CN208693080U - Filter and vacuum food processor - Google Patents

Abstract

Embodiment of the disclosure is related to a kind of filter for vacuum food processor and a kind of vacuum food processor including the filter.The filter includes: first filter component, is suitable for for the sucking air stream generated by the vacuum module of vacuum food processor being directed in filter via access road；And second filter component, it is suitable for being adapted to first filter element coaxial, and including cavity, the inner surface of the cavity is suitable for for the non-gaseous matter moved together with sucking air stream being maintained in filter, wherein first filter component and the second filter component collectively define exit passageway in the bottom of first filter component, which, which is suitable for that air stream will be sucked, is directed to outside filter.In this way it is possible to prevent food particle/bubble from entering vacuum module, while allowing to suck air stream and freely flowing to vacuum module.

Description

Filter and vacuum food processor

Technical field

Embodiment of the disclosure relates generally to household appliance, and relates more particularly to a kind of filter and a kind of packet Include the vacuum food processor of the filter.

Background technique

Vacuum food processor for mixing or stirring is becoming a kind of kitchen appliance generally used.This seed type Food processing apparatus be commonly equipped with vacuum module, if the vacuum module include dry part, such as electric-motor pump, pipeline, control electronics Component, pressure sensor etc..Present in this food processing apparatus one common problem encountered is that vacuum module potential pollution problem, and This pollution is by being inhaled into the liquid in vacuum module, steam, food particle with the flowing of sucking air stream and being drawn It rises.It is this to pollute the functional deterioration even damage that will lead to utensil.

It is proposed in WO2016072203A1 a kind of for avoiding food particle/bubble from entering the mechanism of vacuum module. But this mechanism needs more complex construction.In addition, sucking is empty when a large amount of food particle/bubble is inhaled into and retains Air-flow may also be worked as by resistance.The mechanism that another obstruction minces is proposed in CN106724947A, however this is also needed again Miscellaneous construction.

Utility model content

In order to prevent food particle/bubble from entering vacuum module, the implementation of the utility model in a simple and reliable manner Example provides a kind of filter for vacuum food processor and a kind of vacuum food processor including the filter.

In a first aspect, a kind of filter for vacuum food processor is provided.The filter includes: the first filtering Device component is suitable for for the sucking air stream generated by the vacuum module of vacuum food processor being directed to via access road In filter；And second filter component, it is suitable for being adapted to first filter element coaxial, and including cavity, cavity Inner surface is suitable for be maintained in filter with the mobile non-gaseous matter of sucking air stream, wherein first filter component and the Tow filtrator component limits exit passageway in the bottom of first filter component jointly, and exit passageway is suitable for that air stream will be sucked and draws It leads outside filter.

It should be appreciated that in accordance with an embodiment of the present disclosure, when some food particle/bubbles enter filter via access road When, these food particle/bubbles can be effectively trapped in the inner surface of the second filter component, meanwhile, allow to suck Air stream via the lower exit channel formed in filter bottom and from filter discharge and then for example, by with filtering The air guide channel that device 10 is connected to is conveyed or is drawn into vacuum module.In this way, food particle/bubble can be with simple and reliable Mode spatially with sucking air flow separation.In addition, this filter structure is simple, and it is easily fabricated, reduce overall cost.

In some embodiments, first filter component includes the first flank, is extended along circumferential direction and along filtering The axial direction of device orients；And the second filter component includes the second flank, is extended along circumferential direction and along axial side To orientation, wherein the first flank and the second flank are formed when fitting each other between first of the first part as exit passageway Gap.

In some embodiments, the first flank and the second flank fit each other the first gap to be formed by the first flank with The first offset that second flank has in radial directions, and/or the second offset having in the axial direction are formed.

Using this arrangement and adaptation of two flanks, can be formed logical to prevent food particle/bubble from entering outlet First barrier in road, and the first the air gap that a part as exit passageway is formed then allows sucking air stream to pass through.

In some embodiments, first filter component further includes third flank, in axial direction orientation and with the One flank is coaxially arranged, and third flank is radially arranged on the outside of the first flank；And the second filter component further includes 4th flank in axial direction orients and coaxially arranged with the second flank, and the 4th flank is radially arranged in second On the outside of flank, wherein third flank and the 4th flank form and make when the second filter component and first filter members fits For the second gap of the second part of exit passageway.

In some embodiments, the second gap that third flank and the 4th flank are formed when fitting each other is by third flank The third offset having in radial directions with the 4th flank, and/or the 4th offset having in the axial direction are formed.

Using this arrangement and adaptation of additional two flanks, can be formed to ensure may pass through the first barrier A small amount of (or minute quantity) food particle/bubble will not enter vacuum module the second barrier.Meanwhile as the another of exit passageway Second the air gap of a part still allows for sucking air stream to pass through.

In some embodiments, the first flank and first filter component are integrally formed, and the second flank and the second mistake Filter component is integrally formed.In some embodiments, third flank and first filter component are integrally formed, and the 4th flank It is integrally formed with the second filter component.In this way, less separate part is needed, this is convenient for manufacture and assembling.

In some embodiments, when the second filter component and first filter members fits, the second flank is along sucking The direction of air draught is arranged in the downstream of the first flank, and third flank is arranged in the second flank along the direction of sucking air draught Downstream, and the 4th flank is arranged in the downstream of third flank along the direction of sucking air draught.

Using engagement such positioned opposite and associated between multiple flanks, can be formed comprising multiple gaps The exit passageway of zigzag can generate more efficiently barrier effect to food particle/bubble.

In some embodiments, first filter component includes the first flank, is extended along circumferential direction and along described The axial direction (Y) of filter (10) orients；Second filter component have second end face, wherein first filter component with Second filter component be adapted to when, the top of the first flank (101) is in contact with second end face, and have allow sucking air stream By minim gap, minim gap formed exit passageway a part.

In some embodiments, cavity includes the first sub- chamber and the second sub- chamber, and the second sub- chamber surrounds first along circumferential direction Sub- chamber, wherein the first sub- chamber defines grip area in the outer face of the second filter component, and the second sub- chamber is The outer face of tow filtrator component defines tilting zone.

The grip area formed on the outer surface of the second filter component grasps convenient for operator from outside, this is in turn So that assembling and adjustment become easy.In addition, the second sub- chamber is expanded for retaining food particle/bubble inner space.

In some embodiments, first filter component includes fastening hook；And the second filter component includes fastener hole, It is suitable for accommodating fastening hook with by the second filter component and first filter members fits.In this way, two filters Component can be attached to each other in simple and safe mode.

In some embodiments, first filter component includes connecting component, is suitable for first filter component in diameter It is detachably articulable to on direction at the lid of vacuum food processor.In this way, filter can be rotatably attached It is connected on the lid of vacuum food processor, and can easily be removed from lid for cleaning or safeguarding.

In some embodiments, first filter component includes pin, and the second filter component includes slit, is suitable for Pin is accommodated to prevent the rotation of the second filter component along circumferential direction relative to first filter component.

In this way, it is therefore prevented that rotation of second filter component relative to first filter component, so as to reality Now firm installation.In addition, pin and slit can provide visual indication to operator, so that during the installation process being capable of essence The second filter component really is positioned relative to first filter component.

In some embodiments, when the second filter component and first filter members fits, the first flank is suitable for branch The second filter component is supportted, wherein the first flank includes contact surface, inner surface of the contact surface towards cavity, the contact table Face is suitable for matching the inner surface of tilting zone.In this manner it is achieved that more stable, safer support and preferably close Seal effect.

In some embodiments, first filter component may include handle.Handle can permit operator and easily hold Firmly and open filter.

In second aspect, a kind of vacuum food processor is provided.The vacuum food processor includes according to the disclosure The filter of first aspect.

Pass through following discussion, it will be apparent that, compared with conventional vacuum food processor, including according to the disclosure Various embodiments filter vacuum food processor prevent vacuum module by with sucking air stream together be inhaled into Liquid, steam, food particle polluted.Simultaneously as less complex design, so that the overall cost of utensil is dropped Low, manufacture/assembling is simplified.

Detailed description of the invention

Drawings described herein is provided herein, the disclosure is explained further, and constitutes a part of this disclosure.This Disclosed exemplary embodiment and its description not irrelevantly limit the disclosure for explaining the disclosure.

Figure 1A illustrates the section view of the filter according to the embodiment of the present disclosure；

Figure 1B illustrates the simplification view of filter cross-section view shown in Figure 1A；

Fig. 1 C illustrates another section view of filter shown in figure 1A；

Fig. 2A illustrates the bottom view of the second filter component of filter according to an embodiment of the present disclosure；

Fig. 2 B illustrates the top view of the second filter component of filter shown in Fig. 2A；

Fig. 3 illustrates the perspective view of the first filter component of filter according to an embodiment of the present disclosure；

Fig. 4 illustrates the filter at the lid according to an embodiment of the present disclosure for being hinged to vacuum food processor；

In the accompanying drawings, the same or similar appended drawing reference is for indicating the same or similar element.

Specific embodiment

The principle of the disclosure is described now with reference to several example embodiments shown in the accompanying drawings.Although the disclosure is shown Example embodiment is shown in the accompanying drawings, but it is to be understood that embodiment, which is described, is intended merely to facilitate those skilled in the art more The disclosure is understood and is achieved in well, without limiting the scope of the present disclosure in any way.

In the vacuum process that vacuum food processor executes, vacuum module from include food cup assembly in suck it is empty Gas is to form sucking air stream.However sometimes, since vacuum pressure is higher (for example, in -70Kpa to -80Kpa range), make Obtaining liquid, food particle or steam can flow together with sucking air stream.In order to avoid these liquid or food particle are direct It is drawn into the vacuum module being made of electric-motor pump, pipeline, control electronic component, pressure sensor etc., this paper presents one kind Filter retains these liquid, food particle and steam.

Figure 1A illustrates the section view of the filter for vacuum food processor according to the embodiment of the present disclosure.Figure 1B The simplification view of filter cross-section view shown in Figure 1A is shown, in fig. ib, for clarity, some wheels from different sides Profile is deleted, and is obscured to avoid unnecessary, and cavity is become apparent.Fig. 1 C is illustrated and filter shown in figure 1A The perpendicular another section in section section view.

As shown, filter 10 includes first filter component 1 and the second filter component 2.First filter component 1 Suitable for filtering will be directed to via access road 105 by the vacuum module of vacuum food processor sucking air stream 20 generated In device 10.In some embodiments, as shown in Figure 1A, access road 105 can be the form in multiple holes.

In addition, the second filter component 2 is suitable for and first filter component 1 is coaxial is adapted to, and including cavity 4.Cavity 4 Inner surface be suitable for keep with the non-gaseous matter (such as liquid, steam or food particle) that moves together of sucking air stream 20 In filter 10.In addition, as shown in Figure 1A, first filter component 1 and the second filter component 2 are in first filter component 1 bottom 106 defines exit passageway 3 jointly.Exit passageway 3, which is suitable for that air stream 20 will be sucked, to be directed to outside filter 10 Portion.

Using the construction of this filter 10, when some food particle/bubbles enter filter via access road 105 When, food particle/bubble can be effectively trapped in the inner surface of the second filter component 2, meanwhile, allow to suck empty Air-flow 20 be discharged from filter 10 via the lower exit channel 3 formed in 10 bottom 106 of filter and then for example, by The air guide channel being connected to filter 10 is conveyed or is drawn at vacuum module.

In this way, food particle/bubble can in a simple manner spatially with sucking air flow separation.In addition, with one A little conventional designs are compared, and filter 10 according to various embodiments of the present disclosure needs less separate part, and does not need Complicated design, this thereby reduces the overall cost for manufacturing and safeguarding convenient for manufacture.

In some embodiments, as shown in Figure 1A, first filter component 1 may include the first flank 101, circumferentially Direction C extends and orients along the axial direction Y of filter 10.The in axial direction Y is oriented namely in axial direction Y prolongs It stretches, in other words, that is, in axial direction Y extends certain altitude to the first flank 101, with from 1 bottom of first filter component Portion's protrusion.In addition, the second filter component 2 includes the second flank 202, circumferentially in the mode similar with the first flank 101 Direction C extends and in axial direction Y extends certain altitude, to protrude from the second filter component 2.As in figure 1A into one Shown in step, when the first flank 101 and the second flank 202 fit each other, the first part as exit passageway 3 can be formed First gap 31.

In some embodiments, the first flank 101 and the second flank 202 are when fitting each other, the first flank 101 and second Flank 202 has the first offset on radial direction R, or has the second offset on Y in the axial direction, or in radial direction There is offset simultaneously with axial direction.In this way, it is possible to form the first gap 31 with bending.It is described in radial direction Refer to that two flanks are not overlapped in radial projection with offset, since flank has thickness, is not overlapped packet in radially projecting It includes and is not overlapped or is not overlapped completely partially.It is described to refer to axially extending remote of two flanks with offset in the axial direction End namely the top of the first flank and the second flank are not overlapped in axial projection, in normal mounting in use, for first rib Its top is the most significant end of the first flank for portion, its top is the least significant end of the second flank for the second flank. When the most significant end of the first flank is lower than the least significant end of the second flank, the first gap 31 is just formed, and makes gap is sufficiently small can stop The foam or impurity of on-gaseous pass through gap 31.When the first flank and the second flank are when radially having offset, the can be made As soon as the most significant end of flank is higher than the least significant end of the second flank, a winding airflow channel at this moment will form, it is right in this way The foam or impurity for stopping on-gaseous are very favorable.

It using arrangement as two flanks and is adapted to, the first barrier can be formed, to prevent food particle/bubble from entering Exit passageway 3, and the first the air gap 31 that a part as exit passageway 3 is formed then allows sucking air stream 20 to pass through.

It in some embodiments, can be for example, by extruding and injection molding mode, so that the first flank 101 and second Flank 202 is integrally formed with first filter component 1 and the second filter component 2 respectively.In this way, the independent portion needed Part is less, and it reduce the difficulty in manufacture and assembling.

In some embodiments, as shown in Figure 1A, first filter component 1 can also include third flank 103, along axis It is protruded to direction Y and coaxially arranged with the first flank 101, and the second filter component 2 can also include the 4th flank 204, in axial direction Y protrusion and it is coaxially arranged with the second flank 202.In addition, third flank 103 can be radially In 101 outside of the first flank, 202 outside of the second flank can be in the radial direction R arranged in the 4th flank 204 for R setting.In addition, As shown in Figure 1A, when the second filter portion 2 is adapted to first filter component 1,204 shape of third flank 103 and the 4th flank At the second gap 32 of the second part as exit passageway 3.

In some embodiments, third flank 103 and the 4th flank 204 are when fitting each other, third flank 103 and the 4th Flank 204 has third offset on radial direction R, or has the 4th offset on Y in the axial direction, or in radial direction There is offset simultaneously with axial direction.By this method, the second gap 32 with bending can equally be formed.

It using arrangement as additional two flanks and is adapted to, the second barrier can be formed, to ensure may pass through the A small amount of (or minute quantity) food particle/bubble of one barrier will not enter vacuum module.Meanwhile as the another of exit passageway 3 The second partial the air gap 32 still allow for sucking air stream 20 pass through and from cavity 4 be discharged and then for example, by with filtering The air guide channel that device 10 is connected to is conveyed or is drawn at vacuum module.

It similarly, in some embodiments, can be for example, by extruding and injection molding mode, so that third flank 103 and the 4th flank 204 it is integrally formed with first filter component 1 and the second filter component 2 respectively, in order to manufacture and group Dress.

In example as shown in Figure 1A, relative to the direction of sucking air stream 20, the second flank 202 is arranged in first rib The downstream in portion 101, third flank 103 is arranged in the downstream of the second flank 202, and the 4th flank 204 is arranged in third flank 103 downstream.

Using between first filter component and multiple flanks of the second filter component it is such it is positioned opposite with And associated engagement, the exit passageway 3 of the zigzag comprising multiple gaps can be formed, can more effectively stop to eat Composition granule/bubble.In other words, the difficulty that food particle/bubble reaches vacuum module increases.

In addition, it is also pointed out that, in certain embodiments, it should exist in radial direction R at the exit passageway 3 of zigzag C also forms ring-type in circumferential direction, this substantially expands the range that suction airflow 20 can be discharged from cavity 4, that is, foring A kind of exit passageway 3 of three-dimensional.In this way, i.e. convenient exit passageway 3 is at certain position on circumferential direction C by food particle/gas Bubble blocking, air-flow 20 still can unhinderedly be discharged from other positions.Which increase the safety of the filter 10 and stabilizations Property.

Referring still to Figure 1A, in some embodiments, first filter component 1 may include connecting component 108, be suitable for First filter component 1 is detachably articulable on radial direction R at the lid of vacuum food processor.With this side Formula, filter can be rotatably attached on the lid of vacuum food processor, and can easily be removed from lid For cleaning or safeguarding.In some embodiments, first filter component 1 may include handle 104 to allow operator side Just hold and open filter 10.

Fig. 2A and Fig. 2 B respectively illustrates the bottom of the second filter component of filter according to an embodiment of the present disclosure View and top view.As shown in Figure 2 A, cavity 4 may include the first sub- chamber 41 and the second sub- chamber 42, and the second sub- chamber 42 is along week The first sub- chamber 41 is surrounded to direction C.In addition, as shown in Figure 2 B, the first sub- chamber 41 is in the outer surface 200 of the second filter component 2 On define grip area 205, and the second sub- chamber 42 defines angled section in the outer face of the second filter component 2 Domain 206.

The grip area 205 formed on the outer surface 200 of the second filter component 2 grasps convenient for operator from outside, This becomes easy assembling and adjustment.In addition, the second sub- chamber 42 is expanded for retaining food particle/bubble inside sky Between.This is particularly advantageous when there is the food particle/bubble largely generated.

In some embodiments, the first sub- chamber 41 and the second sub- chamber 42 (and grip area 205 and tilting zone 206) can By for example, by squeeze and it is injection molding in a manner of formed, in order to manufacturing and enhance the global stiffness of filter component.

In some alternative embodiments, first filter component may include the first flank 101 as shown in Figure 1A, should Flank is along axial direction (Y) formation of the filter 10, and (C) extends along circumferential direction, and flank Y's in the axial direction is upper With top.However, the second filter component 2 can not have the second flank, but only having can be with the first flank top phase The second end face of contact.In this case, in first filter component 1, in axial direction Y is adapted to the second filter component 2 When, it directly contacts in the top of the first flank 101 and the second end face of the second filter component 2, or in other words, the second filter By the contact between the first flank top and second end face, by first filter component, in axial direction Y is supported component 2.Example Such as, if inclined-plane 206 defined by second of the second filter in Fig. 2A and 2B the sub- chamber 42 along the circumferential direction uniformly extended , circular cone table top is become, and the top of the first flank is in contact with the circular cone table top, which is the present embodiment Described in second end face an example.

In this way, the minim gap passed through for sucking air stream 20 still can be limited, and the minim gap is same Sample can be used as a part of exit passageway 3, only to allow sucking air stream 20 by effectively stopping the foam of on-gaseous Or impurity.

Fig. 3 illustrates the perspective view of the first filter component of filter according to an embodiment of the present disclosure.Such as Fig. 3 institute Show, in some embodiments, first filter component 1 may include fastening hook 107.As shown in Figure 2 A, the second filter component 2 It may include corresponding fastener hole 208, be suitable for accommodating fastening hook 107 with by the second filter component 2 and first filter portion Part 1 is adapted to.In this way, two filter components can be attached to each other in simple and safe mode.

Referring still to Fig. 2A and Fig. 3, in some embodiments, first filter component 1 may include pin 109, and the Tow filtrator component 2 may include slit 209, be suitable for accommodating pin 109 to prevent the second filter component 2 relative to the first mistake The rotation of the C along circumferential direction of filter component 1.

In this way, the second filter component 2 can be prevented from relative to the rotation of first filter component 1, thus It can be realized firm installation.In addition, pin 109 and slit 209 can provide visual indication to operator, in installation process In be accurately with respect to first filter component 1 to position the second filter component 2.

In some embodiments, when the second filter component 2 is adapted to first filter component 1, the first flank 101 is suitable In supporting the second filter component 2, as shown in Figure 1.In addition, the first flank 101 may include connecing for the inner surface towards cavity 4 Surface is touched, and contact surface is suitable for matching with the inner surface of tilting zone 206.Since the profile of the first flank 101 follows The profile of the inner surface of second filter component 2, therefore more stable and more reliable support may be implemented.In some embodiments In, the second filter component 2 can be designed under the action of vacuum pneumatic in the axial direction with respect to first filter component 1 Y is lifted slightly upwards, so that exit passageway 3 is opened.

Fig. 4 illustrates the filter 10 of the lid 30 according to an embodiment of the present disclosure for being hinged to vacuum food processor.Such as As discussed above, filter 10 can be rotatably attached at the lid 30 of vacuum food processor via interconnecting piece 108, And it can simply dismantle from lid 30 for cleaning or safeguarding.

It should be appreciated that the above-mentioned specific embodiment of the disclosure is used for the purpose of illustrating or explaining the principle of the disclosure, Rather than the limitation disclosure.Therefore, any modifications, equivalent replacements, and improvements etc. of the spirit and scope of the utility model is not departed from It should all be included within the protection scope of the utility model.Meanwhile the appended claims of the disclosure are intended to cover and fall into power All changes and modification in the range and boundary that benefit requires or in the equivalent of range and boundary.

Claims (15)

1. a kind of filter (10) for vacuum food processor characterized by comprising

First filter component (1) is suitable for the sucking air stream that will be generated by the vacuum module of the vacuum food processor (20) it is directed in the filter (10) via access road (105)；And

Second filter component (2), is suitable for and the first filter component (1) is coaxial is adapted to, and including cavity (4), The inner surface of the cavity (4) is suitable for that the filter will be maintained at the mobile non-gaseous matter of sucking air stream (20) (10) in；

Wherein the first filter component (1) and second filter component (2) are in the first filter component (1) Bottom (106) defines exit passageway (3) jointly, and the exit passageway (3) is suitable for guiding the sucking air stream (20) It is external to the filter (10).

2. filter (10) according to claim 1, which is characterized in that

The first filter component (1) includes the first flank (101), and (C) extends and along the filtering along circumferential direction The axial direction (Y) of device (10) orients；And

Second filter component (2) includes the second flank (202), is extended along the circumferential direction (C) and along described Axial direction (Y) orientation,

Wherein the first rib portion (101) and second flank (202) are formed when fitting each other as the exit passageway (3) the first gap (31) of first part.

3. filter (10) according to claim 2, which is characterized in that first gap (31) is by the first rib The first offset that portion (101) and second flank (202) have on radial direction (R), and/or in the axial direction (Y) the second offset having on is formed.

4. filter (10) according to claim 2, which is characterized in that

The first filter component (1) further includes third flank (103), along the axial direction (Y) orient and with institute It is coaxially arranged to state the first flank (101), the third flank (103) radially (R) is arranged in first flank (101) Outside；And

Second filter component (2) further includes the 4th flank (204), along the axial direction (Y) orient and with institute It is coaxially arranged to state the second flank (202), the 4th flank (204) is arranged along the radial direction (R) in second flank (202) outside,

Wherein the third flank (103) and the 4th flank (204) are formed when fitting each other as the exit passageway (3) the second gap (32) of second part.

5. filter (10) according to claim 4, which is characterized in that second gap (32) is by the third flank (103) the third offset having on radial direction (R) with the 4th flank (204), and/or in the axial direction (Y) the 4th offset having on is formed.

6. filter (10) according to claim 4, which is characterized in that

When second filter component (2) is adapted to the first filter component (1),

Second flank (202) is arranged under first flank (101) along the direction of sucking air draught (20) Trip,

The third flank (103) is arranged under second flank (202) along the direction of sucking air draught (20) Trip,

4th flank (204) is arranged under the third flank (103) along the direction of sucking air draught (20) Trip.

7. filter (10) according to claim 1, which is characterized in that

The first filter component (1) includes the first flank (101), and (C) extends and along the filtering along circumferential direction The axial direction (Y) of device (10) orients；

Second filter component (2) has second end face,

Wherein when the first filter component (1) is adapted to second filter component (2), first flank (101) top is in contact with the second end face, and has the minim gap for allowing sucking air stream (20) to pass through, institute State a part that minim gap forms the exit passageway (3).

8. filter (10) according to claim 1, which is characterized in that

The cavity (4) includes the first sub- chamber (41) and the second sub- chamber (42), and the second sub- chamber (42) is enclosed along circumferential direction (C) Around the described first sub- chamber (41),

Wherein the described first sub- chamber (41) defines grasping section on the outer surface (200) of second filter component (2) Domain (205), and the second sub- chamber (42) defines inclination in the outer face of second filter component (2) Region (206).

9. filter (10) according to claim 1, which is characterized in that

The first filter component (1) includes fastening hook (107)；And

Second filter component (2) includes fastener hole (208), is suitable for accommodating the fastening hook (107) with by described the Tow filtrator component (2) is adapted to the first filter component (1).

10. filter (10) according to claim 1, which is characterized in that

The first filter component (1) includes connecting component (108), is suitable for the first filter component (1) in diameter It is removedly hinged to on direction (R) at the lid of the vacuum food processor.

11. filter (10) according to claim 1, which is characterized in that

The first filter component (1) includes pin (109), and

Second filter component (2) includes slit (209), is suitable for accommodating the pin (109) to prevent second mistake Rotation of the filter component (2) relative to the first filter component (1) (C) along circumferential direction.

12. filter (10) according to claim 8, which is characterized in that

When second filter component (2) is adapted to the first filter component (1), first flank (101) is suitable In supporting second filter component (2),

Wherein the first rib portion (101) includes contact surface, inner surface of the contact surface towards the cavity (4), institute Contact surface is stated to be suitable for matching with the inner surface of the tilting zone (206).

13. filter (10) according to claim 2, which is characterized in that

First flank (101) and the first filter component (1) are integrally formed, and

Second flank (202) and second filter component (2) are integrally formed；And/or

The third flank (103) and the first filter component (1) are integrally formed, and

4th flank (204) and second filter component (2) are integrally formed.

14. filter (10) according to claim 1, which is characterized in that

The first filter component (1) includes handle (104).

15. a kind of vacuum food processor, which is characterized in that including filter described according to claim 1 any one of -14 (10)。