can be consumed.

In order to realize the precise control of the food processor, referring to fig. 39 and 40, the sensing structures 28 for detecting the installation state are disposed between the first cup 21 and the carrier 25 and between the second cup 22 and the carrier 25; and/or a trigger and a sensor for detecting the rotational position are further provided between the carrier 25 and the placement table 115. For example, sensing structure 28 includes a first inductor 281 and a second inductor 282, wherein, the sensing structure 28, which may be a reed switch, a photoelectric sensor, etc., and the trigger and sensor are used to detect whether the first and second cups 21 and 22 are installed in place, and when in use, the discharge valve device after the material is whipped can perform the automatic liquid discharge step only when the first cup 21 and the second cup 22 are sensed to be placed on the carrier 25, and a step of automatically discharging the residual liquid after the automatic washing process, further the carrier 25 and the placing table 115 are provided with a trigger and a sensor for detecting the rotational position, it is further ensured that the first cup 21 and the second cup 22 can be accurately stopped at the liquid receiving position, therefore, when the liquid is discharged, the liquid is not spilled due to the inaccurate position of the cup body.

The above further describes the advantage of the food processor of the present application of automatic cleaning and automatic discharging of slurry through the structural improvement at the liquid receiving container assembly 20, and the following further clarifies the advantage of the food processor of the present application of good whipping effect.

In addition to the stirring cup 31 and the stirring blade 34, the stirring cup assembly 30 further includes a cup cover 35, wherein the cup cover 35 is detachably covered on the upper end opening of the stirring cup 31 and is installed on the stirring cup 31, the blade of the stirring blade 34 is located in the stirring cup 31, and the blade shaft is in transmission connection with the upper output shaft of the driving component 13. The food processor 1 of the present application may have a heating function or not, depending on the specific application of the food processor 1, for example, when the food processor 1 is a juicer, a blender, etc., the food processor may not have a heating function, and when the food processor 1 is a wall breaking machine, a soymilk maker, etc., the food processor may have a heating function. In the case of having a heating function, a heating device is further installed below the stirring cup 31 in some embodiments, and the heating device may be a heating pipe, a heating film, or an electromagnetic heating ring.

Referring to fig. 41 to 45, in the embodiment of the present invention, in order to achieve a good whipping effect, the stirring cup 31 includes a side wall 32 and a bottom wall 33, the inner wall surface of the side wall 32 is provided with a plurality of turbulence ribs 37, the turbulence ribs 37 extend toward the bottom wall 33, each turbulence rib 37 includes a first turbulence surface 371, a second turbulence surface 372 and an intersecting surface 373 intersecting with the side wall 111, a center line of the intersecting surface 373 in the vertical direction of the side wall 32 is O, a projection of a ridge line formed by the intersection of the first turbulence surface 371 and the second turbulence surface 372 on the side wall 31 is S, and S and O are arranged in an intersecting manner.

The quantity of the vortex muscle 37 that shows in this application figure is three, and three vortex muscle 37 is 120 degrees even interval arrangements in the week of stirring cup 31, and in other embodiments, the quantity of vortex muscle 37 also can be for example two, four, can be even interval setting, perhaps non-uniform interval setting. Turbulence rib 37 is followed the upper portion by lateral wall 32 and is extended towards diapire 33, turbulence rib 37' S upper end is less than the opening of stirring cup 31 upper end, wherein, first turbulence face 371 and second turbulence face 372 can be the plane also can be the cambered surface on the turbulence rib 37, wherein, S intersects the setting with O, S and O do not parallel nor coincidence promptly and set up, can know through observing fig. 41 and 42, this application S intersects the setting with O, cause the central line of crest line and cup 31 not coplane on the one hand, make turbulence rib 37 constitute and be the slope extension in the upper and lower direction of cup 31, and turbulence rib 31 also be towards one side slope on the rotation direction of stirring sword 34 with the position that the crest line is the closed angle summit.

The utility model discloses technical scheme is O through the central line of crossing face 373 along the vertical direction of lateral wall 32, the projection of the ridge line that first spoiler face 371 and second spoiler face 372 intersect and form is S on lateral wall 31, wherein S intersects with O and sets up, spoiler muscle 37 is the slope setting promptly, so eat the material at stirring cup subassembly 30 and beat the in-process, eat the material and will move towards different directions to the center of stirring cup 31 surge, make the edible material flow in the stirring cup 31 mix more acutely, then the process of beating is more thorough, the edible material slurry that obtains is more exquisite, and simultaneously, also can corresponding required motor power that reduces, reduce food processor' S cost.

Further, the first flow-disturbing surface 371 and the second flow-disturbing surface 372 are sequentially arranged in the rotation direction of the stirring blade 120, and an included angle between the first flow-disturbing surface and the central line of the stirring cup 31 is defined as γ, and an included angle between the second flow-disturbing surface 372 and the central line of the stirring cup 31 is defined as θ, wherein γ is smaller than θ. In this embodiment, the first spoiler surface 371 is relatively steep with respect to the inner wall surface of the sidewall 32, the first spoiler surface 371 guides the food material to the center of the mixing cup 31, the second spoiler surface 372 is relatively gentle with respect to the inner wall surfaces of the first spoiler surface 371 and the mixing cup 31, the food material can form a vortex at the junction with the inner side surface of the mixing cup 31 due to the change of angle and speed when flowing through the second spoiler surface 372, the food material is not easily accumulated at the junction of the second spoiler surface 372 and the inner side surface of the mixing cup 31, and a cleaning dead angle is not formed during the cleaning process.

In some embodiments, the thickness of the spoiler 37 in the radial direction of the stirring cup 31 is d, and d is greater than or equal to 5mm and less than or equal to 18 mm. In this embodiment, when thickness d is too small and is less than 5mm, turbulence rib 37 is relatively flat compared with the inner wall surface of stirring cup 31, so that the effect of blocking the food material vortex by turbulence rib 37 is relatively small, the effect of mixing the food material flow is relatively general, and when thickness d is too large and is greater than 18mm, the effect of blocking the food material flow by stirring cup 31 is increased, so that the required power of the food processor is correspondingly increased.

Referring to fig. 43 to 45, the inner wall surface of the side wall 32 is further provided with a turbulence protrusion 38 in a protruding manner, the turbulence protrusion 38 extends in the circumferential direction of the stirring cup 31, the lower end of the turbulence rib 37 extends to the turbulence protrusion 38, the side wall 32 and the bottom wall 33 cooperate to define a grinding cavity 39, and the stirring blade 120 is located in the grinding cavity 39. In this embodiment, the spoiler rib 37 guides and mixes the food material to the center direction on the upper portion of the stirring cup 31, and the spoiler protrusion 38 is in a step shape and has an arc transition surface 381 and a spoiler step surface 382, the spoiler protrusion 38 mixes the food material in the up-and-down direction of the stirring cup 31 on the lower portion of the stirring cup 31, and the spoiler rib 37 and the spoiler protrusion 38 cooperate to mix the food material more intensely and thoroughly, so that the whipping effect is better.

Further, an included angle β is formed between the plane where the burbling protrusion 38 is located and the ridge line, wherein β is greater than 90 degrees. In this embodiment, because the lower end of the turbulence rib 37 extends to the turbulence convex portion 38, and an included angle β is formed between the plane where the turbulence convex portion 38 is located and the ridge line, where β is greater than 90 degrees, in the food material stirring process, the food material flows under the guidance of the oblique effect of the turbulence convex rib due to the upward-flowing process of the turbulence convex portion 38, and the food material flows obliquely to the center of the stirring cup 31 in the upward-flowing process, so that the mixing is more thorough and uniform.

Optionally, a distance A between the burbling protrusion 38 and the bottom wall 33 is defined, wherein A is greater than or equal to 8mm and less than or equal to 20 mm. The distance a between turbulator protrusion 38 and bottom wall 33 in the present application may be: 5. 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20 millimeters. When A is too small, the stirring height of the whole stirring knife 120 is also low, the part of the stirring knife 120 acting on food materials is too few, and the stirring knife is not beneficial to rapid and sufficient stirring, when A is too large, the whole structure is too large, and the stirring efficiency is ensured while the structure is compact by enabling A to be not less than 8mm and not more than 20 mm.

The thickness of the turbulent protrusion 38 in the radial direction of the stirring cup 31 is defined as T, wherein T is greater than or equal to 0.5 mm and less than or equal to 5 mm. This application sets up when the thickness of vortex convex part 38 is less than 0.5 millimeter, the in-process of billowing from top to bottom of eating the material stream, it is less to receive the effect of redirecting of vortex convex part 38, then the effect that the eating material stream mixes promotes and is showing inadequately, and when the thickness of vortex convex part 38 is greater than 5 millimeters, the edible material on edible material stream upper strata falls the in-process and can receive the blockking of vortex convex part 38, it can not fall down to cause the edible material on upper strata, the vortex convex part 38 of this application can be worth for example 1 millimeter, 1.5 millimeter, 2 millimeters, 2.5 millimeters, numerical values such as 3 millimeters, through setting up vortex convex part 38 in the radial direction of stirring cup 31 thickness: t is more than or equal to 0.5 mm and less than or equal to 5mm, the food material can be stirred, the food material is disturbed by the turbulence convex part 38 when turning over and surging up and down, the flow direction is changed, the laminar flow is changed into baffling and flocculating flow, the turbulence effect is better, and the stirring effect is better.

Optionally, one or more than two turbulence protrusions 38 are arranged in the axial direction of the stirring cup 31; and/or

The turbulence convex part 38 surrounds the side wall 32 of the stirring cup 31 for a circle; and/or

The turbulence convex part 38 has multiple segments, and the multiple segments of the turbulence convex parts 38 are arranged at intervals in the circumferential direction of the stirring cup 31 to form an annular shape.

In this embodiment, when vortex convex part 38 has arranged more than two at stirring cup 31's axial, can be so that the edible material stream receives the multilayer interference, and the vortex effect of production is better, and vortex convex part 38 when encircleing stirring cup 31's lateral wall 32 a week, the bellied structure of vortex is continuous, can realize carrying out the vortex to the edible material stream in whole stirring cup 31, has the multistage when vortex convex part 38, the multistage vortex convex part 38 is in when stirring cup 31's interval was arranged in circumference is the annular, can reduce cost.

In some embodiments, the turbulator protrusions 38 are arranged in one or more than two axial directions of the stirring cup 31; and/or the burbling protrusion 38 surrounds the side wall 32 of the stirring cup 31 for a circle; and/or the burbling convex part 38 has multiple sections, and the multiple sections of burbling convex part 38 are arranged at intervals in the circumferential direction of the stirring cup 31 to form a ring shape.

This application, vortex convex part 38 has when two above axial arrangement of stirring cup 31, can be so that the edible material stream receives the multilayer interference, and the vortex effect of production is better, and vortex convex part 38 when encircleing the lateral wall 32 a week of stirring cup 31, the bellied structure of vortex is continuous, can realize carrying out the vortex to the edible material stream in whole stirring cup 31, has the multistage when vortex convex part 38, the multistage vortex convex part 38 is in when interval arrangement is the annular in the circumference of stirring cup 31, can reduce cost.

In the present application, the stirring cup 31 is made of a metal material, wherein the stirring cup 31 may be made of a metal material such as an aluminum alloy, an iron alloy, or the like. The mixing cup 31 is of a metallic material, which has a high structural strength and can be used in a food processor that can be heated, but when the mixing cup assembly 30 of the present application is used in a food processor that does not require heating, the material of the mixing cup 31 can be, for example, plastic or glass.

Further, the portion of the sidewall 32 between the turbulator protrusion 38 and the bottom wall 33 is thicker than the other portions of the sidewall 32, and the stirring cup assembly 30 further includes a heating tube 36, wherein the heating tube 36 is connected to the sidewall 32 and is located between the turbulator protrusion 38 and the bottom wall 33. In this embodiment, the stirring cup 31 is made of a metal material, the heating pipe 36 and the stirring cup 31 can be manufactured into an integral structure through a pouring mode, the heating pipe 36 is installed on the bottom side wall 32 with a large thickness, and the heat conducted by the heating pipe 36 to the food material located at the bottom of the stirring cup 31 is relatively uniform, so that the bottom pasting phenomenon is not easy to generate.

The above is only the optional embodiment of the present invention, and not the scope of the present invention is limited thereby, all the equivalent structure changes made by the contents of the specification and the drawings are utilized under the inventive concept of the present invention, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims (21)

1. A food processor, comprising:

the host computer is used for storing the data,

the stirring cup assembly is arranged on the host machine and is provided with a discharge hole;

the slurry discharge valve device is arranged on the stirring cup assembly and opens or closes the discharge hole;

a liquid receiving container assembly located below the slurry discharge valve apparatus, the liquid receiving container assembly comprising at least a first cup and a second cup; and

and the movement driving component drives the first cup body and the second cup body to move so that one of the first cup body and the second cup body enters a liquid receiving position to receive the liquid discharged by the slurry discharge valve device.

2. The food processor of claim 1, wherein the movement actuation assembly drives translation of the first cup and the second cup to move one of the first cup and the second cup into a liquid receiving position.

3. The food processor of claim 1, wherein the movement actuation assembly drives rotation of the first cup and the second cup to bring one of the first cup and the second cup into a liquid receiving position.

4. The food processor of claim 3, wherein the movement actuation assembly includes a carrier for carrying the fluid receiving container assembly and a rotary drive member for driving the carrier in rotation.

5. The food processor of claim 4, wherein the main body further includes a placement platform disposed below the slurry discharge valve assembly, the movement actuation assembly being disposed on the placement platform.

6. The food processor of claim 5, wherein the carrier is a turntable, the rotary drive member is a rotary motor, the turntable is rotatably coupled to the placement table, the rotary motor is fixed to the placement table, a motor shaft of the rotary motor is coupled to the turntable, or the rotary motor is coupled to the turntable via a transmission structure.

7. The food processor of claim 6, wherein the turntable comprises a disk body and a positioning shaft connected to the disk body, the movement driving assembly further comprises a rolling member located between the placing table and the disk body, and a motor shaft of the rotating motor is fixedly connected to the positioning shaft, or the positioning shaft is rotatably connected to the placing table, and the motor shaft of the rotating motor and the periphery of the disk body are provided with a gear and a rack which are engaged with each other, and the gear and the rack constitute the transmission structure.

8. The food processor of claim 7, wherein the pan body includes a support ring and a support bar coupled to an inner wall of the support ring, the positioning shaft is fixedly coupled to the support bar, the rolling member is disposed between the support ring and the placement table, the support ring and the support bar define detents corresponding to the first cup and the second cup, respectively, and bottoms of the first cup and the second cup are engaged in the detents.

9. The food processor of claim 8, wherein the first cup and the second cup each have a mating surface, the mating surfaces on the first cup and the second cup abutting when the bottoms of the first cup and the second cup are snapped into the detent.

10. The food processor of claim 5, wherein a secondary positioning assembly is further disposed between the carrier and the placement station for holding one of the first cup and the second cup stationary when in the receiving position.

11. The food processor of claim 10, wherein the secondary positioning assembly includes a magnetic member disposed on the carrier and a magnetically attractive member disposed on the positioning table, the magnetic member and the magnetically attractive member being magnetically attracted to each other when one of the first cup and the second cup is in the liquid receiving position.

12. The food processor of claim 5, wherein sensing structure is disposed between the first cup and the carrier and between the second cup and the carrier for detecting an installation condition; and/or the presence of a gas in the gas,

a trigger and a sensor for detecting the rotation position are arranged between the bearing piece and the placing table.

13. The food processor as defined in claim 1, wherein said discharge valve assembly includes a valve body including a valve body housing and a valve core, said valve body housing having a feed opening and a discharge opening and a fluid passageway communicating said feed opening and said discharge opening, said feed opening being capable of abutting communication with said discharge opening, said valve core being movably connected to said valve body housing for controlling the opening and closing of said fluid passageway;

wherein at least part of the valve body shell of the valve body can be detached and separated by the stirring cup assembly and/or the valve core can be detached and separated by the valve body shell.

14. The food processor of claim 13, wherein the discharge valve assembly further comprises a drive motor drivingly connected to the valve core.

15. The food processor of claim 13, wherein the valve body is laterally withdrawable relative to the blender cup assembly.

16. The food processor of claim 15, wherein the slurry discharge valve assembly further comprises a bracket assembly coupled to an outer wall of the blender cup assembly, the valve body being coupled to the bracket assembly.

17. The food processor of claim 16, wherein the bracket assembly includes a first bracket adapted to be mounted to the blending cup assembly and a second bracket to which the valve body is coupled, wherein the second bracket is movable along the first bracket to bring the feed aperture and the discharge aperture into close proximity and abutting communication; or the second bracket can move along the first bracket and drive the valve body to move out of the first bracket together.

18. The food processor of claim 17, wherein a locking structure is disposed between the first frame and the second frame, the first frame and the second frame being relatively secured together by the locking structure when the second frame moves the valve body adjacent the discharge opening and places the feed opening in abutting communication with the discharge opening.

19. The food processor of any one of claims 1-18, wherein the blending cup assembly comprises a blending cup and a blending knife, the blending cup comprises a side wall and a bottom wall, the discharge hole is formed in the bottom of the side wall, a blending convex portion is convexly arranged on the inner wall surface of the side wall inwards, the blending convex portion extends in the circumferential direction of the blending cup, the blending convex portion, the side wall and the bottom wall cooperate to define a grinding cavity, and the blending knife is located in the grinding cavity.

20. The food processor of any one of claims 1-18, wherein the blending cup assembly includes a blending cup and a blending knife, the blending cup includes a sidewall and a bottom wall, the bottom of the sidewall has been opened with the relief hole, the inner wall surface of the sidewall is provided with a spoiler rib, the spoiler rib faces towards the bottom wall extends, the spoiler rib includes a first spoiler surface, a second spoiler surface and an intersecting surface intersecting with the sidewall, the intersecting surface is along the central line of the vertical direction of the sidewall is O, the first spoiler surface and the ridge line formed by the intersection of the second spoiler surface are in the projection on the sidewall is S, wherein S and O are arranged in an intersecting manner.

21. The food processor of claim 20, wherein the first flow-disrupting surface and the second flow-disrupting surface are sequentially disposed in a direction of rotation of the blending blade, defining an angle γ between the first flow-disrupting surface and a centerline of the blending cup, and an angle θ between the second flow-disrupting surface and the centerline of the blending cup, wherein γ is less than θ.

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