CN217565806U - Food processor - Google Patents

Abstract

The utility model provides a food processor, food processor includes: a body provided with a first mount; the crushing device is arranged in the machine body and is provided with a crushing cavity, and the crushing device comprises a first liquid discharge port communicated with the crushing cavity; the filtering component is provided with a second mounting part, the second mounting part can be detachably connected with the first mounting part, the filtering component is detachably arranged on the machine body through the second mounting part, the filtering component is provided with a first liquid inlet and a second liquid outlet, the first liquid inlet is used for receiving liquid flowing out from the first liquid outlet, the second liquid outlet is communicated with the outside, a liquid receiving space is arranged below the second liquid outlet, and the filtering component comprises a rotatable filtering piece; the drive assembly is arranged on the machine body and can drive the filter piece to rotate. Through setting up drive assembly in the organism, the drive filters and rotates and produce centrifugal force for to the filter speed of liquid, reduce the residual volume of liquid in the filter assembly, improved work efficiency.

Description

Food processor

Technical Field

The utility model relates to a food processing equipment technical field particularly, relates to a food processor.

Background

Among the prior art, food processor carries out shredding with food after, often is static filtration when filtering food, has the slow problem of filter speed to filter assembly holds the residue after filtering easily, is difficult to the clearance.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

Therefore, the utility model provides a food processor, food processor includes: a body provided with a first mounting member; the crushing device is arranged in the machine body and provided with a crushing cavity, and the crushing device comprises a first liquid discharge port communicated with the crushing cavity; the filtering component is provided with a second mounting part, the second mounting part can be detachably connected with the first mounting part, the filtering component is detachably arranged on the machine body through the second mounting part, the filtering component is provided with a first liquid inlet and a second liquid outlet, the first liquid inlet is used for receiving liquid flowing out of the first liquid outlet, the second liquid outlet is communicated with the outside, a liquid receiving space is arranged below the second liquid outlet, and the filtering component comprises a rotatable filtering piece; the drive assembly sets up in the organism, and drive assembly can drive and filter the piece rotation.

The utility model provides a food processor, including organism, reducing mechanism, filtering component and drive assembly. The crushing device is arranged in the machine body and is used for crushing food materials to enable the food materials to become tiny granular solids. The crushing device is provided with a crushing cavity, and after the food is placed in the crushing cavity, the crushing device processes the food materials and crushes the food materials.

Further, be provided with first installed part on the organism, filtering component passes through second installed part detachably and is connected with first installed part to the messenger can dismantle and locate on the organism for carry out filtration treatment to the solid-liquid mixture of smashing the intracavity. Under the condition that the filtering component is arranged in the machine body, the crushing cavity is communicated with the first liquid inlet of the filtering component. Specifically, smash the chamber and be equipped with first drain port for discharge the solid-liquid mixture in smashing the intracavity, the first drain port in smashing the chamber is linked together with filter assembly's first inlet, is used for accepting the solid-liquid mixture that first drain port flowed out, so that smash the interior solid-liquid mixture who accomplishes crushing treatment of intracavity and flow into filter assembly, carry out filtration treatment through filter assembly to it.

Wherein, filtering component and organism are detachable to be connected, and filtering component can move in or shift out in the organism, realizes filtering component and the nimble installation of organism. When food needs to be filtered, the filtering component is moved into the machine body and is installed with the machine body, so that the solid-liquid mixture can be filtered. When needs are washd filter assembly, shift out filter assembly the organism, conveniently clear up filter assembly.

Further, the first installation part is matched with the second installation part, so that the filtering component can be detachably connected with the bracket component. In this way, through the arrangement of the first installation part and the second installation part, on one hand, the filtering component can be detachably connected with the bracket component, so that the filtering component can be moved into or removed from the bracket component. On the other hand can improve the stability of being connected of filter assembly and bracket component for it is more stable when filter assembly is connected with the bracket component, guarantees the normal work of food processor.

Through set up the second installed part with first installed part adaptation on the filter assembly, make the filter assembly can be connected on the bracket component through the cooperation of first installed part and second installed part. And, set up to detachably through the connected mode between with second installed part and the first installed part and connect to can connect or dismantle filtering component from the bracket component according to suitable demand, make filtering component set up on the bracket component in a flexible way, promote suitable convenience, also be convenient for clear up filtering component.

Specifically, for convenience of description, the first position is when the filter assembly is connected to the machine body, and the second position is when the filter assembly is separated from the machine body. Under the condition that the filtering component is located at the first position, the first liquid inlet is communicated with the first liquid discharge port, at the moment, the filtering component can be in a working state, food materials to be filtered are sent into the filtering component through the first liquid inlet, and after the filtering component finishes filtering, the food materials which finish filtering are discharged through the second liquid discharge port.

Under the condition that the filtering component is located at the second position, the first liquid inlet is separated from the first liquid discharging port, at the moment, the filtering component is in a non-working state, the filtering component is far away from the main body of the food processor, and the filtering component can be cleaned conveniently.

Furthermore, a second liquid outlet on the filtering component is communicated with the outside, and after solid-liquid separation of the solid-liquid mixture is carried out through the filtering component, the filtered liquid can be discharged to the outside through the second liquid outlet. The below of second leakage fluid dram is equipped with and connects the liquid space, and the liquid after filtering the subassembly can be arranged to connecing the liquid space through the second leakage fluid dram, realizes the collection to the liquid that is filtered. Specifically, the food in the crushing cavity forms a solid-liquid mixture after being crushed, the solid-liquid mixture can be discharged through the first liquid outlet and enters the filtering assembly through the first liquid inlet, the filtering assembly filters the solid-liquid mixture, namely, the solid-liquid separation is realized, the solid in the solid-liquid mixture is remained in the filtering assembly, and the filtered solid-liquid mixture is discharged to the liquid receiving space through the second liquid outlet, so that the automatic filtering effect of the solid-liquid mixture is realized.

Further, the filtering component also comprises a rotatable filtering piece, and the filtering piece can rotate by taking the center of the filtering piece as a rotating shaft to drive the solid-liquid mixture to filter. Specifically, after the solid-liquid mixture flows into the filtering component, the filtering component starts to rotate, and the solid-liquid mixture is thrown out by utilizing the centrifugal force generated by rotation, so that the solid and the liquid of the solid-liquid mixture are separated, and the automatic filtering effect is realized.

Further, food processor still includes drive assembly, and drive assembly locates in the organism to can be connected with filtering piece, thereby the drive filters the piece and rotates, makes to filter the center that can use self rotate as the pivot, and then filters solid-liquid mixture, realizes solid-liquid mixture's automatic filtration. Understandably, in a static state, the liquid in the filter assembly is discharged out of the filter element by the hydraulic pressure of the liquid per se so as to separate the liquid from impurities, but the liquid is discharged out slowly on the one hand only through the hydraulic action, and on the other hand, when the residual liquid is less, the hydraulic pressure is less, the liquid is difficult to discharge out, and partial liquid cannot be discharged out. And when drive assembly acted on filter assembly, drive assembly drive filtered the center of piece and used self as the pivot and rotate, filtered the piece and produced centrifugal force when rotating, under the effect of centrifugal force, the interior liquid of filter assembly was thrown away and is filtered the piece, and then discharge filter assembly with higher speed for the speed of liquid and impurity separation, and reduced the remaining volume of liquid in filtering the piece.

Through setting up drive assembly in the organism, the rotation is filtered in the drive, makes pivoted filter piece produce centrifugal force, accelerates the filter rate to liquid on the one hand, and on the other hand makes liquid discharge from filter assembly under the effect of centrifugal force, reduces the liquid residual volume in the filter assembly, has improved filter assembly's work efficiency to filter effect has been improved. And, through the operating power of adjustment drive assembly, can make the filter assembly rotate with different rotational speeds to make the filter assembly all can reach good filter effect when eating material to different and filter.

The working process of the food processor is as follows: the food is placed in a crushing chamber in the body and crushed to crush the food into a solid-liquid mixture containing food residue. The solid-liquid mixture flows into the filtering assembly through the first liquid inlet, the driving assembly is started at the moment, the filtering piece in the filtering assembly is driven to rotate by taking the center of the filtering piece as a rotating shaft, the liquid is thrown out of the filtering assembly under the action of centrifugal force, impurities are remained in the filtering assembly, the solid-liquid separation of the solid-liquid mixture is realized, and the filtered liquid is discharged to the liquid receiving space through the second liquid outlet.

It can understand, filter the produced centrifugal force size of piece and relevant with the self rotational speed of filtering the piece, consequently, the operating power through adjustment drive assembly can make and filter the piece and rotate with the rotational speed of difference to produce different filter effects, when edible material to different types filters, select corresponding rotational speed, so that filter assembly all can reach good filter effect when eating the material to different and filter.

Through set up reducing mechanism, filtering component and drive assembly in food processor, realized that the one-stop of smashing and filtration treatment to eating the material handles, need not to filter the liquid that contains impurity after handling alone once more and can obtain not containing impurity or containing the liquid that impurity content is extremely low, easy operation, it is convenient to use, promotion user experience. The filter assembly effectively filters the solid-liquid mixture under the working condition; under the inoperative condition, can follow the organism and dismantle and keep away from the organism of food processor, the user of being convenient for clears up filtering component, promotes user experience.

In addition, according to the utility model provides a food processor among the above-mentioned technical scheme can also have following additional technical characterstic:

in a possible solution, the filter assembly can be moved out of the food processor in a radial direction of the food processor with the second mounting part and the first mounting part in a separated state.

In this technical scheme, under the condition that second mounting part and first mounting part are in the detached state, that is the filter assembly can be dismantled and the condition of removing from the organism, the filter assembly can remove from the radial or width direction of food processor, that is the filter assembly removes the food processor from the extending direction of the cross-section of food processor to can conveniently clean filter assembly.

It can be understood that, under the condition that the second installation part and the first installation part are in the separated state, the first installation part arranged on the machine body can be exposed out of the machine body, and when a user needs to reinstall the filter assembly on the machine body, the first installation part can be clearly seen from the side of the machine body, so that the filter assembly can be more conveniently inserted into the machine body from the radial direction and the second installation part and the first installation part on the filter assembly are accurately aligned, and the filter assembly can be conveniently installed by the user.

It should be noted that the filter assembly can be removed from the food processor in the radial direction or the width direction without removing the food processor from the height direction of the food processor, and the internal mechanical or electronic components can be reasonably arranged in the food processor, so that the food processor is more compact in structure and smaller in volume and occupied space.

In a possible solution, further, the food processor comprises: the bracket component sets up in the organism, and first installed part sets up in the bracket component, and filtering component can be connected with bracket component detachably, and the bracket component is formed with the accommodation space, and filtering component can move into or shift out the accommodation space.

In this technical scheme, the bracket component sets up in the organism, and filtering component can be connected with bracket component detachably for filtering component can separate in the bracket component. The bracket component is formed with the accommodation space, and first installed part is located this accommodation space, and the accommodation space is corresponding with filtering component's appearance, and filtering component can move in or shift out in the accommodation space to the realization is to carrying of crushing chamber solid-liquid mixture, and then filters solid-liquid mixture. When the filter assembly moves into the accommodating space, the accommodating space can provide limitation for the filter assembly, so that the filter assembly can correctly enter the bracket assembly, and the first liquid inlet and the first liquid outlet are aligned to receive a solid-liquid mixture.

Specifically, the filter assembly may be located at a position where the first liquid inlet and the second liquid outlet communicate, and at this time, the filter assembly may be in an operating state. In order to ensure that the filtering assembly keeps stable in the working state, the support assembly is provided with an accommodating space, the filtering assembly is detachably connected with the support assembly, and when the filtering assembly is located at the first position, the filtering assembly is located in the accommodating space and is arranged on the support assembly. When the filter assembly is located at the second position, the filter assembly is detached from the bracket assembly, so that the filter assembly can be taken out of the accommodating space.

Through set up the bracket component on the organism to be formed with the accommodation space, make filtering component set up in the accommodation space under operating condition, make filtering component remain stable under operating condition, guarantee that filtering component can normally work. When the filter assembly is located the second position, the filter assembly separates from the accommodating space, so that a user can clean the filter assembly conveniently, and the use convenience is improved.

In a possible solution, further, the driving assembly comprises: the driving motor is arranged in the bracket component; the first transmission piece is connected with the output end of the driving motor; the bracket component is provided with a first avoidance notch, and at least part of the first transmission piece is exposed out of the first avoidance notch.

In this technical scheme, the drive assembly includes driving motor, and driving motor sets up in the bracket component for provide the drive torque source. The driving motor is provided with an output end, and the first transmission piece is connected with the output end of the driving motor, so that the driving motor can drive the first transmission piece to rotate. The bracket component is provided with a first notch, the first notch is matched with the shape of the first transmission component, at least part of the first transmission component can be exposed out of the first avoidance notch, namely, at least part of the first transmission component can enter the filtering component and is connected with the filtering component to drive the filtering component to rotate, so that liquid is filtered.

Furtherly sets up the first breach of dodging on the bracket component, and the first breach of dodging sets up towards the first transmission piece position, and at least part of first transmission piece can expose through the first breach of dodging to make first transmission piece can contact with filtering the piece, realize that first transmission piece is to the drive of filtering the piece.

The driving process of the driving assembly to the filter element is as follows: the driving motor runs and drives the output end to rotate, the first transmission piece is connected with the output end, the driving motor transmits driving torque to the first transmission piece through the output end, the first transmission piece can be matched with a filtering piece to use, the driving torque is transmitted to the filtering piece through the first transmission piece, and the filtering piece starts to rotate along with the first transmission piece and generates centrifugal force. Therefore, the liquid in the filter assembly is thrown out under the action of centrifugal force, impurities in the liquid are left in the filter element, and the liquid is filtered.

Further, the drive motor may be set to different rotational speeds. Understandably, different solid-liquid mixtures have different filtering difficulties and different required centrifugal force. Therefore, the driving motor can be set to different rotating speeds corresponding to different liquids to be filtered, so as to improve the filtering effect.

Through set up first transmission piece in drive assembly to make first transmission piece can drive and filter the piece, realized drive assembly to the drive effect who filters the piece, this kind of drive method is simple reliable, and occupation space is little, and work efficiency is high. And set up the first breach of dodging on the bracket component, make the first breach of dodging of first transmission accessible expose and contact with filtering component, realize first transmission to filtering component's drive, and then realize driving filtering component through drive assembly so that filter the center of piece with self and rotate as the pivot, and then realize satisfying automatic filter effect to the filtration of liquid.

In one possible solution, further, the filter assembly comprises: the first shell comprises a first cavity and a second liquid outlet, and the filtering piece is arranged in the first cavity; the second dodges the breach, sets up in first casing, and at least part first transmission piece can dodge the breach through first dodge breach and second and drive and filter the piece rotation.

In this technical solution, the first housing includes a first cavity and a second liquid discharge port. Wherein, filtering the piece setting in first cavity, first cavity is linked together with first inlet, smashes the solid-liquid mixture in the intracavity and can flow into to first cavity in through first inlet, rotates and produces centrifugal force through drive filtering piece, throws away the liquid in the first cavity to the realization is to the filtration of solid-liquid mixture. The first cavity is also communicated with the second liquid outlet, and the solid-liquid mixture can be discharged to the outside through the second liquid outlet after being filtered in the first cavity.

Furthermore, the second avoidance notch is arranged on the first shell and corresponds to the first avoidance notch, so that at least part of the first transmission piece can enter the second avoidance notch through the first avoidance notch and is connected with the filter piece. So, first transmission piece can transmit drive torque to filtering piece, and the drive is filtered a relative first casing and is rotated, throws away the liquid in the first cavity, and then realizes the filtration to liquid, realizes automatic filter effect.

In particular, a structural element that can be driven by the first transmission element can be provided on the filter element, so that the first transmission element can drive the filter element to rotate.

The embodiment of the utility model provides a food processor dodges the breach through setting up the second on first casing, makes first transmission piece can dodge breach and second through first dodge during the breach stretches into first casing to be connected with filtering piece, thereby the drive filters the piece and rotates, and then realizes the filtration to liquid.

In a possible technical solution, further, the filter assembly further includes: a connector detachably connected to the filter member; the second transmission piece is arranged on the connecting piece and can drive the filter piece to rotate relative to the first shell under the driving of the first transmission piece.

In this technical scheme, the filter assembly still includes the connecting piece, and the connecting piece can be connected with filtering the piece is detachable. The second driving medium sets up in the connecting piece, can drive through the connecting piece and filter the piece and rotate. The first transmission piece is matched with the second transmission piece, and the first transmission piece can transmit the driving torque to the second transmission piece so as to drive the filtering piece to rotate. Specifically, driving motor operation and export the moment of torsion to first driving medium, and first driving medium transmits the moment of torsion to the second driving medium, because the second driving medium sets up on the connecting piece, the connecting piece is connected with filtering piece for the moment of torsion is finally transmitted to filtering on the piece, and then makes filtering piece rotate first casing relatively, drives and throws away the liquid in the first casing, realizes the solid-liquid separation to solid-liquid mixture, guarantees the filter effect of liquid.

Further, the first transmission piece and the second transmission piece are gears. The gear transmission is beneficial to the transmission of the driving torque, so that the loss of the driving torque is smaller, and the transmission efficiency is improved.

Through setting up the second driving medium in the connecting piece to make connecting piece and filter detachable being connected, can transmit the drive torque of first driving medium to filtering through the second driving medium, make and filter the piece and can rotate first casing relatively, and then realize the filtration to liquid.

In a possible technical solution, further, the first housing further includes: a body having an open end; the first flanging is arranged at the opening end of the body; the installation wall is connected with first turn-ups, and the installation wall extends to the direction that is kept away from the second leakage fluid dram, and the breach is dodged to the second and is set up in the installation wall, and first driving part can dodge the breach through the second and drive the rotation of second driving part.

In this technical scheme, first casing still includes body, first turn-ups and installation wall. Wherein, be provided with the open end on the body, liquid enters into this internal through the open end to filter parts such as piece also can enter into this internal and install through the open end. The first flanging is arranged at the opening end, and the mounting wall is connected with the first flanging and forms an included angle with the first flanging. The installation wall extends to the direction of keeping away from the second leakage fluid dram, and the breach sets up on the installation wall is dodged to the second, and first driving medium can enter into to the body through the second breach on the installation wall to be connected with the second driving medium, and then drive the rotation of filtering the piece.

In one possible solution, further, the bracket assembly comprises: the filter assembly comprises a first surface and a second surface, wherein the first surface and the second surface face the filter assembly, the second surface is far away from the filter assembly compared with the first surface, a first mounting surface is connected between the first surface and the second surface, and an accommodating space is defined by the first surface, the second surface and the first mounting surface; the first flanging is overlapped on the first mounting surface.

In this embodiment, the bracket assembly includes a first surface and a second surface. The first surface and the second surface face the filter assembly, and the second surface is far away from the filter assembly compared with the first surface, namely the second surface is closer to the machine body, so that the first surface and the second surface form two side steps of a step-shaped wall surface. In order to connect the first surface and the second surface, a first mounting surface is arranged between the first surface and the second surface, and two ends of the first mounting surface are respectively connected with the first surface and the second surface. Therefore, the first surface, the second surface and the first mounting surface surround an accommodating space, and the accommodating space is matched with the shape of the filtering component. When the filter assembly moves into the accommodating space, the first surface, the second surface and the first mounting surface can limit the position of the filter assembly, so that the filter assembly can move into the accommodating space correctly.

Further, first turn-ups overlap joint is on first installation face, and when filtering component moved into to the accommodation space in, first turn-ups overlap joint is on first installation face, and first installation face offsets with first turn-ups to carry on spacingly to first casing. On the other hand, first installation face has still played the supporting role to first turn-ups, and then has played the supporting limiting displacement to first casing, improves the stability of filter assembly in work.

The accommodating space is limited through the first surface, the second surface and the first mounting surface, so that the filtering assembly can move in and move out of the accommodating space, when the filtering assembly moves in the accommodating space, the first flanging is lapped on the first mounting surface, the limiting effect on the first shell is achieved, and the displacement movement of the first shell is prevented. And first installation face has played the support effect to filtering component, improves filtering component's stability in the work, guarantees food processor normal operating.

Further, the first mounting member may be provided on the first mounting surface.

In a possible solution, further, the food processor further comprises: the first positioning piece is arranged on the first mounting surface; and the second positioning piece is arranged on the first flanging, and is in limit fit with the first positioning piece.

In the technical scheme, in order to limit the rotation of the first shell along the circumference, a first positioning piece is further arranged on the first mounting surface, and a second positioning piece is arranged on the first flanging. Specifically, the second positioning piece is arranged on one side, facing the first mounting surface, of the first flanging, the first positioning piece is matched with the second positioning piece, and the first positioning piece and the second positioning piece are matched with each other. When the filter assembly moves into the accommodating space, the first positioning piece on the first mounting surface is matched with the second positioning piece on the first flanging, so that the first shell is limited along the circumferential direction, the first shell is prevented from rotating along the circumferential direction, and the position of the filter assembly in the accommodating space is limited.

Furthermore, the number of the first positioning pieces is at least one, and the number of the second positioning pieces is equal to the number of the first positioning pieces.

Furthermore, the number of the first positioning parts and the number of the second positioning parts can be 2, the number of the second positioning parts is also 2, and the positions of the first positioning parts and the positions of the second positioning parts correspond to each other. When the filter assembly moves into the accommodating space, the first positioning piece is matched with the second positioning piece to limit the position of the filter assembly in the accommodating space, so that the filter assembly and the support assembly are correctly installed, the first transmission piece can be in contact with the second transmission piece, and the second transmission piece is driven. On the other hand, the stability of the filter assembly in the accommodating space is improved, and the stability of the filter assembly during working is further improved through the mutual matching of the first positioning piece and the second positioning piece.

Through set up first setting element and second setting element on first installation face and first turn-ups respectively to the realization is spacing along the circumferencial direction to first casing, and then prescribes a limit to the position of filtering component in the accommodation space, improves the stability of filtering component operation, guarantees the filtering component normal operating.

In a possible technical solution, further, the second positioning element is provided at the first flange, the first flange is configured as one of a groove or a boss facing the surface of the first mounting surface, and the groove depth of the second positioning element is smaller than the thickness of the first flange; the first locator is configured as the other of the boss or the recess.

In this technical scheme, the second setting element is the recess or the bellied one of first turn-ups towards the surface of first installation face, and for example first setting element is the boss, and the second setting element can cooperate the use with first setting element, and the cooperation mode of second setting element and first setting element is unsmooth cooperation promptly. The groove depth of the groove forming the second positioning piece is smaller than the thickness of the first flanging, namely the groove forming the second positioning piece does not penetrate through the first flanging.

The second positioning piece is arranged in the groove in the surface, facing the first mounting surface, of the first flanging, the first positioning piece is arranged to be the boss, the second positioning piece and the first positioning piece are matched in a concave-convex mode, the first shell is positioned, the position of the first shell is fixed relatively, and the positioning accuracy of the first shell is improved.

In a possible solution, further, the food processor further comprises: at least one shock-absorbing piece is arranged on the first mounting surface or the first flanging, and the at least one shock-absorbing piece is positioned between the first mounting surface and the first flanging.

In the technical scheme, the food processor further comprises at least one shock absorption piece, wherein the shock absorption piece is arranged on the first mounting surface or the first flanging and positioned between the first mounting surface and the first flanging and is used for absorbing vibration from the filtering component and/or the machine body. Specifically, when filter assembly arranged the accommodation space in, crushing chamber can vibrate when smashing food, and the shock attenuation piece can absorb these vibrations in order to reduce the influence to filter assembly, avoids vibrating and makes filter assembly produce the displacement to reduce filter assembly for the position precision of bracket component. Similarly, when liquid flows into in the filter assembly and need to filter a piece rotation and filter liquid, because filter the rotation of piece and produce the vibration, the shock attenuation piece can absorb these vibrations equally to avoid the vibration to make the filter assembly produce the displacement, reduce the position accuracy of filter assembly for the bracket component.

Further, when the frequency and/or intensity of vibration is too large, the first flanging can rub and collide with the first mounting surface violently, and damage is easily caused to the filter assembly. At least one shock absorption piece is arranged on the first mounting surface, so that the first flanging does not directly contact with the first mounting surface, but is tightly attached to the shock absorption piece with the shock absorption function. The filtering component generates vibration and conducts the vibration to the first flanging, the vibration of the first flanging is relieved and weakened by the at least one shock absorption piece, the first mounting surface cannot rub or collide with the first flanging, the loss of the first mounting surface caused by vibration is avoided, and the service life of the filtering component is prolonged.

Further, the shock absorbing member is a rubber member. Understandably, the elasticity of rubber spare is good, can absorb most vibrations that filtering component and/or organism produced to play effectual shock attenuation effect, improve filtering component's life and performance. And the wearability of rubber spare is good, frequently moves into when shifting out the bracket component at the filter assembly, still can keep certain shock attenuation effect, improves the overall stability of food processor during operation.

In a possible technical solution, further, the filter assembly further includes: the third mounting piece is arranged on the connecting piece and can be connected with the filter piece; the fourth installed part sets up in filtering, and the fourth installed part can be connected with third installed part detachably.

In this aspect, the filter assembly includes a third mount and a fourth mount. The third installed part sets up on the connecting piece, and the fourth installed part setting is on filtering the wall face of piece one side towards the third installed part, third installed part and fourth installed part looks adaptation. Through the cooperation of third installed part and fourth installed part, can be connected filtering piece and connecting piece, and then make the connecting piece drive and filter a rotation.

Further, the third mounting part and the fourth mounting part are detachably connected. The connecting piece both can be connected on filtering the piece promptly, also can follow and filter and demolish, makes the connecting piece set up in filtering a piece department more in a flexible way, and the user of being convenient for clears up connecting piece and filter piece.

Through set up third installed part and fourth installed part respectively on connecting piece and filtration piece, make the cooperation of connecting piece accessible third installed part and fourth installed part, connect on filtering the piece. And, set up to detachably through the connected mode between with third installed part and the fourth installed part and connect to can connect or dismantle the connecting piece from filtering according to being suitable for the demand, make the connecting piece set up in a flexible way on filtering, promoted the convenience of use.

In a possible technical solution, further, the filtering assembly further includes: the surface cover is connected with the connecting piece and is positioned at the opening of the filter piece; the first liquid inlet is arranged on the surface cover and is communicated with the filter cavity of the filter piece.

In this technical scheme, among this technical scheme, the filter assembly still includes the face lid, and the face lid is connected with the connecting piece to locate the opening part of filtering the piece, the face is covered still to be equipped with the first inlet that communicates with the filter chamber of filtering the piece.

It will be appreciated that when the filter assembly is used for filtration, liquid flows into the liquid discharge passage between the filter member and the first housing, and if the liquid discharge passage is open on the side near the opening of the filter member, the liquid in the liquid discharge passage is liable to splash out of the filter assembly. Therefore, the face cover is arranged on the connecting piece and is arranged at the opening of the filter piece, so that the liquid in the liquid drainage channel is blocked, and the liquid is prevented from splashing out of the filter assembly.

The embodiment of the utility model provides a food processor sets up the face lid through the opening part at filtering piece, can play the effect of blockking to the liquid in the flowing back passageway, prevents outside the liquid splash filter assembly.

Furthermore, the surface cover is provided with an installation side cover which is arranged along the axial direction of the first liquid inlet

Extends, in particular, from the first inlet port into the filter cavity of the filter element. The first lifting piece is movably arranged on the mounting side cover. Movably set up first carrying on the installation side cap and draw the piece, first carrying draws the piece and can rotate relative to the installation side cap to can carry through first carrying and draw the piece and remove filter assembly wholly.

Specifically, the first lifting piece arranged on the installation side cover can rotate relative to the installation side cover, so that the first lifting piece can be rotated to a proper angle to facilitate grabbing when in use, and the first lifting piece can be rotated to another angle when not in use, so that the height of the first lifting piece protruding out of the filter assembly is reduced, and the occupied space is reduced.

In a possible technical solution, further, the filtering assembly further includes: the positioning seat is arranged on the first shell; the supporting shaft is arranged on the positioning seat, and at least part of the supporting shaft is inserted into the filtering piece; the communicating hole is arranged on the positioning seat and communicated with the first liquid discharge port.

In this technical scheme, filter assembly has still set up back shaft and positioning seat. Wherein, the positioning seat is arranged on the first shell and is positioned on the bottom wall of the first shell. The supporting shaft is arranged on the positioning seat and fixedly connected with the positioning seat. Wherein at least part of the support shaft is insertable into the filter element and the support shaft is clearance-fitted with the filter element.

Furthermore, a communication hole is also formed in the positioning seat and communicated with the first liquid discharge port. The liquid in the liquid discharge channel can be discharged from the first liquid discharge port through the communication hole. Specifically, the quantity of intercommunicating pore can be a plurality ofly, and a plurality of intercommunicating pores equipartition is in the circumference of positioning seat to make the liquid in the flowing back passageway discharge through the intercommunicating pore uniformly.

Further, still be provided with the axle sleeve on filtering the piece, this axle sleeve can with back shaft clearance fit, the back shaft passes above-mentioned axle sleeve to realize that the back shaft is spacing to filtering the piece, further make first casing spacing with filtering the piece.

Through set up the positioning seat on first casing to set up the back shaft on the positioning seat, accessible back shaft and filter clearance fit between the piece, confirm the position of filtering the piece in first cavity. That is, the filter member does not contact the inner wall surface of the first housing, and the filter member is supported and limited by the support shaft, so that a certain gap is formed between the filter member and the inner wall surface of the first housing. So, when filtering a rotation, can avoid filtering a piece and produce frictional force with first casing contact, prevent to filter a piece card and die in first casing, and then guarantee to filter a filter effect to solid-liquid mixture. Through set up the intercommunicating pore on the positioning seat, make the liquid accessible intercommunicating pore discharge from first drain port in the flowing back passageway to guarantee the normal flowing back of filter assembly.

In a possible technical solution, further, the filtering assembly further includes: the scraping piece is arranged on the supporting shaft, the scraping piece is arranged in the filtering piece, and at least part of the scraping piece can be in contact with the wall surface of the filtering piece.

In this technical scheme, filtering component still includes the scraping piece, and the scraping piece sets up inside filtering piece, lies in the back shaft, and the scraping piece has partial structure direct contact filtering component's internal face at least, and when filtering a relative scraping piece rotation, the scraping piece can scrape on filtering the inside wall of piece, will filter the impurity on the inside wall and scrape off. Specifically, because back shaft fixed mounting is on the positioning seat, the scraping piece sets up on the back shaft, when filtering a piece and filtering liquid, scraping piece and first casing keep motionless, filter a piece and rotate for first casing, and then realize filtering the relative rotation of piece and scraping piece to realize good scraping effect.

It will be understood that the operation of the scraper described above is particularly as follows: the solid-liquid mixture flows into the filtering component through the first liquid inlet, the filtering element rotates relative to the first shell and drives the solid-liquid mixture in the filtering component to rotate, the solid-liquid mixture in the filtering component is thrown out of the filtering element under the action of centrifugal force to realize solid-liquid separation, and impurities in the solid-liquid mixture are attached to the inner wall surface of the filtering element under the action of centrifugal force and self viscosity; and at least part of scraping piece directly contacts with the internal wall face of filtering piece, and scraping piece is constantly scraped on the internal wall face of filtering piece, scrapes the impurity of laminating on filtering piece inner wall and falls into inside filtering piece. The filtered liquid flows into the liquid discharge channel and is discharged through the first liquid discharge port.

Understandably, in the filtering process, the centrifugal force generated by the solid-liquid mixture to be filtered is related to the filtering rotating speed, and the faster the rotating speed is, the larger the centrifugal force generated by the solid-liquid mixture to be filtered is driven; similarly, the faster the relative rotation speed between the scraping piece and the filter piece is, the faster the scraping speed of the scraping piece on the inner wall surface of the filter piece is, and the better the filtering effect is. Specifically, the scraping member may be disposed on the support shaft and fixed relative to the first housing, the filter member may rotate relative to the first housing, the scraping member and the first housing may remain fixed during filtration, and the filter member may rotate relative to the scraping member and the first housing. In actual operation, when filtering different kinds of edible materials, select the different filter piece and the relative rotational speed of first casing to make the filter assembly all can reach good filter effect when eating the material to different and filter.

Through set up scraping piece in filtering component, set up scraping piece on the back shaft to make at least partial scraping piece and filter the piece wall and contact, when making filter the relative first casing rotation of piece, scraping piece can scrape the internal face that filters the piece, scrapes the impurity of laminating on filtering the piece inner wall, accelerates filtering speed, prevents to filter the passageway and blocks up, has strengthened the filter effect.

In a possible technical solution, further, the filter assembly further includes: the limiting groove is formed in the scraping piece, the end portion of the supporting shaft is provided with a limiting part matched with the limiting groove, and the scraping piece is clamped with the supporting shaft through the limiting part.

In this technical scheme, be provided with the spacing groove on the scraping spare body, the top of back shaft is provided with the locating part, the shape structure phase-match of the shape structure of above-mentioned spacing groove and above-mentioned locating part, and then makes the scraping spare pass through the spacing groove joint on the back shaft to reach scraping spare and the effect that the back shaft is relatively preserved motionless.

Specifically, when the back shaft is fixed to be set up on first casing, the scraping piece passes through spacing groove and locating part fixed connection post and supports epaxially, back shaft and scraping piece all keep motionless with first casing, that is to say, filtering component is when filtering the solid-liquid mixture, only filter and rotate, back shaft, scraping piece and first casing all keep motionless, utilize the rotation of filtering the piece to rub with the scraping piece, and then scrape impurity and fall to the realization is avoided impurity to block up and is filtered the hole on the filter.

In a possible solution, further, the scraping member comprises: the scraping piece body comprises at least one scraping arm extending along the inner wall surface of the filter piece; the scraping part is arranged on the scraping arm and is used for contacting with the inner wall surface of the filter piece; wherein, the scraping part comprises at least one of a hairbrush and an elastic scraper.

In this technical scheme, the scraping spare body includes at least one scraping arm, and the scraping arm extends along the internal face of filtering, and specifically, the scraping arm can be followed the diapire of filtering, and the center from the diapire extends to the periphery, extends to the opening direction of filtering again to realize filtering the scraping of filter diapire and lateral wall.

Further, still be provided with the scraping portion on the scraping arm, scraping portion direct and filter the internal wall face contact of piece. Therefore, the scraping piece body is arranged on the supporting shaft in the filtering component, the scraping piece body comprises at least one scraping arm, a scraping part used for contacting the inner wall surface of the filtering component is arranged on the scraping arm, and the scraping piece contacts the inner wall surface of the filtering component through the scraping part. When scraping piece and filter assembly carried out the relative rotation, scraping arm and scrape the scraping portion that sets up on the arm and filter the internal face relative rotation of piece, scraping portion scrapes the internal face of filtering the piece, because scrape the arm for following the structure that filters the internal face and extend, consequently, scrape the arm and can pass through the position that filters the hole through filtering that internal face all set up in the projection of filtering the piece internal face, scraping portion on the scraping arm also can scrape the filtration hole.

In particular, the scraping portion may take a number of different configurations, such as a brush or a resilient scraper. In actual operation, can be directed against different filtration impurity, filter piece, filtration hole, connect the scraping piece that has different structure scraping parts on the back shaft to reach better filter effect.

The embodiment of the utility model provides a filter assembly, scraping portion through setting up on the scraping arm that sets up on the above-mentioned scraping spare body and the scraping arm, can be in filtering process, carry out relative rotation along with scraping spare and filter assembly and scrape to the position that filters the filter pore all set up of filter internal face, prevent that impurity from blockking up and filtering the pore and reduce filtration efficiency, to different filtration liquid, different filtration impurity and scraping spare and filter assembly's relative speed, can adopt different scraping portion structures, in order to reach better scraping effect.

In a possible technical solution, further, the filter assembly further includes: a plurality of guiding gutters are arranged on the bottom wall of the first shell, and any guiding gutter in the plurality of guiding gutters is arranged towards the second liquid outlet.

In this embodiment, in order to prevent the liquid from generating a vortex in the liquid discharge passage, a plurality of flow guide grooves may be provided in the bottom wall of the first housing. Specifically, a plurality of guiding gutters are arranged on the bottom wall of the first shell, and any one of the guiding gutters is arranged towards the second liquid outlet. After the liquid is discharged into the liquid discharge channel from the filter holes, the liquid flows at a certain initial speed under the action of inertia, the flowing liquid impacts the guide groove, and the guide groove plays a role in disturbing flow on the liquid, so that the liquid is prevented from generating vortex in the liquid discharge channel.

Furthermore, the diversion trench can also play a diversion role on liquid, and the liquid is drained from the second liquid outlet through diversion.

The embodiment of the utility model provides a filter assembly sets up a plurality of guiding gutters through the diapire at first casing to liquid through the guiding gutter in to the drainage channel has played the effect of vortex, prevents that liquid from forming the vortex in the drainage channel, makes liquid discharge from filter assembly steadily. And the diversion trench can also play a diversion role on the liquid, and the liquid is drained from the second liquid outlet after being guided to flow.

In a possible technical solution, further, the filtering assembly further includes: the first ribs are positioned between the first shell and the filter element and arranged on the first shell and/or the filter element; wherein, a plurality of first ribs set up along the circumference interval of first casing, and the thickness of first rib is less than drainage channel's width.

In this technical scheme, still set up a plurality of first ribs in the drainage channel. It will be appreciated that in the relative rotational state of the filter assembly and the first housing, the solid-liquid mixture rotates with the filter element in the filter chamber to provide an initial velocity to the solid-liquid mixture. When liquid in the solid-liquid mixture is just discharged into the liquid discharge channel, the liquid keeps the same initial speed as the filtering component under the action of inertia, if external force is not applied to the liquid at the moment, the liquid is easy to form a vortex in the liquid discharge channel, and the liquid generating the vortex has a certain speed when being discharged from the liquid discharge port, so that the liquid is easy to splash in a container, and the slurry receiving effect is influenced.

It will be appreciated that in order to prevent the liquid from generating turbulence in the liquid discharge channel, a plurality of first ribs are provided in the liquid discharge channel, and in particular, the first ribs may be provided on the first housing, on the filter element, or on both. After liquid is discharged into the liquid discharge channel from the filter holes, the liquid flows at a certain initial speed under the action of inertia, the flowing liquid impacts the first ribs, and the first ribs have a turbulent flow effect on the liquid, so that the liquid is prevented from generating eddy currents in the liquid discharge channel.

Specifically, a plurality of first ribs set up along the circumference interval of first casing to make first rib carry out the vortex to liquid in the flowing back passageway balancedly. And, for guaranteeing first rib and first casing, or leave the clearance between first rib and the filter piece to guarantee that liquid can normally flow in the flowing back passageway, injectd the thickness of first rib, specifically, the thickness of first rib is less than the width of flowing back passageway, thereby guarantees the unobstructed of flowing back passageway, avoids first rib to block up the flowing back passageway.

The embodiment of the utility model provides a food processor is through setting up a plurality of first ribs in the drainage channel to liquid through first rib in to the drainage channel has played the effect of vortex, prevents that liquid from forming the vortex in, makes liquid discharge from filtering component steadily. And, through the width for being less than drainage channel with the thickness of first rib to make first rib and filter or have the clearance between the first casing, prevent that first rib from blockking up drainage channel, guarantee drainage channel's unobstructed.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 shows one of the machine schematic diagrams of food processing in one embodiment of the present invention;

FIG. 2 showsbase:Sub>A cross-sectional view of the food processor of FIG. 25 taken along section A-A;

FIG. 3 illustrates one of the structural schematic views of the present invention showing the filter assembly disposed on the bracket assembly;

FIG. 4 illustrates one of the structural schematic diagrams of the bracket assembly and the filter assembly in one embodiment of the invention;

FIG. 5 illustrates a second schematic structural view of a bracket assembly and a filter assembly in accordance with an embodiment of the present invention;

fig. 6 illustrates one of the exploded views of a bracket assembly in an embodiment of the present invention;

FIG. 7 illustrates one of the schematic structural views of a filter assembly in one embodiment of the invention;

fig. 8 shows a second schematic structural view of a filter assembly according to an embodiment of the present invention;

fig. 9 shows one of the exploded views of a filter assembly in an embodiment of the invention;

fig. 10 shows a schematic view of a third mounting member in an embodiment of the invention;

fig. 11 shows a third schematic view of a filter assembly according to an embodiment of the present invention;

fig. 12 shows one of the structural schematics of the filter element in an embodiment of the invention;

fig. 13 is a third schematic view of a bracket assembly and a filter assembly according to an embodiment of the present invention;

fig. 14 shows a second exploded view of a filter assembly in an embodiment of the invention;

fig. 15 shows a schematic structural view of the first housing in an embodiment of the invention;

fig. 16 shows one of the constructive schematics of the scraper member in an embodiment of the invention;

fig. 17 shows a second schematic structural view of the scraper member according to an embodiment of the present invention;

fig. 18 shows a third schematic view of a scraper according to an embodiment of the present invention;

fig. 19 shows a cross-sectional view of the scraper member of fig. 20 along the D-D section;

fig. 20 shows a fourth embodiment of the scraper according to the present invention;

fig. 21 shows a third exploded view of a filter assembly in an embodiment of the invention;

FIG. 22 illustrates a cross-sectional view of the filter assembly of one embodiment of FIG. 32 taken along section C-C;

FIG. 23 is an enlarged schematic view of section K of the filter assembly of FIG. 22;

FIG. 24 is an enlarged schematic view of section I of the filter assembly of FIG. 2;

FIG. 25 illustrates a top view of a filter assembly in an embodiment of the invention;

fig. 26 shows a fourth schematic structural view of a filter assembly in an embodiment of the invention;

fig. 27 shows a second schematic structural view of the food processor according to an embodiment of the present invention;

fig. 28 shows a schematic structural view of the face cover in an embodiment of the present invention;

fig. 29 is a third schematic view of the food processor according to an embodiment of the present invention;

FIG. 30 shows a fourth schematic view of the food processor according to an embodiment of the present invention;

fig. 31 shows a fifth embodiment of the present invention, which is a schematic structural diagram of a food processor;

FIG. 32 shows a cross-sectional view of the filter assembly of FIG. 2 taken along section B-B;

fig. 33 shows an exploded view of a food processor in an embodiment of the invention;

fig. 34 shows a sixth schematic view of the food processor according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 34 is:

100 food processor, 110 machine body, 120 crushing device, 121 crushing cavity, 122 first drainage port, 130 bracket component, 131 accommodating space, 132 first mounting component, 133 screw, 134 first transmission component, 135 first avoiding gap, 136 first surface, 137 second surface, 138 first mounting surface, 139 first positioning component, 140 shock-absorbing component, 141 driving motor, 142 output shaft, 150 filtering component, 151 first liquid inlet, 152 filter component, 153 second mounting component, 154 first shell, 155 first cavity, 156 second drainage port, 157 second avoiding gap, 158 connecting component, 159 second transmission component, 160 body, 161 open end, 162 first flange, 163 mounting wall, 164 second positioning component, 165 third mounting component, 166 fourth mounting component, 167, 168 support shaft, communication hole, 170 scraping component, 171 spacing groove, 172 limiting part, 173 scraping part, 174 scraping arm, 175 diversion groove, 176 first rib, 177, 178 drainage channel, 178 surface cover, 179 filter cavity, 180 shaft sleeve.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A food processor provided in accordance with some embodiments of the present invention is described below with reference to fig. 1-34.

Example one

As shown in fig. 1, 8, 26, 27, 29, 30, 31 and 34, an embodiment of the first aspect of the present invention provides a food processor 100, where the food processor 100 includes: a body 110 provided with a first mount 132; the crushing device 120 is arranged in the machine body 110, the crushing device 120 is provided with a crushing cavity 121, and the crushing device 120 comprises a first liquid discharge port 122 communicated with the crushing cavity 121; a filter assembly 150 provided with a second mounting member 153, wherein the second mounting member 153 can be detachably connected to the first mounting member 132, the filter assembly 150 is detachably disposed on the machine body 110 through the second mounting member 153, the filter assembly 150 has a first liquid inlet 151 and a second liquid outlet 156, the first liquid inlet 151 is used for receiving liquid flowing out from the first liquid outlet 122, the second liquid outlet 156 is communicated with the outside, a liquid receiving space is arranged below the second liquid outlet 156, and the filter assembly 150 includes a rotatable filter element 152; the driving assembly is disposed on the machine body 110, and the driving assembly can drive the filter 152 to rotate.

The utility model provides a food processor 100, including organism 110, reducing mechanism 120, filter assembly 150 and drive assembly. The crushing device 120 is disposed in the body 110 and is configured to crush the food material into fine granular solids. The crushing apparatus 120 has a crushing chamber 121, and after food is placed in the crushing chamber 121, the crushing apparatus 120 processes the food material to crush it.

Further, a filter assembly 150 is disposed in the machine body 110 for filtering the solid-liquid mixture in the crushing chamber 121. In a case where the filter assembly 150 is disposed in the machine body 110, the pulverizing chamber 121 communicates with the first liquid inlet 151 of the filter assembly 150. Specifically, the crushing cavity 121 is provided with a first liquid discharge port 122 for discharging the solid-liquid mixture in the crushing cavity 121, and the first liquid discharge port 122 of the crushing cavity 121 is communicated with a first liquid inlet 151 of the filter assembly 150 for receiving the solid-liquid mixture flowing out from the first liquid discharge port 122, so that the solid-liquid mixture which has been crushed in the crushing cavity 121 flows into the filter assembly 150 and is filtered by the filter assembly 150.

The filtering assembly 150 is detachably connected to the body 110, and the filtering assembly 150 can be moved into or out of the body 110, so that the filtering assembly 150 and the body 110 can be flexibly mounted. When food needs to be filtered, the filtering assembly 150 is moved into the body 110 and is installed with the body 110, so that it can filter solid-liquid mixture. When the filter assembly 150 needs to be cleaned, the filter assembly 150 is moved out of the machine body 110, so that the filter assembly 150 can be cleaned conveniently.

Further, first mount 132 is adapted to second mount 153 to enable removable connection of filter assembly 150 to frame assembly 130. Thus, by providing the first and second mounting members 132 and 153, on the one hand, the filter assembly 150 can be detachably connected to the bracket assembly 130, so that the filter assembly 150 can be moved into or removed from the bracket assembly 130. On the other hand, the connection stability of the filtering assembly 150 and the bracket assembly 130 can be improved, so that the filtering assembly 150 is more stable when being connected with the bracket assembly 130, and the normal operation of the food processor 100 is ensured.

By providing the second mounting member 153 on the filter assembly 150 to be matched with the first mounting member 132, the filter assembly 150 can be connected to the bracket assembly 130 through the matching of the first mounting member 132 and the second mounting member 153. Moreover, the second mounting part 153 is detachably connected with the first mounting part 132, so that the filtering component 150 can be connected or detached from the bracket component 130 according to the application requirement, the filtering component 150 is flexibly arranged on the bracket component 130, the application convenience is improved, and the filtering component 150 is convenient to clean.

Specifically, for convenience of description, the filter assembly 150 is in the first position when connected to the body 110, and the filter assembly 150 is in the second position when separated from the body 110. Under the condition that the filtering assembly 150 is at the first position, the first liquid inlet 151 is communicated with the first liquid outlet 122, at this time, the filtering assembly 150 can be in a working state, food materials to be filtered are fed into the filtering assembly 150 through the first liquid inlet 151, and after the filtering assembly 150 finishes filtering, the filtered food materials are discharged through the second liquid outlet 156.

Further, the second liquid discharge port 156 of the filter assembly 150 is communicated with the outside, and after the solid-liquid mixture is subjected to solid-liquid separation by the filter assembly 150, the filtered liquid can be discharged to the outside through the second liquid discharge port 156. The liquid receiving space is arranged below the second liquid outlet 156, and liquid filtered by the filtering assembly 150 can be discharged to the liquid receiving space through the second liquid outlet 156, so that the filtered liquid is collected. Specifically, food in the crushing cavity 121 is crushed to form a solid-liquid mixture, the solid-liquid mixture can be discharged through the first liquid outlet 122, and enters the filter assembly 150 through the first liquid inlet 151, the filter assembly 150 filters the solid-liquid mixture, namely, the solid-liquid separation is performed, solids in the solid-liquid mixture are left in the filter assembly 150, and the filtered solid-liquid mixture is discharged to the liquid receiving space through the second liquid outlet 156, so that an automatic filtering effect of the solid-liquid mixture is realized.

Furthermore, the filtering assembly 150 further includes a rotatable filtering member 152, and the filtering member 152 can rotate around its center as a rotation axis to drive the solid-liquid mixture to be filtered. Specifically, when the solid-liquid mixture flows into the filter assembly 150, the filter element 152 starts to rotate, and the solid-liquid mixture is thrown out by the centrifugal force generated by the rotation, so that the solid-liquid mixture is subjected to solid-liquid separation, and an automatic filtering effect is realized.

Further, the food processor 100 further comprises a driving assembly, the driving assembly is disposed in the body 110 and can be connected to the filtering member 152, so that the driving filtering member 152 rotates, the filtering member 152 can rotate by using the center of the driving member as a rotating shaft, and then the solid-liquid mixture is filtered, thereby realizing the automatic filtering of the solid-liquid mixture. It will be appreciated that in the static state, the liquid in the filter assembly 150 is discharged out of the filter element 152 by its own hydraulic pressure to separate the liquid from the impurities, but the liquid is discharged slowly only by the hydraulic action, and the liquid is difficult to discharge when the remaining liquid is small, so that a part of the liquid cannot be discharged. When the driving assembly acts on the filtering assembly 150, the driving assembly drives the filtering element 152 to rotate by taking the center of the driving assembly as a rotating shaft, centrifugal force is generated when the filtering element 152 rotates, and liquid in the filtering assembly 150 is thrown out of the filtering element 152 under the action of the centrifugal force, so that the liquid is discharged out of the filtering element 150 at an accelerated speed, the speed of separating the liquid from impurities is accelerated, and the residual quantity of the liquid in the filtering element 152 is reduced.

Through setting up drive assembly in organism 110, the drive filters the center that uses self and rotates as the pivot, makes pivoted filter piece produce centrifugal force, accelerates the filter rate to liquid on the one hand, and on the other hand makes liquid discharge from filter assembly 150 under the effect of centrifugal force, reduces the residual volume of liquid in the filter assembly 150, has improved filter assembly 150's work efficiency to the filter effect has been improved. Moreover, by adjusting the operating power of the driving assembly, the filtering assembly 150 can rotate at different rotating speeds, so that the filtering assembly 150 can achieve a good filtering effect when filtering different food materials.

The operation of the food processor 100 is as follows: the food is put in the pulverizing chamber 121 in the body 110 to be pulverized to pulverize the food into a solid-liquid mixture containing food waste. The solid-liquid mixture flows into the filter assembly 150 through the first liquid inlet 151, at this time, the driving assembly is started to drive the filter element 152 in the filter assembly 150 to rotate by taking the center of the filter element as a rotating shaft, the liquid in the solid-liquid mixture in the filter assembly 150 is thrown out of the filter assembly 150 under the action of centrifugal force, impurities remain in the filter assembly 150, solid-liquid separation of the solid-liquid mixture is realized, and the filtered liquid is discharged to the liquid receiving space through the second liquid outlet 156.

It will be appreciated that the magnitude of the centrifugal force generated by the filter elements 152 is related to the rotational speed of the filter elements 152 themselves, and that the higher the rotational speed of the filter elements 152, the greater the centrifugal force generated thereby, and the better the filtration. Therefore, the filter elements 152 can rotate at different rotation speeds by adjusting the operating power of the driving assembly, so as to generate different filtering effects, and when different kinds of food materials are filtered, the corresponding rotation speeds are selected, so that the filtering assembly 150 can achieve good filtering effects when filtering different food materials.

Furthermore, the mesh number of the filter net in the filter member 152 is between 50 mesh and 120 mesh, and the optimum mesh number is 80 mesh.

Further, the filter assembly 150 is movably disposed in the food processor 100, and the filter assembly 150 can be adjusted to a proper position as required. Specifically, with filter assembly 150 in the first position, first inlet port 151 is in communication with second outlet port 156; with the filter assembly 150 in the second position, the first liquid inlet 151 is separated from the second liquid outlet 156.

Through set up reducing mechanism 120, filter assembly 150 and drive assembly in food processor 100, realized dealing with food material's crushing and filtration's one-stop-type, need not to filter the liquid that contains impurity after handling alone once more and can obtain not containing impurity or containing the extremely low liquid of impurity content, easy operation, it is convenient to use, promotes user experience. The filter assembly 150 effectively filters the solid-liquid mixture under the working condition; in the non-operational condition, the filtering component 150 can be detached from the body and away from the body 110 of the food processor 100, which is convenient for the user to clean the filtering component 150 and improves the user experience.

Example 2:

as shown in fig. 3, 4, 5 and 13, embodiment 2 provides a food processor 100 based on embodiment 1, and the filter assembly 150 can be moved out of the food processor 100 in a radial direction of the food processor 100 with the second mount 153 and the first mount 132 in a separated state.

In this embodiment, when the second mounting part 153 and the first mounting part 132 are in a separated state, that is, the filter assembly 150 can be detached and removed from the body 110, the filter assembly 150 can be removed from the food processor 100 in a radial direction or a width direction, that is, the filter assembly 150 is removed from the food processor 100 in an extending direction of the cross-section of the food processor 100, so that the filter assembly 150 can be conveniently cleaned.

It can be understood that, when the second mounting part 153 and the first mounting part 132 are in the separated state, the first mounting part 132 disposed on the machine body 110 can be exposed out of the machine body 110, and when a user needs to remount the filter assembly 150 on the machine body 110, the first mounting part 132 can be clearly seen from the side of the machine body 110, so that the filter assembly 150 can be more conveniently inserted into the machine body 110 from the radial direction and the second mounting part 153 on the filter assembly 150 and the first mounting part 132 can be accurately aligned, thereby facilitating the user to mount the filter assembly 150.

It should be noted that the filter assembly 150 can be removed from the food processor 100 in the radial direction or the width direction without removing the food processor 100 from the height direction of the food processor 100, and the internal mechanical or electronic components can be reasonably arranged in the food processor 100, so that the food processor 100 has a more compact structure and a smaller volume and space consumption.

Example 3:

as shown in fig. 3, 4, 5 and 13, embodiment 2 provides a food processor 100 on the basis of embodiment 1, including: the bracket assembly 130 is disposed on the body 110, the first mounting member 132 is disposed on the bracket assembly 130, the filtering assembly 150 can be detachably connected to the bracket assembly 130, the bracket assembly 130 forms an accommodating space 131, and the filtering assembly 150 can move into or out of the accommodating space 131.

In this embodiment, the bracket assembly 130 is disposed in the body 110, and the filtering assembly 150 can be detachably connected to the bracket assembly 130, so that the filtering assembly 150 can be separated from the bracket assembly 130, and the first mounting element 132 is located in the accommodating space. The bracket assembly 130 is formed with an accommodating space 131, the accommodating space 131 corresponds to the shape of the filtering assembly 150, and the filtering assembly 150 can move into or out of the accommodating space 131 to receive the solid-liquid mixture in the crushing cavity 121, so as to filter the solid-liquid mixture. It can be understood that, when the filter assembly 150 moves into the accommodating space 131, the accommodating space 131 can provide a limit for the filter assembly 150, so that the filter assembly 150 can correctly enter the bracket assembly 130, and the first liquid inlet 151 and the first liquid outlet 122 are aligned to receive the solid-liquid mixture.

Specifically, filter assembly 150 may be positioned such that first inlet port 151 and second outlet port 156 are in communication, at which time filter assembly 150 may be in an operational state. In order to ensure that the filtering assembly 150 is stable in the operating state, the bracket assembly 130 is formed with an accommodating space 131, the filtering assembly 150 and the bracket assembly 130 are in a separable state, and when the filtering assembly 150 is located at the first position, the filtering assembly 150 is located in the accommodating space 131 and is mounted on the bracket assembly 130. When the filter assembly 150 is in the second position, the filter assembly 150 is detached from the bracket assembly 130, so that the filter assembly 150 can be removed from the accommodating space 131.

By arranging the bracket assembly 130 on the body 110 and forming the accommodating space 131, the filtering assembly 150 is arranged in the accommodating space 131 under the working state, so that the filtering assembly 150 is kept stable under the working state, and the filtering assembly 150 can work normally. When the filter assembly 150 is located at the second position, the filter assembly 150 is separated from the accommodating space 131, so that the user can clean the filter assembly 150 conveniently, and the use convenience is improved.

Example 4:

as shown in fig. 4, 5, 6 and 13, on the basis of any of the above embodiments, embodiment 4 provides a food processor 100, wherein the driving assembly comprises: a driving motor 141 disposed in the bracket assembly 130; a first transmission member 134 connected to an output end of the driving motor 141; the bracket assembly 130 is provided with a first avoidance gap 135, and at least a portion of the first transmission member 134 is exposed out of the first avoidance gap 135.

In this embodiment, the drive assembly includes a drive motor 141, and the drive motor 141 is disposed within the carriage assembly 130 for providing a source of drive torque. The driving motor 141 is provided with an output end, and the first transmission member 134 is connected with the output end of the driving motor 141, so that the driving motor 141 can drive the first transmission member 134 to rotate. The bracket assembly 130 is provided with a first notch, the first notch is matched with the shape of the first transmission member 134, and at least a part of the first transmission member 134 can be exposed out of the first avoiding notch 135, that is, at least a part of the first transmission member 134 can enter the filtering assembly 150 and is connected with the filtering member 152, so as to drive the filtering member 152 to rotate, thereby filtering the liquid.

Further, a first avoiding notch 135 is formed in the bracket assembly 130, the first avoiding notch 135 is arranged towards the position where the first transmission member 134 is located, and at least a part of the first transmission member 134 can be exposed through the first avoiding notch 135, so that the first transmission member 134 can be in contact with the filter member 152, and the filter member 152 can be driven by the first transmission member 134.

The driving of the filter elements 152 by the driving assembly is as follows: the driving motor 141 operates and drives the output end to rotate, the first transmission piece 134 is connected with the output end, the driving motor 141 transmits driving torque to the first transmission piece 134 through the output end, the first transmission piece 134 can be matched with the filter piece 152 for use, the driving torque is transmitted to the filter piece 152 through the first transmission piece 134, and the filter piece 152 starts to rotate along with the driving torque and generates centrifugal force. Thus, the liquid in the filter assembly 150 is thrown out by centrifugal force, and impurities in the liquid are retained in the filter member 152, thereby filtering the liquid.

Further, as shown in fig. 6, the bracket assembly 130 includes a second cavity and a motor cavity bottom cover, and the driving motor 141 is disposed in the second cavity. The motor cavity bottom cover is used for covering the second cavity. The main body is further provided with a plurality of second connectors 158 for connecting the main body and the motor chamber bottom cover. The second connector 158 may be a screw 133.

As shown in fig. 2, 20, 21 and 24, an output shaft 142 is provided at an output end of the driving motor 141, and a limit table is provided at a side of the output shaft 142 close to the driving motor 141. The driving assembly further comprises a clamp spring, and the clamp spring is arranged on one side, far away from the driving motor 141, of the relative limiting table. The first transmission member 134 is disposed on the output shaft 142, one end of the first transmission member 134 abuts against the limiting platform, and the other end of the first transmission member 134 is limited by the snap spring to prevent the first transmission member 134 from falling off the output shaft 142, so that the first transmission member 134 is connected with the driving motor 141.

Further, the driving motor 141 may be set to different rotation speeds. It can be understood that different solid-liquid mixtures have different filtering difficulties and different required centrifugal force. Accordingly, the driving motor 141 may be set to different rotation speeds corresponding to different liquids to be filtered, to improve the filtering effect.

Further, the rotation speed of the driving motor 141 driving the filter assembly 150 to rotate is greater than or equal to 50rpm and less than or equal to 2000rpm.

In this embodiment, the driving motor 141 drives the filter assembly 150 to rotate at a certain rotation speed. It will be appreciated that the filter elements 152 generate a certain amount of noise during rotation, the higher the speed of rotation, the greater the noise. The centrifugal force of the filter elements 152 is also related to the rotational speed, the faster the rotational speed, the greater the centrifugal force, and the higher the filtering effect. In order to balance the relationship between the filtering effect of the filter member 152 and the noise, the rotation speed of the filter member 152 is thus limited to the range of 50rpm to 2000rpm.

The first transmission piece 134 is arranged in the driving assembly, and the first transmission piece 134 is matched with the second transmission piece 159 of the filter piece 152, so that the driving action of the driving assembly on the filter piece 152 is realized. By limiting the rotation speed of the filter element 152 to be within the range of 50rpm to 2000rpm, it can be ensured that the filter element 152 rotates at a certain rotation speed, so that the centrifugal force of the filter element 152 can meet the filtering requirement, and the noise of the filter assembly 150 can be ensured to be within a reasonable range, and the influence on users can be avoided.

Through set up first transmission piece 134 in drive assembly to make first transmission piece 134 can drive and filter piece 152, realized drive assembly to filtering the drive effect of piece 152, this kind of drive mode is simple reliable, and occupation space is little, and work efficiency is high. And set up first dodge breach 135 on bracket component 130, make first transmission piece 134 accessible first dodge breach 135 expose and contact with filtering component 150, realize first transmission piece 134 to filtering component 150's drive, and then realize driving filtering component 150 through drive assembly so that filter 152 uses the center of self to rotate as the pivot, and then realize the filtration to liquid, satisfy automatic filter effect.

Example 5:

as shown in fig. 4, 5, 7, 8 and 9, embodiment 5 provides a food processor 100 based on any of the above embodiments, wherein the filtering assembly 150 comprises: a first housing 154, the first housing 154 including a first cavity 155 and a second drain port 156, the filter 152 being disposed in the first cavity 155; the second avoiding notch 157 is disposed in the first housing 154, and at least a portion of the first transmission member 134 can drive the filter member 152 to rotate through the first avoiding notch 135 and the second avoiding notch 157.

In this embodiment, the first housing 154 includes a first cavity 155 and a second drain port 156. The filter element 152 is disposed in the first cavity 155, the first cavity 155 is communicated with the first liquid inlet 151, the solid-liquid mixture in the crushing cavity 121 can flow into the first cavity 155 through the first liquid inlet 151, and the liquid in the first cavity 155 is thrown out by driving the filter element 152 to rotate and generate a centrifugal force, so as to filter the solid-liquid mixture. The first cavity 155 is also communicated with the second liquid outlet 156, and the solid-liquid mixture can be discharged to the outside through the second liquid outlet 156 after being filtered in the first cavity 155.

Further, a second avoidance gap 157 is disposed on the first housing 154 and corresponds to the first avoidance gap 135, so that at least a portion of the first transmission member 134 can enter the second avoidance gap 157 through the first avoidance gap 135 and is connected to the filter member 152. Thus, the first transmission member 134 can transmit the driving torque to the filter member 152, and drive the filter member 152 to rotate relative to the first housing 154, so as to throw out the liquid in the first cavity 155, thereby realizing the filtration of the liquid and realizing the automatic filtration effect.

In particular, a structural element that can be driven by the first transmission element can be provided on the filter element, so that the first transmission element can drive the filter element in rotation.

The embodiment of the utility model provides a food processor 100 dodges breach 157 through setting up the second on first casing 154, makes first transmission piece 134 can dodge breach 135 and second through first and dodge breach 157 and stretch into first casing 154 to be connected with filtering piece 152, thereby the drive filters piece 152 and rotates, and then the realization is to the filtration of liquid.

Example 6:

as shown in fig. 5, 9, 10, 21 and 32, embodiment 6 provides the food processor 100 based on any one of the above embodiments, wherein the filtering assembly 150 further comprises: a connector 158 detachably connected to the filter 152; the second transmission element 159 is disposed on the connecting element 158, and the second transmission element 159 can drive the filter element 152 to rotate relative to the first casing 154 under the driving of the first transmission element 134.

In this embodiment, filter assembly 150 further includes a connector 158, and connector 158 is removably connectable to filter 152. The second transmission member 159 is disposed on the connecting member 158, and can drive the filtering member 152 to rotate via the connecting member 158. The first transmission member 134 is adapted to the second transmission member 159, and the first transmission member 134 can transmit the driving torque to the second transmission member 159, so as to drive the filter element 152 to rotate. Specifically, the driving motor 141 operates and outputs torque to the first transmission piece 134, the first transmission piece 134 transmits the torque to the second transmission piece 159, the second transmission piece 159 is arranged on the connecting piece 158, and the connecting piece 158 is connected with the filter piece 152, so that the torque is finally transmitted to the filter piece 152, the filter piece 152 can rotate relative to the first shell 154, the liquid in the first shell 154 is driven and thrown out, solid-liquid separation of a solid-liquid mixture is realized, and the filtering effect of the liquid is ensured.

As shown in fig. 23, the fitting clearance of the second transmission member 159 and the first housing 154 in the vertical direction is a, and the size of a is in the range of 0.2mm to 15mm, preferably 1mm; the fitting clearance of the second transmission member 159 and the first housing 154 in the horizontal direction is c, and the size of c ranges from 0.1mm to 5mm, and preferably 0.2mm.

Further, the first transmission member 134 and the second transmission member 159 are gears. The gear transmission is beneficial to the transmission of the driving torque, so that the loss of the driving torque is smaller, and the transmission efficiency is improved.

Further, the first transmission member 134 is a first transmission gear, the second transmission member 159 is a second transmission gear, and the transmission ratio of the first transmission gear to the second transmission gear is greater than or equal to 1/10 and less than or equal to 1.

In this embodiment, the first transmission member 134 and the second transmission member 159 are both gears. Specifically, the first transmission member 134 is a first transmission gear, and the second transmission member 159 is a second transmission gear. The transmission of the driving torque is realized through the meshing of the first transmission gear and the second transmission gear. It can understand, through the number of teeth of the gear of adjustment intermeshing, can adjust the drive ratio of gear, the utility model discloses well first drive gear and second drive gear's drive ratio more than or equal to 1/10 less than or equal to 1, through the cooperation of first drive gear and second drive gear promptly, the rotational speed that transmits to filter assembly 150 increases for driving motor 141 self rotational speed to some extent. The magnitude of the centrifugal force is related to the rotational speed, the greater the centrifugal force.

The transmission ratio of the first transmission gear to the second transmission gear is preferably 1/2.

By disposing the second transmission element 159 on the connecting element 158 and detachably connecting the connecting element 158 and the filter element 152, the driving torque of the first transmission element 134 can be transmitted to the filter element 152 through the second transmission element 159, so that the filter element 152 can rotate relative to the first housing 154, thereby filtering the liquid.

Example 7:

as shown in fig. 5, 7, 11 and 15, on the basis of any of the above embodiments, embodiment 7 provides the food processor 100, wherein the first housing 154 further includes: a body 160, the body 160 having an open end 161; a first flange 162 disposed at the open end 161 of the body 160; the mounting wall 163 is connected with the first flange 162, the mounting wall 163 extends in a direction away from the second liquid outlet 156, the second avoidance notch 157 is disposed on the mounting wall 163, and the first transmission member 134 can drive the second transmission member 159 to rotate through the second avoidance notch 157.

In this embodiment, the first housing 154 further includes a body 160, a first flange 162, and a mounting wall 163. The body 160 is provided with an open end 161, the liquid enters the body 160 through the open end 161, and the filter 152 and other components can enter the body 160 through the open end 161 and be installed. The first flange 162 is disposed at the opening end 161, and the mounting wall 163 is connected to the first flange 162 and forms an included angle with the first flange 162. The mounting wall 163 extends in a direction away from the second liquid outlet 156, the second avoiding notch 157 is disposed on the mounting wall 163, and the first transmission member 134 can enter the main body 160 through the second notch on the mounting wall 163, and is connected to the second transmission member 159, so as to drive the filter member 152 to rotate.

Example 8:

as shown in fig. 5, 30, 31 and 33, embodiment 8 provides a food processor 100 based on any of the above embodiments, wherein the bracket assembly 130 comprises: the first surface 136 and the second surface 137, the first surface 136 and the second surface 137 face the filter assembly 150, the second surface 137 is far away from the filter assembly 150 compared with the first surface 136, the first mounting surface 138 is connected between the first surface 136 and the second surface 137, and the first surface 136, the second surface 137 and the first mounting surface 138 define the accommodating space 131; first flange 162 overlaps first mounting surface 138.

In this embodiment, the bracket assembly 130 includes a first surface 136 and a second surface 137. Wherein the first surface 136 and the second surface 137 face the filter assembly 150, and the second surface 137 is far away from the filter assembly 150 than the first surface 136, i.e. the second surface 137 is closer to the housing 110, so that the first surface 136 and the second surface 137 form two side "steps" of a step-type wall surface. In order to connect the first surface 136 and the second surface 137, a first mounting surface 138 is further disposed between the first surface 136 and the second surface 137, and both ends of the first mounting surface 138 are connected to the first surface 136 and the second surface 137, respectively. Thus, the first surface 136, the second surface 137 and the first mounting surface 138 enclose an accommodating space 131, and the accommodating space 131 is adapted to the shape of the filter assembly 150. When the filter assembly 150 moves into the accommodating space 131, the first surface 136, the second surface 137 and the first mounting surface 138 can limit the position of the filter assembly 150, so that the filter assembly 150 can move into the accommodating space 131 correctly.

Further, the first flange 162 is overlapped on the first mounting surface 138, when the filter assembly 150 moves into the accommodating space 131, the first flange 162 is overlapped on the first mounting surface 138, and the first mounting surface 138 abuts against the first flange 162, so that the first housing 154 is limited. On the other hand, the first mounting surface 138 also supports the first flange 162, so as to support and limit the first housing 154, thereby improving the stability of the filter assembly 150 in operation.

The first surface 136, the second surface 137 and the first mounting surface 138 define a receiving space 131, so that the filter assembly 150 can move in and out of the receiving space 131, when the filter assembly 150 moves in the receiving space 131, the first flange 162 is overlapped on the first mounting surface 138, a limiting effect on the first housing 154 is achieved, and the displacement movement of the first housing 154 is prevented. And the first mounting surface 138 plays a role in supporting the filter assembly 150, improving the stability of the filter assembly 150 in operation and ensuring the normal operation of the food processor 100.

Further, the first mounting member 132 may be disposed on the first mounting surface 138.

Example 9:

as shown in fig. 4 and 11, on the basis of any of the above embodiments, embodiment 9 provides a food processor 100, further comprising: a first positioning member 139 disposed on the first mounting surface 138; the second positioning element 164 is disposed on the first flange 162, and the second positioning element 164 is in spacing fit with the first positioning element 139.

In this embodiment, to limit circumferential rotation of the first housing 154, a first positioning member 139 is provided on the first mounting surface 138, and a second positioning member 164 is provided on the first flange 162. Specifically, the second positioning element 164 is disposed on a side of the first flange 162 facing the first mounting surface 138, and the first positioning element 139 is matched with the second positioning element 164, and the two are matched with each other. It can be understood that when the filter assembly 150 moves into the accommodating space 131, the first positioning element 139 on the first mounting surface 138 and the second positioning element 164 of the first flange 162 cooperate with each other, so as to limit the first housing 154 in the circumferential direction, prevent the first housing 154 from rotating in the circumferential direction, and further limit the position of the filter assembly 150 in the accommodating space 131.

Further, the number of the first positioning members 139 is at least one, and the number of the second positioning members 164 is equal to the number of the first positioning members 139.

Further, the number of the first positioning elements 139 and the second positioning elements 164 may be 2, the number of the second positioning elements 164 is also 2, and the positions of the first positioning elements 139 correspond to the positions of the second positioning elements 164. When the filter assembly 150 moves into the accommodating space 131, the first positioning element 139 cooperates with the second positioning element 164 to limit the position of the filter assembly 150 in the accommodating space 131, so that the filter assembly 150 and the bracket assembly 130 are correctly installed, and the first transmission element 134 can contact with the second transmission element 159 to drive the second transmission element 159. On the other hand, the stability of the filter assembly 150 in the accommodating space 131 is improved, and the stability of the filter assembly 150 during operation is further improved by the mutual matching of the first positioning part 139 and the second positioning part 164.

Through set up first setting element 139 and second setting element 164 on first installation face 138 and first turn-ups 162 respectively to the realization is limited along the circumferencial direction to first casing 154, and then prescribes a limit to the position of filter assembly 150 in accommodation space 131, improves filter assembly 150 stability of operation, guarantees filter assembly 150 normal operating.

Example 10:

as shown in fig. 4 and 11, based on any of the above embodiments, embodiment 10 provides a food processor 100, wherein the second positioning member 164 is disposed in a recess on a surface of the first flange 162 facing the first mounting surface 138, and a depth of the second positioning member 164 is smaller than a thickness of the first flange 162; the first detent 139 is configured as a boss.

In this embodiment, the second positioning element 164 is a groove on the surface of the first flange 162 facing the first mounting surface 138, the first positioning element 139 is a boss, and the second positioning element 164 and the first positioning element 139 can be used in a matching manner, that is, the second positioning element 164 and the first positioning element 139 are matched in a concave-convex manner. The groove depth of the groove forming the second positioning member 164 is smaller than the thickness of the first flange 162, that is, the groove forming the second positioning member 164 does not penetrate through the first flange 162.

The second positioning element 164 is arranged in a groove on the surface of the first flange 162 facing the first mounting surface 138, and the first positioning element 139 is arranged as a boss, so that the second positioning element 164 and the first positioning element 139 are in concave-convex fit to realize positioning of the first housing 154, the position of the first housing 154 is relatively fixed, and the positioning accuracy of the first housing 154 is improved.

Example 11:

as shown in fig. 4, 6 and 13, on the basis of any of the above embodiments, embodiment 11 provides a food processor 100, further comprising: at least one shock absorber 140 is arranged on the first mounting surface 138 or the first flange 162, and the at least one shock absorber 140 is located between the first mounting surface 138 and the first flange 162.

In this embodiment, the food processor 100 further includes at least one shock absorbing member 140 disposed on the first mounting surface 138 or the first flange 162 between the first mounting surface 138 and the first flange 162 for absorbing vibration from the filter assembly 150 and/or the body 110. Specifically, when the filter assembly 150 is disposed in the accommodating space 131, the crushing cavity 121 may generate vibration when crushing food, and the shock absorbing member 140 may absorb the vibration to reduce the influence on the filter assembly 150, so as to prevent the vibration from displacing the filter assembly 150, thereby reducing the position accuracy of the filter assembly 150 relative to the bracket assembly 130. Similarly, when the liquid flows into the filter assembly 150 and the filter element 152 is required to rotate to filter the liquid, the vibration generated by the rotation of the filter element 152 can be absorbed by the vibration absorbing member 140, so as to prevent the vibration from displacing the filter assembly 150, thereby reducing the positional accuracy of the filter assembly 150 relative to the bracket assembly 130.

Further, when the frequency and/or intensity of the vibration is too high, the first flange 162 may rub or collide with the first mounting surface 138, which may damage the filter assembly 150. At least one shock absorbing member 140 is disposed on the first mounting surface 138 such that the first flange 162 does not directly contact the first mounting surface 138, but is closely attached to the shock absorbing member 140 having a shock absorbing function. The filter component 150 generates vibration and conducts the vibration to the first flanging 162, the vibration of the first flanging 162 is relieved and weakened by the at least one shock absorption piece 140, the first mounting surface 138 cannot rub or collide with the first flanging 162, the loss of the first mounting surface 138 caused by vibration is avoided, and the service life of the filter component 150 is prolonged.

Further, the shock absorbing members 140 are rubber members. Understandably, the rubber member has good elasticity, and can absorb most of the vibration generated by the filter assembly 150 and/or the machine body 110, thereby playing an effective damping effect and improving the service life and the performance of the filter assembly 150. And the rubber member has good wear resistance, so that a certain shock absorption effect can be maintained when the filtering assembly 150 is frequently moved into and out of the bracket assembly 130, thereby improving the overall stability of the food processor 100 during operation.

Example 12:

as shown in fig. 10, 12 and 18, embodiment 12 provides a food processor 100 based on any of the above embodiments, wherein the filtering assembly 150 further comprises: a third mounting member 165 provided to the connecting member 158, the third mounting member 165 being capable of being coupled to the filter member 152; and a fourth mounting member 166 provided to the filter member 152, the fourth mounting member 166 being detachably coupled to the third mounting member 165.

In this embodiment, filter assembly 150 includes a third mount 165 and a fourth mount 166. The third mounting element 165 is arranged on the connecting element 158, the fourth mounting element 166 is arranged on the wall of the filter element 152 on the side facing the third mounting element 165, and the third mounting element 165 is adapted to the fourth mounting element 166. Through the cooperation of the third mounting member 165 and the fourth mounting member 166, the filter 152 can be connected to the connecting member 158, so that the connecting member 158 can drive the filter 152 to rotate.

Further, the third mount 165 and the fourth mount 166 are detachably connected. That is, the connecting member 158 can be connected to the filter member 152 or detached from the filter member 152, so that the connecting member 158 can be flexibly disposed at the filter member 152, and the user can clean the connecting member 158 and the filter member 152.

By providing third and fourth mounting elements 165 and 166 on the connector 158 and filter element 152, respectively, the connector 158 can be attached to the filter element 152 by mating the third and fourth mounting elements 165 and 166. And, set up to detachably connected through the connected mode between third installed part 165 and the fourth installed part 166 to can be connected or dismantle the connecting piece 158 from filtering piece 152 according to being suitable for the demand, make connecting piece 158 set up in a flexible way on filtering piece 152, promoted the convenience of use.

Example 13:

as shown in fig. 3, 10, 25 and 28, on the basis of any one of the above embodiments 1 to 12, embodiment 13 provides a food processor 100, wherein the filter assembly 150 further includes: a face cover 178 connected to the connector 158, the face cover 178 being located at the opening of the filter 152; the first inlet 151 is disposed on the surface cover 178, and the first inlet 151 is communicated with the filter cavity 179 of the filter 152.

In this embodiment, the filter apparatus further includes a surface cover 178, the surface cover 178 is connected to the connecting member 158 and disposed at the opening of the filter element 152, and the surface cover 178 is further provided with a first liquid inlet 151 communicated with the filter cavity 179 of the filter element 152.

It will be appreciated that, when the filter assembly 150 is used for filtering, the liquid flows into the liquid discharge passage 177 between the filter member 152 and the first housing 154, and if the liquid discharge passage 177 is open on the side near the opening of the filter member 152, the liquid in the liquid discharge passage 177 is easily splashed out of the filter assembly 150. Accordingly, a face cover 178 is provided on the connecting member 158, and the face cover 178 is provided at the opening of the filter 152, thereby blocking the liquid in the liquid discharge passage 177 and preventing the liquid from splashing out of the filter assembly 150.

The embodiment of the utility model provides a food processor 100 sets up face lid 178 through the opening part at filter 152, can play the effect of blockking to the liquid in the flowing back passageway 177, prevents that liquid from splashing outside filtering component 150.

Further, a mounting side cover is provided on the face cover 178, and extends axially along the first inlet port 151, specifically, from the first inlet port 151 into the filter cavity 179 of the filter 152. First carry and draw piece movably to locate on the installation side covers. A first lifting member is movably disposed on the mounting side cover, and the first lifting member can rotate relative to the mounting side cover, so that the filter assembly 150 can be moved by the first lifting member.

Specifically, the first lifting piece arranged on the mounting side cover can rotate relative to the mounting side cover, so that the first lifting piece can be rotated to a proper angle to facilitate grabbing when in use, and the first lifting piece can be rotated to another angle when not in use, so that the protruding height of the first lifting piece is reduced, and the occupied space is reduced.

The embodiment of the utility model provides a food processor 100 sets up first lifting piece through the activity on the installation side cap, is convenient for rotate and remove filter assembly 150 through first lifting piece to with first lifting piece rotation to suitable angle so that snatch when using, and rotate to another angle with first lifting piece when not using, with the height that reduces its protrusion in filter assembly 150, reduce occupation space.

Example 14:

as shown in fig. 5, 8, 15, 21 and 22, embodiment 13 provides a food processor 100 based on any of the above embodiments, wherein the filter assembly 150 further comprises: a positioning seat 167 disposed on the first housing 154; a support shaft 168 disposed at the positioning seat 167, at least a portion of the support shaft 168 being inserted into the filter 152; and a communication hole 169 provided in the positioning seat 167, the communication hole 169 communicating with the first drain port 122.

In this embodiment, the filter assembly 150 is further provided with a support shaft 168 and a positioning socket 167. The positioning seat 167 is disposed on the first casing 154 and located on a bottom wall of the first casing 154, i.e. on a bottom wall surface away from the first liquid inlet 151. The supporting shaft 168 is disposed on the positioning seat 167 and is fixedly connected to the positioning seat 167. Wherein at least a portion of the support shaft 168 is insertable into the filter 152 and the support shaft 168 does not contact the filter 152.

The positioning seat 167 is further provided with a communication hole 169, and the communication hole 169 is communicated with the first drain port 122. The liquid in the liquid discharge channel 177 can be discharged from the first liquid discharge port 122 through the communication hole 169. Specifically, the number of the communication holes 169 may be plural, and the plural communication holes 169 are uniformly distributed in the circumferential direction of the positioning seat 167, so that the liquid in the liquid discharge channel 177 can be uniformly discharged through the communication holes 169.

Further, a shaft sleeve 180 is disposed on the filter element 152, and the shaft sleeve 180 can be in clearance fit with the support shaft 168, and the support shaft 168 passes through the shaft sleeve, so that the support shaft 168 limits the filter element 152, and further, the first housing 154 and the filter element 152 are limited.

Further, the sleeve 180 is disposed on the through hole of the filter 152 through an injection molding process, so that the sleeve 180 has good wear resistance.

As shown in fig. 24, the clearance between the support shaft and the sleeve 180 ranges from 0.05 to 1mm, preferably 0.1mm.

By providing the positioning seat 167 on the first housing 154 and disposing the supporting shaft 168 on the positioning seat 167, the position of the filter member 152 in the first cavity 155 can be determined by the clearance fit between the supporting shaft 168 and the filter member 152. That is, the filter 152 does not contact the inner wall surface of the first housing 154, and the filter 152 is supported and retained by the support shaft 168 such that a certain gap is present between the filter 152 and the inner wall surface of the first housing 154. So, when filtering piece 152 and rotating, can avoid filtering piece 152 and first casing 154 contact production frictional force, prevent to filter piece 152 card and die in first casing 154, and then guarantee to filter piece 152 to the filter effect of solid-liquid mixture. By providing the communication hole 169 on the positioning seat 167, the liquid in the liquid discharge channel 177 can be discharged from the first liquid discharge port through the communication hole 169, so as to ensure the normal liquid discharge of the filter assembly 150.

Example 15:

as shown in fig. 14, 16, 17, 18, 19, 20 and 21, embodiment 14 provides a food processor 100 based on any of the above embodiments, wherein the filter assembly 150 further comprises: and a scraping member 170 disposed on the support shaft 168, wherein the scraping member 170 is disposed inside the filter member 152, and at least a portion of the scraping member 170 can contact the wall surface of the filter member 152.

In this embodiment, the filtering assembly 150 further includes a scraping member 170, the scraping member 170 is disposed inside the filtering member 152 and is located on the supporting shaft 168, at least a portion of the scraping member 170 directly contacts an inner wall surface of the filtering member 150, and when the filtering member 152 rotates relative to the scraping member 170, the scraping member 170 can scrape the inner wall surface of the filtering member 152 to scrape off the impurities on the inner wall surface of the filtering member 152. Specifically, because the supporting shaft 168 is fixedly installed on the positioning seat 167, and the scraping element 170 is disposed on the supporting shaft 168, when the filtering element 152 filters liquid, the scraping element 170 and the first housing 154 are kept stationary, and the filtering element 152 rotates relative to the first housing 154, so as to realize the relative rotation of the filtering element 152 and the scraping element 170, thereby realizing a good scraping effect.

It will be understood that the operation of the scraper member 170 described above is as follows: the solid-liquid mixture flows into the filter assembly 150 through the first liquid inlet 151, the filter element 152 rotates relative to the first shell 154 and drives the solid-liquid mixture in the filter assembly 150 to rotate, the solid-liquid mixture in the filter assembly 150 is thrown out of the filter element 152 under the action of centrifugal force to realize solid-liquid separation, and impurities in the solid-liquid mixture are attached to the inner wall surface of the filter element 152 under the action of centrifugal force and self viscosity; at least a part of the scraping member 170 directly contacts with the inner wall surface of the filter member 152, and the scraping member 170 continuously scrapes the inner wall surface of the filter member 152 to scrape off the impurities attached to the inner wall of the filter member 152 and drop into the filter member 152. The filtered liquid flows into the liquid discharge passage 177 and is discharged through the first liquid discharge port 122.

Understandably, in the filtering process, the centrifugal force generated by the solid-liquid mixture to be filtered is related to the filtering rotating speed, and the faster the rotating speed is, the larger the centrifugal force generated by the solid-liquid mixture to be filtered is driven; similarly, the faster the relative rotational speed between the scraping member 170 and the filter member 152 is, the faster the scraping member 170 scrapes against the inner wall surface of the filter member 152, and the better the filtering effect. Specifically, the scraping member 170 may be disposed on the support shaft 168 and fixed relative to the first housing 154, the filter member 152 may rotate relative to the first housing 154, the scraping member 170 and the first housing 154 may remain fixed during filtering, and the filter member 152 may rotate relative to the scraping member 170 and the first housing 154. In practical applications, when different food materials are filtered, different relative rotation speeds of the filter 152 and the first housing 154 are selected, so that the filter assembly 150 can achieve a good filtering effect when filtering different food materials.

Through set up scraping piece 170 in filtering component 150, set up scraping piece 170 on back shaft 168 to make at least partial scraping piece 170 contact with filtering a piece 152 wall, when making a relative first casing 154 of filtering piece 152 rotate, scraping piece 170 can scrape the internal wall face that filters a piece 152, scrapes the impurity that will laminate on filtering a piece 152 inner wall, accelerates filtration rate, prevents to filter the passageway jam, has strengthened the filter effect.

Example 16:

as shown in fig. 16, 17, 18, 19 and 10, embodiment 15 provides a food processor 100 based on any of the above embodiments, wherein the filter assembly 150 further comprises: the limiting groove 171 is arranged in the scraping piece 170, the limiting piece 172 matched with the limiting groove 171 is arranged at the end of the supporting shaft 168, and the scraping piece 170 is clamped with the supporting shaft 168 through the limiting piece 172.

In this embodiment, the scraping member body is provided with a limiting groove 171, the top end of the supporting shaft 168 is provided with a limiting member 172, and the shape and structure of the limiting groove 171 are matched with the shape and structure of the limiting member 172, so that the scraping member 170 is fixedly connected to the supporting shaft 168 through the limiting groove 171, so as to achieve the effect that the scraping member 170 and the supporting shaft 168 are relatively kept immovable.

Specifically, when the supporting shaft 168 is fixedly disposed on the first housing 154, the scraping element 170 is fixedly connected to the supporting shaft 168 through the limiting groove 171 and the limiting element 172, the supporting shaft 168 and the scraping element 170 are both kept immovable with the first housing 154, that is, when the filtering assembly 150 filters a solid-liquid mixture, only the filtering element 152 rotates, the supporting shaft 168, the scraping element 170 and the first housing 154 are all kept immovable, and the impurities are scraped off by utilizing the friction between the scraping element 170 and the rotation of the filtering element 152, so that the filtering holes on the filtering element 152 are prevented from being blocked by the impurities.

Further, when the scraping member is installed, the scraping member is first installed in the filtering member 152, and then the filtering member is placed in the first housing, so that the supporting shaft 168 can be aligned with and inserted into the filtering member 152, the limiting groove 171 and the limiting member 172 are in clearance fit, and the value range of the clearance between the two ranges from 0.1mm to 5mm, and is preferably 0.3mm.

Example 17:

as shown in fig. 16, 17, 18 and 19, embodiment 16 provides a food processor 100 according to any of the above embodiments, wherein the scraping member 170 includes: a scraper body including at least one scraper arm 174 extending along an inner wall surface of the filter member 152; a scraping portion 173 provided on the scraping arm 174, the scraping portion 173 being configured to contact an inner wall surface of the filter 152; wherein the scraping portion 173 includes at least one of a brush and an elastic scraper.

In this embodiment, the scraper body includes at least one scraping arm 174, and the scraping arm 174 extends along the inner wall surface of the filter member 152, and specifically, the scraping arm 174 may extend along the bottom wall of the filter member 152, from the center of the bottom wall to the outer periphery, and then toward the opening of the filter member 152, so as to scrape the bottom wall and the side wall of the filter member 152.

Further, the scraping arm 174 is provided with a scraping portion 173, and the scraping portion 173 directly contacts the inner wall surface of the filter 152. Therefore, a scraper body is mounted on the support shaft 168 inside the filter assembly 150, the scraper body includes at least one scraper arm 174, a scraper portion 173 for contacting the inner wall surface of the filter member 152 is provided on the scraper arm 174, and the scraper 170 contacts the inner wall surface of the filter assembly 150 through the scraper portion 173. When the scraping member 170 and the filter assembly 150 rotate relatively, the scraping arm 174 and the scraping portion 173 arranged on the scraping arm 174 rotate relatively with the inner wall surface of the filter element 152, the scraping portion 173 scrapes the inner wall surface of the filter element 152, and the scraping arm 174 extends along the inner wall surface of the filter element 152, so that the projection of the scraping arm 174 on the inner wall surface of the filter element 152 can pass through all positions of the inner wall surface of the filter element 152 where the filter holes are arranged, and the scraping portion 173 on the scraping arm 174 can scrape all the filter holes.

Specifically, the scraping portion 173 may take a variety of different configurations, such as a brush or an elastic scraper. In practice, the scraping member 170 with different structures of the scraping portion 173 can be connected to the supporting shaft 168 for different filtering impurities, filtering elements 152 and filtering holes, so as to achieve better filtering effect.

The embodiment of the utility model provides a filter assembly 150, scrape the scraping part 173 that sets up on arm 174 and the scraping arm 174 through the scraping that sets up on the above-mentioned scraping piece body, can be in filtering process, along with scraping piece 170 and filter assembly 150 carry out relative rotation and scrape all positions that have set up the filtration pore to filtering piece 152 internal face, prevent that impurity from blockking up the filtration pore and reducing filtration efficiency, to different filtration liquid, different filtration impurity and scraping piece 170 and filter assembly 150's relative speed, can adopt different scraping part 173 structures, in order to reach better scraping effect.

Example 18:

embodiment 17 provides a food processor 100 based on any of the above embodiments, as shown in fig. 8 and 15, wherein the filtering assembly 150 further comprises: a plurality of guide grooves 175 provided in the bottom wall of the first casing 154, and any one of the guide grooves 175 is provided toward the second liquid discharge port 156.

In this embodiment, in order to prevent the liquid from generating a vortex flow in the liquid discharge passage 177, a plurality of guide grooves 175 may be further provided on the bottom wall of the first housing 154. Specifically, a plurality of guide grooves 175 are provided in the bottom wall of the first casing 154, and any one of the guide grooves 175 of the plurality of guide grooves 175 is provided toward the second liquid discharge port 156. After the liquid is discharged into the liquid discharge channel 177 from the filter holes, the liquid flows at a certain initial speed under the action of inertia, the flowing liquid impacts on the guide grooves 175, and the guide grooves 175 generate turbulent flow on the liquid, so that the liquid is prevented from generating vortex in the liquid discharge channel 177.

Further, the diversion trench 175 can also perform a diversion function on the liquid, and divert the liquid to the second liquid outlet 156 for discharge.

The embodiment of the utility model provides a filter assembly 150 sets up a plurality of guiding gutters 175 through the diapire at first casing 154 to liquid through guiding gutter 175 in to flowing back passageway 177 has played the effect of vortex, prevents that liquid from forming the vortex in flowing back passageway 177, makes liquid discharge from filter assembly 150 steadily. In addition, the diversion trench 175 can also perform a diversion function on the liquid, and divert the liquid to the second liquid outlet 156 for discharge.

Example 19:

as shown in fig. 8, 9 and 15, the embodiment 18 provides the food processor 100 based on any one of the above embodiments, wherein the filtering assembly 150 further includes: a plurality of first ribs 176 disposed between the first housing 154 and the filter 152 and disposed in the first housing 154 and/or the filter 152; wherein, a plurality of first ribs 176 are arranged at intervals along the circumference of the first housing 154, and the thickness of the first ribs 176 is smaller than the width of the liquid discharge channel 177.

In this embodiment, a plurality of first ribs 176 are also disposed within the drainage channel 177. It will be appreciated that in the relative rotational state of the filter assembly 150 and the first housing 154, the solid-liquid mixture rotates with the filter element 152 in the filter cavity 179 to provide an initial velocity to the solid-liquid mixture. When the liquid in the solid-liquid mixture is just discharged into the liquid discharge channel 177, the liquid keeps the same initial speed as the filter assembly 150 under the action of inertia, if no external force is applied to the liquid at this time, the liquid is easy to form a vortex in the liquid discharge channel 177, and the liquid generating the vortex has a certain speed when being discharged from the liquid discharge port, so that the liquid is easy to splash in the container, and the slurry receiving effect is influenced.

It is understood that, in order to prevent the liquid from generating a vortex flow in the liquid discharge passage 177, a plurality of first ribs 176 are disposed in the liquid discharge passage 177, and specifically, the first ribs 176 may be disposed on the first housing 154, the filter member 152, or both. After the liquid is discharged into the liquid discharge channel 177 from the filter holes, the liquid flows at a certain initial speed under the action of inertia, the flowing liquid impacts the first ribs 176, and the first ribs 176 generate turbulent flow on the liquid, so that the liquid is prevented from generating vortex flow in the liquid discharge channel 177.

Specifically, the plurality of first ribs 176 are spaced apart along the circumference of the first housing 154, so that the first ribs 176 uniformly disturb the liquid in the liquid discharge passage 177. And, for guaranteeing to leave the clearance between first rib 176 and first casing 154, or first rib 176 and the filter 152 to guarantee that liquid can normally flow in flowing back passageway 177, injectd first rib 176's thickness, specifically, first rib 176's thickness is less than flowing back passageway 177's width, thereby guarantees flowing back passageway 177 unobstructed, avoids first rib 176 to block up flowing back passageway 177.

The embodiment of the utility model provides a food processor 100 is through setting up a plurality of first ribs 176 in flowing back passageway 177 to liquid through first rib 176 in to flowing back passageway 177 has played the effect of vortex, prevents that liquid from forming the vortex in flowing back passageway 177, makes liquid discharge from filter assembly 150 steadily. Further, by limiting the thickness of the first ribs 176 to be smaller than the width of the liquid discharge channel 177, so that a gap is formed between the first ribs 176 and the filter 152 or the first housing 154, the first ribs 176 are prevented from blocking the liquid discharge channel 177, and the liquid discharge channel 177 is ensured to be smooth.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. 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 the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (19)

1. A food processor, characterized in that it comprises:

a body provided with a first mount;

the crushing device is arranged in the machine body and provided with a crushing cavity, and the crushing device comprises a first liquid discharge port communicated with the crushing cavity;

the filter assembly is provided with a second mounting part, the second mounting part can be detachably connected with the first mounting part, the filter assembly is detachably arranged on the machine body through the second mounting part, the filter assembly is provided with a first liquid inlet and a second liquid outlet, the first liquid inlet is used for receiving liquid flowing out of the first liquid outlet, the second liquid outlet is communicated with the outside, a liquid receiving space is arranged below the second liquid outlet, and the filter assembly comprises a rotatable filter element;

the drive assembly set up in the organism, drive assembly can drive filter the piece and rotate.

2. The food processor of claim 1,

with the second mounting section and the first mounting section in a separated state, the filter assembly can be moved out of the food processor in a radial direction of the food processor.

3. The food processor of claim 1, wherein the food processor comprises:

the bracket component, set up in the organism, first installed part set up in the bracket component, filtering component can with bracket component detachably connects, the bracket component is formed with the accommodation space, filtering component can move into or shift out the accommodation space.

4. The food processor of claim 3, wherein the drive assembly comprises:

the driving motor is arranged in the bracket component;

the first transmission piece is connected with the output end of the driving motor;

the bracket component is provided with a first avoidance notch, and at least part of the first transmission piece is exposed out of the first avoidance notch.

5. The food processor of claim 4, wherein the filter assembly comprises:

the first shell comprises a first cavity and the second liquid outlet, and the filter element is arranged in the first cavity;

the second dodges the breach, set up in first casing, at least part first transmission piece can pass through first dodge the breach with the second dodges the breach and drives filter the piece rotation.

6. The food processor of claim 5, wherein the filter assembly further comprises:

a connector detachably connected to the filter member;

the second transmission piece is arranged on the connecting piece and can drive the filtering piece to rotate relative to the first shell under the driving of the first transmission piece.

7. The food processor of claim 6, wherein the first housing further comprises:

a body having an open end;

the first flanging is arranged at the opening end of the body;

the installation wall is connected with the first flanging, the installation wall extends in the direction away from the second liquid outlet, the second avoiding notch is formed in the installation wall, and the first transmission piece can drive the second transmission piece to rotate through the second avoiding notch.

8. The food processor of claim 7, wherein the rack assembly comprises:

the filter assembly comprises a first surface and a second surface, wherein the first surface and the second surface face the filter assembly, the second surface is far away from the filter assembly compared with the first surface, a first mounting surface is connected between the first surface and the second surface, and the first surface, the second surface and the first mounting surface define the accommodating space;

the first flanging is overlapped on the first mounting surface.

9. The food processor of claim 8, further comprising:

the first positioning piece is arranged on the first mounting surface;

and the second positioning piece is arranged on the first flanging and is in limit fit with the first positioning piece.

10. The food processor of claim 9,

the second positioning piece is arranged on the surface of the first flanging, facing the first mounting surface, is constructed into one of a groove or a boss, and has a thickness smaller than that of the first flanging;

the first detent is configured as the other of a groove or a projection.

11. The food processor of claim 8, further comprising:

the shock absorption piece is arranged on the first mounting surface or the first flanging, and the shock absorption piece is located between the first mounting surface and the first flanging.

12. The food processor of any one of claims 6 to 11, wherein the filter assembly further comprises:

a third mounting member provided to the connecting member, the third mounting member being connectable to the filter member;

a fourth mounting member disposed on the filter member, the fourth mounting member being detachably connectable to the third mounting member.

13. The food processor of claim 12, wherein the filter assembly further comprises:

the surface cover is connected with the connecting piece and is positioned at the opening of the filter piece;

the first liquid inlet is arranged on the face cover and communicated with the filter cavity of the filter piece.

14. The food processor of claim 12, wherein the filter assembly further comprises:

the positioning seat is arranged on the first shell;

the supporting shaft is arranged on the positioning seat, and at least part of the supporting shaft is inserted into the filtering piece;

the communicating hole is formed in the positioning seat and communicated with the first liquid discharge port.

15. The food processor of claim 14, wherein the filter assembly further comprises:

the scraping piece is arranged on the supporting shaft and is arranged inside the filtering piece, and at least part of the scraping piece can be in contact with the wall surface of the filtering piece.

16. The food processor of claim 15, wherein the filter assembly further comprises:

the spacing groove, set up in the scraping piece, the tip of back shaft be provided with the locating part of spacing groove adaptation, the locating part will the scraping piece with the back shaft joint.

17. The food processor of claim 15, wherein the scraper comprises:

a scraper body including at least one scraper arm extending along an inner wall surface of the filter element;

the scraping part is arranged on the scraping arm and is used for contacting with the inner wall surface of the filter piece;

wherein, the scraping part comprises at least one of a hairbrush and an elastic scraper.

18. The food processor of any one of claims 6-11, wherein the filter assembly further comprises:

and the flow guide grooves are formed in the bottom wall of the first shell, and any one of the flow guide grooves faces the second liquid outlet.

19. The food processor of any one of claims 6-11, wherein the filter assembly further comprises:

a plurality of first ribs positioned between the first housing and the filter element and disposed in the first housing and/or the filter element;

wherein, a plurality of first ribs set up along the circumference interval of first casing, the thickness of first rib is less than first casing with the width of filtering the drainage channel between the piece.

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