CN206063066U - Dirt cup component and the hand-held cleaners with which - Google Patents
Dirt cup component and the hand-held cleaners with which Download PDFInfo
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- CN206063066U CN206063066U CN201620677750.7U CN201620677750U CN206063066U CN 206063066 U CN206063066 U CN 206063066U CN 201620677750 U CN201620677750 U CN 201620677750U CN 206063066 U CN206063066 U CN 206063066U
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- hood
- dust
- chamber
- cyclonic separation
- glass shell
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Abstract
The utility model discloses a kind of dirt cup component and the hand-held cleaners with which, the dirt cup component includes:Glass shell, hood, the first cyclonic separation part and negative pressure device, the hood is tubular, the hood is located in the glass shell and dedusting chamber is limited between the glass shell, the first cyclonic separation part is located at the dedusting intracavity and along the hood circumferentially around the hood, the negative pressure device is located in the hood so that dust and gas are separated into the dedusting intracavity by the first cyclonic separation part dust and gas, wherein, in the axial direction of the hood, the side for being at least partially disposed at the first cyclonic separation part of the negative pressure device.According to dirt cup component of the present utility model, compact conformation, small volume and less weight, efficiency is high, noise is low, cleaning effect is good.
Description
Technical field
This utility model is related to cleaning equipment field, more particularly, to a kind of dirt cup component and the hand-held dust suction with which
Device.
Background technology
Hand-held cleaners in correlation technique, volume are larger, heavy, be not easy to hand-held use, and air channel layout is loose,
Suction high energy consumption.In addition, the overall noise of the hand-held cleaners in correlation technique is larger, using disturbing residents.
Utility model content
This utility model is intended at least solve one of technical problem present in prior art.For this purpose, this utility model exists
In proposing a kind of dirt cup component, the compact conformation of the dirt cup component, small volume and less weight, efficiency is high, noise is low, cleaning effect is good.
This utility model also proposes a kind of hand-held cleaners with above-mentioned dirt cup component.
According to the dirt cup component of this utility model first aspect, including:Glass shell;Hood, the hood be tubular, the machine
It is located in the glass shell and dedusting chamber is limited between the glass shell;First cyclonic separation part, first cyclonic separation
Part is located at the dedusting intracavity and along the hood circumferentially around the hood;And negative pressure device, the negative pressure device sets
So that dust and gas are separated into the dedusting intracavity by the first cyclonic separation part dust and gas in the hood, wherein, in institute
State in the axial direction of hood, the side for being at least partially disposed at the first cyclonic separation part of the negative pressure device.
According to dirt cup component of the present utility model, compact conformation, small volume and less weight, efficiency is high, noise is low, cleaning effect is good.
In certain embodiments, the hood includes first section, the transitional cylinder section being axially sequentially connected along the hood
With second section, wherein, the minimum barrel dliameter of the maximum barrel dliameter of first section less than second section, in the hood
Radially, the first cyclonic separation part it is relative with first section or with first section and the transitional cylinder section phase
Right, the negative pressure device is relative with second section or relative with second section and the transitional cylinder section.
In certain embodiments, first section is direct tube section with second section, and the transitional cylinder section is for gradually
Expand cylinder section.
In certain embodiments, the first cyclonic separation part is the multiple cyclone cylinders around the hood.
In certain embodiments, the cyclone cylinder includes direct tube section and the conical cylinder section being axially connected along the hood.
In certain embodiments, described dirt cup component is further included:Second cyclonic separation part, second whirlwind point
Off member is located between the first cyclonic separation part and the glass shell, and the negative pressure device makes dust and gas enter the dedusting intracavity elder generation
Separated by the second cyclonic separation part dust and gas, separated by the first cyclonic separation part dust and gas again.
In certain embodiments, the second cyclonic separation part is tubular and is coaxially set in outside the hood.
In certain embodiments, the local in the glass shell with opening, the hood has air vent and is located at described
Opening is sentenced and is manifested by the opening, and the negative pressure device is configured to make from the dedusting intracavity air-flow isolated enter institute
State in hood and discharged by the air vent.
In certain embodiments, the axial side outer face of the hood is fitted or is worn with the local inner surface of the glass shell
Go out the local inner surface of the glass shell, the outer peripheral face of inner surface of the dedusting chamber limit in the glass shell and the hood
Between and along the hood circumferentially around the hood.
According to the hand-held cleaners of this utility model second aspect, including the dirt cup group according to this utility model first aspect
Part.
According to hand-held cleaners of the present utility model, by the dirt cup component for arranging above-mentioned first aspect, so as to improve
The overall performance of hand-held cleaners.
Additional aspect of the present utility model and advantage will be set forth in part in the description, partly will be from explained below
In become obvious, or by it is of the present utility model practice recognize.
Description of the drawings
Fig. 1 is the sectional view of the hand-held cleaners according to this utility model one embodiment;
Fig. 2 is the fundamental diagram of the hand-held cleaners shown in Fig. 1;
Fig. 3 is the sectional view of the dirt cup component of the hand-held cleaners according to this utility model another embodiment;
Fig. 4 is the fundamental diagram of the dirt cup component shown in Fig. 3;
Fig. 5 is the part-structure schematic diagram of the glass shell shown in Fig. 4;
Fig. 6 is the remainder structural representation of the glass shell shown in Fig. 4;
Fig. 7 is the schematic diagram that the hood and cyclone separator shown in Fig. 5 is integrated part;
Fig. 8 is the upward view of the hood and cyclone separator shown in Fig. 7;
Fig. 9 is the sectional view of the hood and cyclone separator shown in Fig. 7;
It is one that Figure 10 is the hood and cyclone separator of the hand-held cleaners according to this utility model further embodiment
The schematic diagram of body part.
Reference:
Hand-held cleaners 1000;
Dirt cup component 100;
Glass shell 1;
Cup body 11;Inner bottom wall 110;Opening 111;Suction port 112;
First dust-break piece 113;Second dust-break piece 114;
Bowl cover component 12;Inner cap 121;Extension 1211;Become a mandarin intercommunicating pore 12110;Air outlet ring 1212;Go out
Stream intercommunicating pore 12120;Enclosing cover 122;Filtration members 1221 in lid;Air channel part 1222 in lid;
Hood 2;Cover body 21;First section 211;Transitional cylinder section 212;Second section 213;
Cover bottom 22;Air vent 220;Keeper 23;Sealing member 24;Filtration members 25 in cover;
Bracket 26;Holding unit 261;Connecting portion 262;Limiting section 263;Vibration-damped component 264;Raised 2641;
Negative pressure device 3;Blower fan 31;Motor 32;
Cyclone separator 4;First cyclonic separation part 41;Cyclone cylinder 410;Direct tube section 411;Conical cylinder section 412;
Second cyclonic separation part 42;Every cylinder portion 421;Dust collecting trough 4210;
Filter cylinder portion 422;Filtering holes 4221;Eaves circle portion 423;
Dedusting chamber A1;One cyclonic chamber A11;Two grades of cyclonic chamber A12;Whirlwind air channel A10;Second order product dirt chamber A13;
Connection chamber A2;Connection air channel A20;Discharge chamber A3;
Handleset 200;
Handle housing 51;Refer to buckle 510;Installation portion 511;Holding part 512;513 at the top of handle;Handle bottom 514;
Electric supply installation 52;Electric-controlled plate 53.
Specific embodiment
Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein ad initio
Same or similar element or the element with same or like function are represented to same or similar label eventually.Below by ginseng
The embodiment for examining Description of Drawings is exemplary, it is intended to for explaining this utility model, and it is not intended that to this utility model
Restriction.
Following disclosure provides many different embodiments or example is used for realizing different structure of the present utility model.For
Simplification disclosure of the present utility model, is hereinafter described to the part and setting of specific examples.Certainly, they are only and show
Example, and purpose does not lie in restriction this utility model.Additionally, this utility model can in different examples repeat reference numerals
And/or letter.This repetition is for purposes of simplicity and clarity, itself not indicate discussed various embodiments and/or set
Relation between putting.Additionally, the example of the various specific technique that provides of this utility model and material, but this area is common
Technical staff can be appreciated that the use of the applicable property and/or other materials of other techniques.
Below with reference to the accompanying drawings hand-held cleaners 1000 according to this utility model embodiment are described.
As shown in figure 1, according to the hand-held cleaners 1000 of this utility model embodiment, including:Dirt cup component 100 and hold
Component, wherein, dirt cup component 100 be used for suck the dust and gas in environment and the filtering dust in dust and gas is fallen, and then will purification after
Air-flow blow back in environment, so as to play a part of to adsorb dust in environment, hold component on the dirt cup component 100 and use
In hand-held, it can be Handleset 200 shown in handle or Fig. 1 etc. for example to hold component, so as to user can pass through hand-held
Hold component and carry out mobile dust cup assembly 100, specific aim is carried out to objective (such as sofa top, ceiling) in environment etc.
Cleaning.
As shown in figure 1, dirt cup component 100 includes:Glass shell 1, hood 2 and negative pressure device 3.Wherein, hood 2 is located at glass shell 1
Interior, negative pressure device 3 is located in hood 2, that is to say, that glass shell 1 is located at outside hood 2, and hood 2 is located at outside negative pressure device 3, from
And negative pressure device 3 is accommodated in glass shell 1, such that it is able to effectively improve the structural compactness of dirt cup component 100 so that dirt
100 small volume and less weight of cup assembly, is easy to hand-held and appearance looks elegant.Preferably, glass shell 1 is detachably connected with hood 2, so as to convenient
Cleaning, maintenance and replacing.
Here, it should be noted that " hood 2 is located in glass shell 1 " as broad understanding, that is, should be understood to:Hood 2
It is to be located at the inner chamber of glass shell 1 within reference to the remainder in addition to next segment description except being located at the local at opening 111, and
Hood 2 be located at opening 111 at local can be located within the inner chamber of glass shell 1 with reference to next segment description, can also be by opening
Outside 111 inner chambers for reaching glass shell 1.
With reference to Fig. 1, there is in glass shell 1 opening 111, the local of hood 2 has air vent 220 and is located at opening 111 sentences
Manifested by opening 111, that is to say, that the local of hood 2 is located at opening 111 and is manifested by opening 111, and the local has
There is air vent 220, air vent 220 is also manifested by opening 111, so as to the air-flow in hood 2 can pass through air vent 220 and open
Mouth 111 is passed to outside glass shell 1.
Wherein, " local of hood 2 is located at opening 111 " refers to:The local capping opening 111 of hood 2, so that opening
111 are only connected with the air vent 220 on the local.Wherein, at least part of of the local can be reaching glass shell by opening 111
Outside 1 inner chamber as shown in figures 1 and 3, with relatively reliable and be effectively discharged out air-flow, and the local of hood 2 can be improved
With 111 Position location accuracy of opening, make the functional reliability of dirt cup component 100 higher.
With reference to Fig. 2, there is in glass shell 1 suction port 112, between hood 2 and glass shell 1, limit what is connected with suction port 112
Dedusting chamber A1, dedusting chamber A1 can be by the outer surface of hood 2 with glass shell 1 inner surface limit jointly, the company of limiting in hood 2
The discharge chamber A3 led between air vent 220 and dedusting chamber A1.So, due to dedusting chamber A1 be limited to hood 2 and glass shell 1 it
Between, and discharge chamber A3 be limited in hood 2, so as to dedusting chamber A1 surround discharge chamber A3.
Negative pressure device 3 is for providing negative pressure to discharge chamber A3, so that the dust and gas in environment suck dedusting by suction port 112
In the A1 of chamber dust and gas separate, and the purifying gas flow that makes from the A1 of dedusting chamber to isolate enter hood 2, i.e. in discharge chamber A3 with by
Air vent 220, opening 111 are discharged in the environment beyond glass shell 1.In short, the dust and gas in environment are via in dirt cup component 100
Air channel, such as from dedusting chamber A1 to discharge chamber A3, the dust in dust and gas can filter storage in dirt cup component 100, and purify after
Air-flow can be back in environment.
Thus, from the point of view of the air channel layout in dirt cup component 100, as dedusting chamber A1 surrounds discharge chamber A3, so as to very big
Improve the compactedness of air channel layout, reduce suction loss, improve efficiency.It is additionally, since air vent 220 and is formed in hood 2
Go up and directly air-flow can be discharged in environment by the opening 111 in glass shell 1, so as to be effectively shortened exhaust pathway,
Energy consumption is reduce further, efficiency is improve.Further, since suction port 112 be formed in glass shell 1 and be limited to glass shell 1 with
Dedusting chamber A1 connections between hood 2, and as air vent 220 is formed on hood 2 and is connected with the discharge chamber A3 in hood 2
Logical, so as to the layout in air channel is simple, easy to process and the short-circuit problem of air current flow will not occur, filter dirt reliability is high, effect
It is good.
Certainly, this utility model not limited to this, in other embodiment of the present utility model, air vent 220 can also be without
It is formed on hood 2, for example air vent 220 is additionally formed in glass shell 1, discharge chamber A3 can be by interface channel etc. and row
QI KOU 220 is connected, and now, can not have opening 111 in glass shell 1, the local of hood 2 also need be not necessarily positioned at opening 111 sentence it is aobvious
Expose.
In some preferred embodiments of the present utility model, hood 2 is tubular and is located in glass shell 1, the axial direction one of hood 2
Fit with the local inner surface (such as the lower surface shown in Fig. 1) of glass shell 1 side outer face (such as the lower surface shown in Fig. 1)
Or pass the local inner surface (such as the lower surface shown in Fig. 1) of glass shell 1, the inner surface of glass shell 1 and the outer peripheral face of hood 2 it
Between limit the dedusting chamber A1 circumferentially around hood 2 along hood 2.Thus, the air channel layout in dirt cup component 100 is more stepped up
Gather, suction and discharge path is shorter, and energy consumption is lower, and efficiency is higher.
Preferably, as shown in figures 1 and 3, glass shell 1 and hood 2 are all formed as tubular, and the axis and hood 2 of glass shell 1
Diameter parallel is arranged, and the exterior bottom wall of hood 2 is fitted with the inner bottom wall of glass shell 1 or through the inner bottom wall of glass shell 1, now, dedusting chamber
A1 can be the Ring-cylindrical cavity between the periphery wall of the internal perisporium and hood 2 that are limited to glass shell 1, so, when by suction port 112
Along dedusting chamber A1 when tangentially opening up, dedusting chamber A1 is also used as cyclonic separation chamber and carries out cyclone dust edema caused by disorder of QI from so as to carry
High clean-up effect.It is further preferred that glass shell 1 and hood 2 are coaxially arranged, i.e. the hood 2 of the axis and tubular of the glass shell 1 of tubular
Dead in line, now dedusting chamber A1 can be annulus cylindrical cavity, dust and gas separating effect more preferably, and convenient rotation hereinafter described
The installation of wind segregation apparatuss 4.
In sum, the hand-held cleaners 1000 according to this utility model embodiment, it is compact conformation, small volume and less weight, hand-held
It is laborsaving, and the air channel of hand-held cleaners 1000 is compact, energy consumption is little, efficiency is high.
Below with reference to the accompanying drawings describe according to some embodiment dirt cup components 100 of this utility model.
As depicted in figs. 1 and 2, connection chamber A2, connection chamber A2 can connect in dedusting chamber A1 and discharge chamber in glass shell 1
Between A3, so as to the air-flow isolated from the A1 of dedusting chamber can be entered in hood 2, i.e. into discharge chamber A3 by connecting chamber A2
It is interior.Thus, by connection chamber A2 is processed in glass shell 1 so that dedusting chamber A1 is connected with discharge chamber A3, so as to dirt cup component
Air channel layout in 100 is compacter, and air-breathing energy consumption is lower, and efficiency is higher.Certainly, this utility model not limited to this, can also lead to
Cross other modes dedusting chamber A1 is connected together with discharge chamber A3, for example, can be by arranging connecting line etc. by dedusting chamber
A1 is connected with discharge chamber A3.
With reference to Fig. 1, glass shell 1 includes:Cup body 11 and bowl cover component 12, wherein, the open at one end of cup body 11, bowl cover component 12
It is sealed on the open end of cup body 11, thus, the simple structure of glass shell 1 is easy to process and is assembled.Preferably, bowl cover component 12
Removably it is sealed on the open end of cup body 11.That is, bowl cover component 12 is detachably connected with cup body 11, so as to side
Just bowl cover component 12 is disassembled from cup body 11, in order to clean cup body 11 and bowl cover component 12.For example, cup body 11 and cup
Cap assemblies 12 can be detachably connected by helicitic texture or buckle structure etc..
In addition, in some embodiments of the present utility model, cup body 11 can also include main part and base lid portion, main part
For the tubular of both ends open, on an open end of main part, thus base lid portion can be opened and closed to be connected to, when base lid portion is opened
When, can be by the dust gathered in main part to going out, thus, convenient use.
Reference Fig. 2, suction port 112 and opening 111 can be both formed in cup body 11, and connection chamber A2 can be limited to bowl cover
In component 12, that is to say, that there is in cup body 11 opening 111 and suction port 112, there is in bowl cover component 12 connection chamber A2, from
And the processing of chamber A2 is conveniently connected, and when connecting chamber A2 and being limited in bowl cover component 12, connection chamber A2 may be located at 2 He of hood
The homonymy (such as the upside shown in Fig. 1) in dedusting chamber 1, so as to further simplify the layout in air channel, improves reliable operation
Property.For example in a preferred exemplary of the present utility model, cup body 11 is formed as vertical tube shape, i.e., the tubular of vertical setting, cup body
To be configured to open end, bowl cover component 12 is sealed on the top of cup body 11 to 11 open top, and suction port 112 can be formed in cup
On the side wall of body 11, opening 111 can be formed on the diapire of cup body 11.Thus, the unitary construction of glass shell 1 is simple, be easy to plus
Work, dismounting and assembling.
Here, it should be noted that " tubular " is circular as the cross section not limited to this of broad understanding, i.e. tubular, and cylinder
The size of each cross section of shape can be with equal or different.In addition, " vertical setting " refers to the axis of tubular substantially along institute in Fig. 1
The above-below direction that shows extends, but, hand-held cleaners 1000 during use, according to the hand-held angle change of user, cup
Body 11 can no longer keep vertical state, and for example, cup body 11 may be at heeling condition or horizontal state etc..
Further, hood 2 is located in cup body 11, dedusting chamber A1 be limited to bowl cover component 12, cup body 11 and hood 2 it
Between, and connect chamber A2 and be limited in bowl cover component 12.Thus, dedusting chamber A1 can naturally enough, and easily with connect chamber A2
It is connected together, and, dedusting chamber A1 is clear with the location layout's orderliness for connecting chamber A2, so that the wind of dirt cup component 100
Road smoothness is high, and the short-circuit problem that flows will not occur.
As depicted in figs. 1 and 2, bowl cover component 12 includes:Inner cap 121 and enclosing cover 122, inner cap 121 and enclosing cover 122 cover and set
On the open end of cup body 11 and enclosing cover 122 is located at outside inner cap 121, connection chamber A2 be limited to enclosing cover 122 and inner cap 121 it
Between, dedusting chamber A1 is limited between hood 2, inner cap 121 and cup body 11, has connection in connection chamber A2 and dedusting on inner cap 121
The intercommunicating pore 12110 that becomes a mandarin between the A1 of chamber, that is to say, that dedusting chamber A1 is connected by the intercommunicating pore 12110 that becomes a mandarin on inner cap 121
To connection chamber A2, so as to the air-flow isolated in the A1 of dedusting chamber can be entered in connection chamber A2 by the intercommunicating pore 12110 that becomes a mandarin.
Thus, the simple structure of bowl cover component 12, is easy to processing connection chamber A2.
Preferably, with the extension 1211 extended to the inside of cup body 11 on inner cap 121, the intercommunicating pore 12110 that becomes a mandarin is by prolonging
Stretch pipe 1211 to limit, for example in the example depicted in fig. 1, inner cap 121 can be horizontally set on the top of cup body 11, extension
1211 can be extended downward in cup body 11 by inner cap 121.Thus, become a mandarin intercommunicating pore 12110 connection effect more preferably, dedusting chamber
The air-flow isolated in A1 can more be stablized, reliably be entered in connection chamber A2 by extension 1211.
Preferably, further with the air outlet ring 1212 extended to the inside of cup body 11 on inner cap 121, air outlet ring 1212 is socketed
In or beyond the open end of hood 2, air outlet ring 1212 limit connection connection chamber A2 with inside hood 2, connect connecting
Go out to flow intercommunicating pore 12120 between chamber A2 and discharge chamber A3, such as, in the example shown in Fig. 1 and Fig. 2, inner cap 121 can be with water
The flat top for being arranged on cup body 11, air outlet ring 1212 can be extended downward in cup body 11 by inner cap 121 and the air intake with hood 2
End (such as the top of the hood 2 shown in Fig. 1) open end socket coordinates.Thus, go out to flow the air-out effect of intercommunicating pore 12120 more
It is good, connect the air-flow isolated in the A2 of chamber and can more stablize, reliably be entered in discharge chamber A3 by air outlet ring 1212, keep away
Exempt from the problem of airflow short circuit.
In an optional example of the present utility model, inner cap 121 and enclosing cover 122 are removably mounted on cup body 11 respectively
On.That is, inner cap 121 is removably joined directly together with cup body 11, enclosing cover 122 is removably joined directly together with cup body 11,
And inner cap 121 is not joined directly together with enclosing cover 122, thus, it is possible to enclosing cover 122 and inner cap are disassembled from cup body 11 directly
121, such that it is able to easily clean inner cap 121 and enclosing cover 122.
For example in the example depicted in fig. 1, inner cap 121 be partially submerged in cup body 11 and edge is only against the spacious of cup body 11
On beginning, to prevent inner cap 121 from falling into inside cup body 11, enclosing cover 122 is snapped connection or spiral shell with the outer wall of the open end of cup body 11
Stricture of vagina connects.Thus, it is possible to simply disassemble enclosing cover 122 from cup body 11, then inner cap 121 is removed i.e. from cup body 11
Dismounting can be completed.Thus, simple structure, easy to disassemble and cleaning.
In another optional example of the present utility model, the not shown example, inner cap 121 are removably mounted on outer
On lid 122, and inner cap 121 and enclosing cover 122 in one of them be removably mounted in cup body 11.That is, enclosing cover 122
Removably it is joined directly together with inner cap 121, and one of them in inner cap 121 and enclosing cover 122 is removably direct with cup body 11
It is connected, thus, it is possible to directly bowl cover component 12 is disassembled from cup body 11, then inner cap 121 and enclosing cover 122 are taken apart, so as to
Inner cap 121 and enclosing cover 122 can easily be cleaned.
See figures.1.and.2, bowl cover component 12 also includes:Filtration members 1221 in lid, in lid, filtration members 1221 removably set
Between inner cap 121 and enclosing cover 122 and it is located at and connect in the A2 of chamber, thus, air-flow is entered from dedusting chamber A1 and connected after the A2 of chamber, can be with
Through the further filtration of the interior filtration members 1221 of lid, to improve dust removing effects, cleaner air is made to enter in discharge chamber A3,
Guarantee that negative pressure device 3 more reliably can work, service life is longer.
Preferably, in covering, filtration members 1221 are detachably arranged in connection chamber A2.That is, filtration members 1221 are in lid
Can remove from connection chamber A2, consequently facilitating filtration members 1221 in cleaning or replacing lid, so as to improve dust-absorbing filtering effect
Really.For example in the example depicted in fig. 1, in covering, filtration members 1221 can position air channel part 1222 in the lid being described below with sandwiched
Between inner cap 121, and for example in the example depicted in fig. 3, lid in filtration members 1221 can with sandwiched be positioned at inner cap 121 with it is outer
Between lid 122.Thus, after inner cap 121 and enclosing cover 122 are taken apart, in lid, filtration members 1221 directly can be deviate from, so as to enter
One step improves removal efficiency.
Reference picture 1- Fig. 4, bowl cover component 12 also include air channel part 1222 in lid, and the interior air channel part 1222 of lid is with inner cap 121 altogether
Chamber A2 is connected with limiting.Thus, the formation of convenient connection chamber A2.For example in the example depicted in fig. 3, air channel part 1222 in covering
It is integrally formed on the internal face of enclosing cover 122, that is to say, that the internal face of enclosing cover 122 can be configured to cover interior air channel part 1222,
So as to convenient processing.Again for example in the example depicted in fig. 1, in lid, air channel part 1222 is detachably arranged in inner cap 121 and enclosing cover
Between 122, so as to the dismounting and cleaning of air channel part 1222 in convenient cap.
Preferably, with reference to Fig. 3 and Fig. 4, connection chamber A2 includes multiple independent connection air channel A20.That is, lid endogenous wind
Multiple connectivity slots are could be formed with road part 1222, one are limited between each connectivity slot and inner cap 121 and is connected air channel A20,
Multiple connection air channel A20 are configured to connect chamber A2.The intercommunicating pore 12110 that becomes a mandarin is multiple and corresponding with multiple connection air channel A20 connect
It is logical, that is to say, that each intercommunicating pore 12110 that becomes a mandarin corresponds to a connection air channel A20 respectively, so as to multiple intercommunicating pores that become a mandarin
12110 can be input into air-flow correspondingly into multiple connection air channel A20.Thus, filter effect is more preferable.
Preferably, as depicted in figs. 1 and 2, in covering, filtration members 1221 are multiple and are accordingly located at multiple connection air channel A20
It is interior, that is to say, that can be filtered by filtration members 1221 in a lid into the air-flow in each connection air channel A20.Thus, may be used
To effectively improve filter effect.Certainly, this utility model not limited to this, in lid, filtration members 1221 can also be one and be ring
Shape, now, can be respectively equipped with the part of filtration members 1221 in lid, thus, can equally improve in each connection air channel A20
Filter effect, and it is easy to dismounting.
In some embodiments of the present utility model, the negative pressure device 3 in hood 2 is may be mounted on hood 2, by
This, facilitates the installation of negative pressure device 3, and overall structure is simple.Certainly, this utility model not limited to this, negative pressure device 3 can be with
It is first-class installed in glass shell 1.
For example in the example depicted in fig. 1, negative pressure device 3 is arranged on hood 2 by bracket 26, and for example, bracket 26 can
To include:Holding unit 261 and connecting portion 262, holding unit 261 are supported on the bottom of negative pressure device 3, connecting portion 262 and holding unit
261 are connected, and are connected to hood 2.Thus, negative pressure device 3 steadily and reliably can be fixed by the simple structure of bracket 26
In hood 2.
Preferably, connecting portion 262 is detachably connected with hood 2.Thus, it is possible to by bracket 26 is torn open from hood 2
Under mode negative pressure device 3 is taken out from hood 2, so as to facilitate the maintenance and replacing of negative pressure device 3.For example in this utility model
Some preferred exemplaries in, connecting portion 262 and hood 2 are all formed as tubular, the periphery wall of connecting portion 262 and the inner circumferential of hood 2
Wall is detachably connected by buckle structure or helicitic texture, thus, conveniently processes and dismounting effect is more preferable.Here, need
Bright, in description herein, the technical scheme for being threadedly coupled and snapping connection is well known to the skilled person, this
In no longer describe in detail.
Further, with reference to Fig. 1, bracket 26 can also further include:Limiting section 263, limiting section 263 is for annular and encloses
Set negative pressure device 3, and it is connected to connecting portion 262 and/or holding unit 261.That is, 263 one side of limiting section is filled with negative pressure
Put 3 spacing cooperations, on the other hand can be connected to connecting portion 262, can also be connected to holding unit 261, can also be while connecting
To connecting portion 262 and holding unit 261, for example in the example depicted in fig. 1, limiting section 263 can be integrated with holding unit 261
Part.Thus, bracket 26 more steadily and reliably can be fixed on hood 2 in glass shell 1.
With reference to Fig. 1, vibration-damped component 264 between bracket 26 and negative pressure device 3, is provided with.Thus, in the process of the work of negative pressure device 3
Even if in produce vibration, vibration also can be weakened by vibration-damped component 264, without being entirely delivered to bracket 26, so as to effectively improve
The connection reliability of bracket 26 and hood 2, and, by arranging vibration-damped component 264, vibration noise can also be effectively reduced,
Improve the comfort of hand-held cleaners 1000.
Preferably, the local of the side surface towards negative pressure device 3 of vibration-damped component 264 is spaced apart with negative pressure device 3.For example
In the example depicted in fig. 1, have raised 2641 on vibration-damped component 264, negative pressure device 3 is supported on raised 2641, so as to vibration damping
Not having between raised 2641 surface and negative pressure device 3 for part 264 can keep certain interval, subtract so as to further increase
Shake the effectiveness in vibration suppression of part 264.
As shown in figure 1, further having the keeper 23 for preventing from altering on negative pressure device 3, thus, negative pressure device 3 in hood 2
On the one hand its anti-decline towing force can be applied to by bracket 26, on the other hand which can be applied to by keeper 23 and be prevented
On alter to power, so as to negative pressure device 3 more reliablely and stablely can be located in hood 2, to improve the reliable operation of negative pressure device 3
Property.
Preferably, keeper 23 is tubular, and axial one end (such as the upper end shown in Fig. 1) of keeper 23 can be with
The inlet end connection of hood 2, the axial other end (such as the lower end shown in Fig. 1) of keeper 23 can be with negative pressure device 3
Inlet end is connected, so as to 23 another aspect of keeper may also operate as the guide effect to air-flow so that the gas in hood 2
Stream preferably can be blown away by negative pressure device 3, and to reduce suction atmidometer, reducing energy consumption improves efficiency.Preferably, keeper
The 23 axial other end (such as the lower end shown in Fig. 1) is provided with sealing member 24 with the junction of negative pressure device 3, so as to further
Improve the getter capacity of negative pressure device 3, reducing energy consumption.
See figures.1.and.2, opening 111 can be formed on the diapire of glass shell 1.Now, the bottom of hood 2 is located at opening
At 111 and air vent 220 is formed on the bottom of hood 2, for example, it is formed on the diapire of hood 2, that is to say, that glass shell 1
There is on diapire opening 111, the bottom of hood 2 has air vent 220 and is located at opening 111 and sentences and manifested by opening 111.By
This, the air-flow in hood 2 from up to down can pass through air vent 220 and opening 111 is discharged, that is to say, that handles and holds vacuum cleaner
The air-flow of 1000 purifications is to discharge downwards, rather than is blown out upwards or to side, so as to the air-flow for effectively improving blowout blows
To user, the uncomfortable experience of cause the user, and then improve the comfort of hand-held cleaners 1000.
Preferably, air vent 220 is multiple and is uniformly arranged throughout on the diapire of hood 2.Thus, hand-held cleaners 1000 can
With it is more efficient, rapid, and unimpededly discharge purification gas, so as to reduce suction atmidometer, further reducing energy consumption improves handss
Hold the overall efficiency of vacuum cleaner 1000.
See figures.1.and.2, when hood 2 is formed as vertical tube shape, hood 2 can include:Cover body 21 and cover bottom 22, cover body
21 are formed as vertical tube shape, and cover bottom 22 is formed as bowl-type and is connected to the bottom of cover body 21, and air vent 220 is formed on cover bottom 22.
Thus, the simple structure of hood 2, be easy to dismount and be easy to processing.Further, since hood 2 is easy to dismounting, so as on the one hand be easy to
Inside user's cleaning hood 2, on the other hand it is easy to professional's maintenance and changes negative pressure device 3.
Certainly, this utility model not limited to this, when hood 2 is only formed as tubular but non-vertical setting, hood 2 can be with
Including:Cover body 21 and cover bottom 22, but cover body 21 is only formed as tubular and non-vertical setting, and cover bottom 22 is formed as bowl-type and connection
In axial one end of cover body 21.Below, only illustrate so that hood 2 is formed as vertical tube shape as an example, when those skilled in the art read
After having read techniques below scheme, it is clear that be appreciated that only to be formed as the technical scheme of tubular but non-vertical setting when hood 2.
Preferably, cover body 21 is located in glass shell 1 and the bottom of cover body 21 is only against in the inner bottom wall 110 of glass shell 1, now,
Dedusting chamber A1 only along cover body 21 circumferentially around cover body 21, and do not surround cover bottom 22, so as to further increase dirt cup component
The compactedness of 100 air channel layout, to reduce suction and discharge energy consumption, improve efficiency, while guaranteeing the structure of dirt cup component 100 more
Small volume and less weight.In addition, cover body 21 is positioned by this kind of mode with glass shell 1, determining for hood 2 and glass shell 1 can also be effectively improved
Position reliability, and easy disassembly.
For example in a preferred exemplary of the present utility model, the not shown example, cover body 21 are respectively positioned on cover bottom 22
In glass shell 1 and cover the exterior bottom wall at bottom 22 and fit with the inner bottom wall 110 of glass shell 1, and cover bottom 22 the position with air vent 220 and
Opening 111 is just right.Thus, it is easy for installation.
For example in another preferred exemplary of the present utility model, with reference to Fig. 1 and Fig. 3, cover body 21 is located in glass shell 1, cover
The top at bottom 22 is stretched into and is coordinated with cover body 21 in glass shell 1, and the bottom for covering bottom 22 is passed downwards the inner bottom wall of glass shell 1 by opening 111
110, and the air vent 220 covered on bottom 22 is also passed downwards the inner bottom wall 110 of glass shell 1, now, the bottom of hood 2 by opening 111
The inner bottom wall 110 of glass shell 1 is passed downwards by opening 111.Thus, easy for installation and good positioning effect.Preferably, cover the outer of bottom 22
Perisporium is snapped connection or is threadedly coupled with the internal perisporium of cover body 21.Thus, facilitate the dismounting of cover body 21 and cover bottom 22.
Further, with reference to Fig. 1, dirt cup component 100 is further included:Filtration members 25 in cover, in cover, filtration members 25 are located at
In hood 2 and positioned between air vent 220 and negative pressure device 3.That is, the air-flow in discharge chamber A3 needs the mistake in cover
After the filtration of filter part 25, then discharged by air vent 220.Thus, it is possible to further improving hand-held cleaners 1000 discharges gas
The clean-up effect of body.
In some embodiments of the present utility model, with reference to Fig. 3, dirt cup component 100 is further included:Cyclone separator
4, cyclone separator 4 is located in the A1 of dedusting chamber and limits cyclonic separation chamber in the A1 of dedusting chamber.Thus, into dedusting chamber A1
Dust centrifugation can be thrown away in the way of whirlwind by interior dust and gas in cyclonic separation intracavity, so as to further improve dust removing effects.
Preferably, on the flow direction of air-flow, cyclonic separation chamber includes the multistage cyclonic chamber being sequentially communicated, and thus, enters
Enter the dust and gas in the A1 of dedusting chamber and can sequentially pass through the multiple dust and gas separation in multistage cyclone chamber, so as to improve dust removing effects.Below only
Illustrate so that cyclonic separation chamber is two grades and three-level as an example, after those skilled in the art have read techniques below scheme,
Obviously the technical scheme that cyclonic chamber is more stages can be deduced, is repeated no more here.
For example in the example depicted in fig. 4, when cyclonic separation chamber is two grades, cyclonic separation chamber includes one cyclonic chamber
A11 and two grade of cyclonic chamber A12, one cyclonic chamber A11 turn on the upstream of two grades of cyclonic chamber A12, thus, in the A1 of dedusting chamber
Dust and gas be introduced in the A11 of one cyclonic chamber dust and gas and separate, enter back into dust and gas in two grades of cyclonic chamber A12 and separate.Again for example, work as rotation
When wind disengagement chamber is three-level, the not shown example, cyclonic separation chamber include one cyclonic chamber, two grades of cyclonic chambers and three-level whirlwind
Chamber, one cyclonic chamber turn on the upstream of two grades of cyclonic chambers, and two grades of cyclonic chambers turn on the upstream of three-level cyclonic chamber, thus, enter
Enter the dust and gas in the A1 of dedusting chamber and be introduced into the separation of one cyclonic intracavity dust and gas, enter back into two grades of whirlwind intracavity dust and gas and separate, enter again
Enter the separation of three-level whirlwind intracavity dust and gas.
Preferably, hood 2 is tubular, and every grade of cyclonic chamber is all formed as Ring-cylindrical cavity, and on the flow direction of air-flow,
Upstream one cyclonic chamber along hood 2 circumferentially around downstream one cyclonic chamber, such as one cyclonic chamber along hood 2 circumferentially around
, along hood 2 circumferentially around three-level cyclonic chamber, the rest may be inferred for two grades of cyclonic chambers, two grades of cyclonic chambers.It is further preferred that most downstream
Along hood 2 circumferentially around hood 2, such as, when cyclonic chamber is two grades, two grades of cyclonic chamber A12 are along hood 2 in one cyclonic chamber
Circumferentially around hood 2, when cyclonic chamber is three-level, along hood circumferentially around hood 2, the rest may be inferred for three-level cyclonic chamber.Thus,
The overall compact in design of cyclonic chamber can be improved, the air-breathing energy consumption of negative pressure device 3 is reduced.
Below, briefly describe the cyclone separator 4 according to some embodiments of this utility model.
As depicted in figs. 1 and 2, cyclone separator 4 makes cyclonic separation chamber for two grades, and now, cyclone separator 4 includes
First cyclonic separation part 41 and the second cyclonic separation part 42, wherein, the first cyclonic separation part 41 limits two grades of cyclonic chamber A12,
So as to be properly termed as two grades of cyclonic separation parts again, the second cyclonic separation part 42 limits one cyclonic chamber A11, so as to can claim again
For one cyclonic separation member.
Certainly, this utility model not limited to this, cyclone separator 4 can also only include the first cyclonic separation part 41 or the
Two cyclonic separation parts 42, now, it is one-level that cyclone separator 4 makes cyclonic separation chamber.Below, only with cyclone separator 4 both
Illustrate as a example by including the second cyclonic separation part 42 again including the first cyclonic separation part 41, those skilled in the art are reading
After techniques below scheme, it is clear that be appreciated that cyclone separator 4 only includes the first cyclonic separation part 41 or the second whirlwind point
The technical scheme of off member 42.
With reference to Fig. 3 and Fig. 4, when hood 2 is tubular, the first cyclonic separation part 41 is located in the A1 of dedusting chamber and along hood 2
Circumferentially around hood 2, negative pressure device 3 make dust and gas in the A1 of dedusting chamber by the separation of 41 dust and gas of the first cyclonic separation part.By
This, when the first cyclonic separation part 41 along hood 2 circumferentially around hood 2 when, the first cyclonic separation part 41 can be more fully
Using the space in the A1 of dedusting chamber, so as to improve dust and gas separating effect.In addition, the structure of dirt cup component 100 is compacter, it is compact
It is light.
With reference to Fig. 3 and Fig. 4, when hood 2 is tubular, the second cyclonic separation part 42 is tubular, the second cyclonic separation part 42
It is set between hood 2 and glass shell 1, for example the second cyclonic separation part 42 coaxially can be set in outside hood 2, negative pressure device 3
Dust and gas are made to separate by 42 dust and gas of the second cyclonic separation part in the A1 of dedusting chamber.Thus, when the second cyclonic separation part 42 is along machine
Cover 2 circumferentially around hood 2 when, the second cyclonic separation part 42 can more fully using the space in the A1 of dedusting chamber, so as to
Improve dust and gas separating effect.In addition, the structure of dirt cup component 100 is compacter, small volume and less weight.In the present embodiment, work as dirt cup
When component 100 also includes the first cyclonic separation part 41, the first cyclonic separation part 41 may be located at the second cyclonic separation part 42 and machine
Between cover 2, that is to say, that the second cyclonic separation part 42 is may be located between the first cyclonic separation part 41 and glass shell 1, now, is entered
Enter dust and gas in the A1 of dedusting chamber can first pass through the second cyclonic separation part 42 carry out dust and gas separation, again pass through the first cyclonic separation part 41
Carry out dust and gas separation.
In some embodiments of the present utility model, as shown in Figure 2 and Figure 4, at least one cyclonic chamber is included along hood 2
The whirlwind air channel A10 multiple at the same level being circumferentially sequentially arranged, so, the air-flow isolated from upper level cyclonic chamber can be respectively enterd
Separate in multiple whirlwind air channel A10, to carry out independent dust and gas, such that it is able to further improve dust and gas separating effect and purification
Effect.
Preferably, one cyclonic chamber in most downstream includes multiple most downstream one cyclonics that the circumference along hood 2 is sequentially arranged
Air channel A10, connection chamber A2 include multiple connection air channel A20, multiple connection air channel A20 and multiple most downstream one cyclonic air channels
A10 correspondences are connected.For example in the example depicted in fig. 4, when cyclonic chamber is two grades, two grades of cyclonic chamber A12 include multiple whirlwind
Air channel A10;And when cyclonic separation chamber is three-level the not shown example, three-level cyclonic chamber includes multiple whirlwind air channel A10.
Multiple whirlwind air channel A10 correspond connection with multiple air channel A20 that connect, such as in the example shown in Fig. 3 and Fig. 4
In, multiple extensions 1211 can coordinate in multiple whirlwind air channel A10 correspondingly, so that multiple intercommunicating pores that become a mandarin
Multiple whirlwind air channel A10 are connected together by 12110 respectively correspondingly with multiple air channel A20 that connect.Thus, filter effect
More preferably.
For example in some specific examples of the present utility model, with reference to Fig. 3, Fig. 4 and Fig. 7, the first cyclonic separation part 41 is
Around multiple cyclone cylinders 410 of hood 2, each cyclone cylinder 410 limits a whirlwind air channel A10, thus, into dedusting chamber A1
Interior dust and gas can carry out independent cyclone dust edema caused by disorder of QI from so as to effectively carry through respectively enteing in multiple cyclone cylinders 410
High dust and gas separating effects, improve the pick-up performance of hand-held cleaners 1000.
Preferably, with reference to Fig. 3, Fig. 4 and Fig. 7, cyclone cylinder 410 can be formed as vertical tube shape, and the side wall of cyclone cylinder 410 can be with
Open wide to be formed as air inlet, and air inlet be along the tangentially extending of cyclone cylinder 410, and the top of cyclone cylinder 410 can open wide with
Be formed as gas outlet, the bottom of cyclone cylinder 410 can be opened wide to be formed as dust mouth, and the top of cyclone cylinder 410 only can be against
On the diapire of inner cap 121, and it is set in outside multiple extensions 1211 correspondingly, that is to say, that multiple extensions 1,211 1
One accordingly extend in multiple cyclone cylinders 410.
Thus, with reference to Fig. 4 and Fig. 9, the dust and gas for entering cyclone cylinder 410 by air inlet can be with cyclonic flow, by dust
Separate with gas, the dust isolated can be discharged, be deposited in the A1 of dedusting chamber by the dust mouth of 410 bottom of cyclone cylinder
Bottom (for example deposit to hereinafter described, second section 213 being limited to hood 2 and the second cyclonic separation part 42 every cylinder portion
In second order product dirt chamber A13 between 421), and the gas outlet that the gas isolated can pass through at the top of cyclone cylinder 410 is discharged, is flowed
Enter in the connection chamber A2 in bowl cover component 12.
Preferably, with reference to Fig. 3 and Fig. 4, the first cyclonic separation part 41 includes 411 He of direct tube section being axially connected along hood 2
Conical cylinder section 412, for example, when hood 2 is vertical tube shape, direct tube section 411 is connected to the top of conical cylinder section 412, the horizontal stroke of conical cylinder section 412
Sectional area is from up to down gradually reduced.So, into the dust and gas in cyclone cylinder 410 when 410 internal cyclone formula of cyclone cylinder flows, can
With more efficient and reliably carry out dust and gas separation, dust and gas separating effect is improved.
Preferably, with reference to Fig. 3 and Fig. 7, the first cyclonic separation part 41 is integrated part with hood 2.Thus, it is possible to improve processing
Efficiency, and the operation of the first cyclonic separation part 41 of assembling and hood 2 can be saved, packaging efficiency is improved, and due to first
Cyclonic separation part 41 is integrated part, modularity by force with hood 2, so as to reduce assembly difficulty, when user's dismounting dirt cup component 100
After being cleaned, easily dirt cup component 100 can also be assembled.In addition, when the first cyclonic separation part 41 with hood 2 is
During integral piece, the structural compactness of dirt cup component 100 can be further improved so that dirt cup component 100 is more light compact, and
And the dust capacity in dedusting chamber 1 can be improved, while the intensity of hood 2 on the premise of cost is not improved, can be improved.
For example in the example depicted in fig. 7, the first cyclonic separation part 41 can be formed in one on the periphery wall of hood 2
And around multiple cyclone cylinders 410 of hood 2.Thus, more efficiently reduce assembly difficulty, user can be with extremely simple complete
The dismounting of dusting cup assembly 100.Here, it should be noted that herein, two parts refer to two portions for " integral piece "
Part can not be split, and two parts " being integrally formed " refer to two parts while machine-shaping and for the entirety that can not be split
Part.
Preferably, with reference to Fig. 1 and Fig. 3, when hood 2 is tubular, in the axial direction of hood 2, at least portion of negative pressure device 3
Divide positioned at the side of the first cyclonic separation part 41.Thus, so, negative pressure device 3 can fully utilize the space in hood 2,
First cyclonic separation part 41 can make full use of the space outside hood 2, so that the structure of dirt cup component 100 is compacter.
Here, it should be noted that the first cyclonic separation part 41 not shown in Fig. 1 and Fig. 2.
Alternatively, with reference to Fig. 1, negative pressure device 3 includes blower fan 31 and the motor 32 being axially sequentially connected along hood 2, in machine
In the axial direction of cover 2, motor 32 and the first cyclonic separation part 41 are spaced apart, that is to say, that motor 32 is fully located at the first whirlwind point
The side of off member 41, thus, it is possible to more fully utilization space.Further, since negative pressure device 3 is by 32 groups of blower fan 31 and motor
Into so as to the composition of negative pressure device 3 is simple, readily available.Certainly, this utility model not limited to this, negative pressure device 3 can with by
Miscellaneous part is constituted, and for example, negative pressure device 3 can be being made up of vacuum pump etc..
Reference picture 1- Fig. 4, first section 211 that hood 2 includes axially being sequentially connected along hood 2, transitional cylinder section 212 and the
Two sections 213, wherein, the minimum barrel dliameter of the maximum barrel dliameter of first section 211 less than second section 213, thus, when hood 2 and
When between the periphery wall of internal perisporium and hood 2 that glass shell 1 is limited to glass shell 1 for the tubular that is coaxially disposed and dedusting chamber A1, dedusting
The volume of the part with first section 211 diametrically of chamber A1 can be more than the relative with second section 213 of dedusting chamber A1
Partial volume, and the volume of the part with second section 213 diametrically of discharge chamber A3 can be more than discharge chamber A3 with
The volume of the relative part of first section 211.
So, in hood 2 radially, when the first cyclonic separation part 41 is relative with first section 211 or with first section
211 and during relative transitional cylinder section 212, the first cyclonic separation part 41 can fully using the space of dedusting chamber A1, to improve dirt
Gas filter effect.Meanwhile, in hood 2 radially, when negative pressure device 3 is relative with second section 213 or with second section 213 and
When transitional cylinder section 212 is relative, negative pressure device 3 can fully using the space of discharge chamber A3, to improve dust and gas filter effect.
Preferably, axial length of the axial length of second section 213 more than transitional cylinder section 212, for example, second section
213 axial length can be more than the twice of axial length of transitional cylinder section 212, and the axial length of first section 211 can
With the axial length more than or equal to transitional cylinder section 212.Thus, the first cyclonic separation part 41 and negative pressure device 3 can be more abundant
Ground utilization space, improves the pick-up performance of 1000 entirety of hand-held cleaners.
Preferably, with reference to Fig. 3, first section 211 and second section 213 are direct tube section 411, and transitional cylinder section 212 is for gradually
Expand cylinder section.Thus, it is easy to process and assemble, and when the first cyclonic separation part 41 is integrally formed the periphery wall in first section 211
When on the upper and periphery wall of transitional cylinder section 212, the first cyclonic separation part 41 can be shaped to naturally by multiple direct tube sections 411 with it is many
Multiple cyclone cylinders 410 that the correspondence of individual conical cylinder section 412 is spliced, so as to not only be sufficiently used space, and improve dirt
Gas separating effect.
For example in the embodiment shown in fig. 3, cover body 21 be vertical tube shape and from top to bottom successively including first section 211,
212, second section 213 of transitional cylinder section, along direction from the top down, the cross-sectional area of first section 211 is equal everywhere, transition
The cross-sectional area of cylinder section 212 gradually increases, the cross-sectional area of second section 213 is equal everywhere.Thus, it is easy to process, and be easy to
The molding of multiple cyclone cylinders 410.
In some embodiments of the present utility model, hood 2 and the vertical setting of the second cyclonic separation part 42, the second whirlwind
The axial two ends of separation member 42 are only against on the internal face of glass shell 1, for example respectively, in the example shown in Fig. 1 and Fig. 3, second
The top of cyclonic separation part 42 is only against on the lower surface of inner cap 121, and the bottom of the second cyclonic separation part 42 is only against glass shell 1
In inner bottom wall 110.
So, the one of Ring-cylindrical can be limited between the internal perisporium of the periphery wall and glass shell 1 of the second cyclonic separation part 42
Level dedusting chamber, two grades that Ring-cylindrical can be limited between the periphery wall of the internal perisporium and hood 2 of the second cyclonic separation part 42 are removed
Dirt chamber, primary dust removing cavity ring is around two-stage dust removal chamber limiting jointly dedusting chamber with two-stage dust removal chamber.Thus, due to primary dust removing
Chamber and two-stage dust removal chamber positioned at the outer interior both sides of the second cyclonic separation part 42 and are Ring-cylindrical space respectively, such that it is able to effective
Ground improves the compact in design in dedusting chamber, improves the volume in primary dust removing chamber and two-stage dust removal chamber so that dust and gas more can be filled
Ground is divided to separate.
Wherein, with reference to Fig. 3 and Fig. 4, primary dust removing chamber can be with all one cyclonic chamber A11, the first cyclonic separation part 41
Two-stage dust removal intracavity can be located at, that is, be located between the periphery wall of internal perisporium and hood 2 of the second cyclonic separation part 42, with two
Level dedusting intracavity limits two grades of cyclonic chamber A12, and now, part of the two-stage dust removal intracavity in addition to two grades of cyclonic chamber A12 is two
Level laying dust chamber A13.
Preferably, see figures.1.and.2, the 42 vertical setting of the second cyclonic separation part, the second cyclonic separation part 42 include axial direction
It is connected every cylinder portion 421 and filter cylinder portion 422, wherein, filter cylinder portion 422 can be detachably connected to the top every cylinder portion 421, and
The filtering holes 4221 of connection one cyclonic chamber A11 and two grades of cyclonic chamber A12 are limited in filter cylinder portion 422, wherein, every cylinder portion 421
Bottom only can be against in the inner bottom wall 110 of glass shell 1, the top in filter cylinder portion 422 can only be against the lower surface of inner cap 121
On.Thus, the second cyclonic separation part 42 by an apertures cylindrical member (i.e. filter cylinder portion 422) and not apertures cylindrical member
(i.e. every cylinder portion 421) concatenation is formed, and so as to the simple structure of the second cyclonic separation part 42, is easy to process and is manufactured.
Certainly, this utility model not limited to this, the second cyclonic separation part 42 can be made up of miscellaneous part, for example,
Two cyclonic separation parts 42 can be to be constituted by being embedded the filter disc in multiple breach every cylinder and respectively with multiple breach, here
No longer describe in detail.
Preferably, at least part of and first cyclonic separation part 41 of the second cyclonic separation part 42 is integrated part, that is to say, that
Second cyclonic separation part 42 all can be integrated part with the first cyclonic separation part 41, and the second cyclonic separation part 42 can also be only
Part is integrated part with the first cyclonic separation part 41, for example, can only have and be integrated with the first cyclonic separation part 41 every cylinder portion 421
Part, and filter cylinder portion 422 be detachably connected every cylinder portion 421.Thus, it is at least part of with first when the second cyclonic separation part 42
When cyclonic separation part 41 is integrated part, can further reduce dismounting difficulty, be easy to user's dismounting dirt cup component 100 to carry out clear
Wash.
In some embodiments of the present utility model, cyclone separator 4 is located in the A1 of dedusting chamber and in the A1 of dedusting chamber
Limit the cyclonic chamber of at least one-level annular or cylinder, such as when cyclone separator 4 includes multiple cyclone cylinders 410,
Cyclone cylinder 410 can limit the cyclonic chamber of cylinder, and when cyclone separator 4 includes the second cyclonic separation part 42, the
The cyclonic chamber of annular can be limited between two cyclonic separation parts 42 and glass shell 1.
Cyclone separator 4 further limits the dust collecting trough 4210 connected with cyclonic chamber in the A1 of dedusting chamber.Thus, when
When cyclonic chamber internal cyclone formula flows, the dust isolated can be accumulated in dust collecting trough 4210 dust and gas, to avoid what is flowed
Air-flow is rolled again, so as to be effectively improved dust and gas separating effect.
For example in some preferred embodiments of the present utility model (not shown), dust collecting trough 4210 is by cyclone separator
4 limit, thus, convenient to process, and convenient realization.For example in one of which specific example, cyclone separator 4 includes
Continuous cartridge type filtering elements, continuous cartridge type filtering elements are tubular and only have filtering holes 4221 thereon, and continuous cartridge type filtering elements are arranged
So that one cyclonic chamber A11 is limited between glass shell 1 between hood 2 and glass shell 1, dust collecting trough 4210 is by continuous cartridge type filtering elements
Outer peripheral face inwardly concave to be formed and be connected with one cyclonic chamber A11, that is to say, that have on the outer peripheral face of continuous cartridge type filtering elements
Have towards the recessed groove in its center axis direction, the groove can be used as dust collecting trough 4210.
For example in other preferred embodiments of the present utility model, dust collecting trough 4210 is by cyclone separator 4 and hood 2
Limit jointly.Thus, it is possible to further improve the compactedness of structure, save space.Such as one of which specific example
In, with reference to Fig. 7 and Fig. 8, cyclone separator 4 includes dividing cartridge type filtering elements, and division cartridge type filtering elements are set in hood 2 and cup
So that one cyclonic chamber A11 is limited between glass shell 1 between shell 1, division cartridge type filtering elements are tubular and have filtering holes thereon
4221 and it is multiple by division cartridge type filtering elements a shaft end towards another axial end insertion breach so that division tubular mistake
Filter part splits into multiple slivers, and the edge of the formation breach of each sliver extends to the direction bending of hood 2 and is only against hood 2
Outer peripheral face on, dust collecting trough 4210 by division cartridge type filtering elements division and the outer peripheral face of hood 2 between limit and with one
The A11 connections of level cyclonic chamber.
Certainly, this utility model not limited to this, in other embodiment of the present utility model, with reference to Figure 10, the second whirlwind
Can also be without, with dust collecting trough 4210, now, cylindrical shape being formed as every cylinder portion 421 on separation member 42.
With reference to Fig. 4, it is preferable that dust collecting trough 4210 is axially extending along hood 2, wherein, the axial two ends of dust collecting trough 4210
Can be concordant with the axial two ends every cylinder portion 421 respectively, that is to say, that the upper and lower ends of dust collecting trough 4210 respectively with every cylinder portion
421 upper and lower ends are concordant, thus, it is possible to improve further raising dust and gas separating effect.Certainly, this utility model is not limited to
This, the axial two ends of dust collecting trough 4210 can also be without it is concordant with the axial two ends every cylinder portion 421, now, the axle of dust collecting trough 4210
To the axial length being shorter in length than every cylinder portion 421.
Preferably, dust collecting trough 4210 is multiple and opens in the circumferentially-spaced of hood 2 that the quantity of such as dust collecting trough 4210 can
Think 3-8, thus, it is possible to further improve dust and gas separating effect.Preferably, dust collecting trough 4210 is in one cyclonic separation member
Depth radially be 8mm-25mm, thus, it is possible to improve dust and gas separating effect.Preferably, dust collecting trough 4210 is revolved in one-level
Width in the circumference of wind separation member is 15mm-35mm, thus, it is possible to improve dust and gas separating effect.
Further, with reference to Fig. 7, the second cyclonic separation part 42 is further included:Eaves circle portion 423, the inner ring in eaves circle portion 423
Wall is connected between cylinder portion 421 and filter cylinder portion 422, collar wall is along from filter cylinder portion 422 to the direction every cylinder portion 421, direction
Extend away from inclining every the direction of 421 outer peripheral face of cylinder portion.Thus, with reference to Fig. 2 and Fig. 4, the dust and gas in the A11 of one cyclonic chamber
Dust and gas separation can preferably be carried out under the guiding in eaves circle portion 423, and, the gas isolated more can be smoothly through
Filter cylinder portion 422 enters two grades of cyclonic chamber A12, in addition, the dust isolated is difficult to recross eaves circle portion 423 by filter cylinder portion 422
Into two grades of cyclonic chamber A12, such that it is able to effectively improve dust and gas separating effect.
In one embodiment of the present utility model, with reference to Fig. 3 and Fig. 5, when glass shell 1 is tubular, the internal perisporium of glass shell 1
The the first dust-break piece 113 for extending is provided with to the inside of glass shell 1.Thus, dust is when A11 internal cyclones formula in one cyclonic chamber is moved,
Dust can be dammed by the first dust-break piece 113, and do not rolled by air-flow repeatedly and block filtering holes 4221 or into two grades of whirlwind
Chamber A12, so as to improve dust and gas separating effect.
Preferably, the first dust-break piece 113 is along the axially extending of glass shell 1.Thus, when 1 vertical setting of glass shell, after damming
Dust can block filtering holes to avoid dust from being rolled repeatedly along the first dust-break piece 113 to 1 bottom of lower flow channel glass shell
4221 enter two grades of cyclonic chamber A12, so as to further increase dust and gas separating effect.Preferably, the first dust-break piece 113 is many
It is individual and open in the circumferentially-spaced of glass shell 1.Thus, in the whole circumference of glass shell 1, the first dust-break piece 113 can act as
The effect ground effect of damming, so as to further improve dust and gas separating effect.
In one embodiment of the present utility model, with reference to Fig. 1 and Fig. 6, glass shell 1 is tubular, is set in the inner end wall of glass shell 1
The the second dust-break piece 114 extended inside oriented glass shell 1.For example, when 1 vertical setting of glass shell, the second dust-break piece 114 can be by cup
The inner bottom wall 110 of shell 1 is upwardly extended.Thus, when one cyclonic chamber A11 internal cyclones formula is moved, dust can be by second for dust
Dust-break piece 114 dams, and is blocked filtering holes 4221 without rolling repeatedly or into two grades of cyclonic chamber A12, and then improves dirt
Gas separating effect.
Preferably, the second radially extending along glass shell 1 of dust-break piece 114.Thus, glass shell 1 it is whole radially, second gear
Dirt piece 114 can act as the effect of effectively damming, so as to further improve dust and gas separating effect.Preferably, the second dust-break piece
114 is multiple and open in the circumferentially-spaced of glass shell 1.Thus, in the whole circumference of glass shell 1, the second dust-break piece 114 can
The effect effectively dam is played, so as to further improve dust and gas separating effect.
Below with reference to the accompanying drawings operation principle according to this utility model one embodiment dirt cup component 100 is described.
Fig. 4 and Fig. 9 combined simultaneously with reference to Fig. 2, dust and gas are by suction port 112 tangentially into carrying out in primary dust removing intracavity A11
Cyclone dust edema caused by disorder of QI is from the process, the part dust that cyclone type is isolated is entered and accumulated in dust collecting trough 4210, remaining
Part dust lands and accumulates in the bottom of primary dust removing intracavity A11, and the air-flow that cyclonic separation goes out passes through 4221 edge of filtering holes
Tangentially cyclone dust edema caused by disorder of QI is carried out from the process, the dust that cyclone type is isolated lands in two-stage dust removal intracavity A12
And accumulate in second order product dirt chamber A13, and the air-flow that cyclonic separation goes out by become a mandarin intercommunicating pore 12110 enter connection chamber A2 in by
In lid, filtration members 1221 are filtered, and the air-flow after filtration passes through stream intercommunicating pore 12120 in discharge chamber A3, and by cover
Interior filtration members 25 are discharged by air vent 220 and opening 111 after filtering.
Below with reference to the accompanying drawings describe according to some embodiment Handlesets 200 of this utility model.
Specifically, hold component and there is the function of facilitating user hand-held, it can be handle or handle group for example to hold component
Part 200 etc..Wherein, when it is Handleset 200 to hold component, it is easy to the direction of user's control dirt cup component 100, for example, facilitates
The suction port 112 of dirt cup component 100 is faced upward or downward by user, so as to facilitate dust suction.Below only to hold component as handle group
Illustrate as a example by part 200.In addition, it is necessary to illustrate, the structure of handle is should be as it is known to those skilled in the art that here not
Describe in detail again.
As shown in figure 1, Handleset 200 includes:Handle housing 51 and electric supply installation 52, handle housing 51 include supplying user
Hand-held holding part 512, electric supply installation 52 can be located in holding part 512, and electric supply installation 52 can also be located at handle housing 51
In the interior position relative with holding part 512, installation portion 511 for example hereinafter described, thus, it is possible to optimize Handleset 200
Center of gravity, make the center of gravity of Handleset 200 closer to the hand-held position of user, so that user can be more effortlessly hand-held
Handleset 200, improves the comfort and convenience of hand-held cleaners 1000.
Thus, it is possible to effectively adjust the center of gravity of Handleset 200, user's more labour-saving hand-held handle component is allow
200, so as to improve the comfort and convenience of hand-held cleaners 1000.Wherein, electric supply installation 52 can be battery, example
Such as, rechargeable battery, so as to easily realize, low cost, and be easy to use.
As shown in figure 1, have on handle housing 51 refer to buckle 510, handle housing 51 include positioned at refer to buckle 510 both sides,
And the installation portion 511 for being connected with dirt cup component 100 and the holding part 512 for holding, electric supply installation 52 is located at installation portion
In 511 and/or in holding part 512.Thus, the simple structure of handle housing 51, is easy to process and manufactures.Alternatively, refer to buckle
510 to hold hole, and handle housing 51 is toroidal shell, holds hole and is limited by the internal ring of handle housing 51.Thus, it is easy to hold, and
It is easy to the installation of electric supply installation 52.
Preferably, electric supply installation 52 be located in installation portion 511 and length direction and the installation portion 511 of electric supply installation 52 length
Degree direction is identical.Thus, electric supply installation 52 fully using the space in installation portion 511 can allow Handleset 200 more
Plus miniaturization, and user can be made more effortlessly to hold Handleset 200.
Preferably, electric supply installation 52 be located in holding part 512 and length direction and the holding part 512 of electric supply installation 52 length
Degree direction is identical.Thus, electric supply installation 52 fully using the space in holding part 512 can allow Handleset 200 more
Plus miniaturization, and user can be made more effortlessly to hold Handleset 200.
Preferably, dirt cup component 100 is tubular, and the length direction of installation portion 511 is identical with the axial direction of dirt cup component 100,
And installation portion 511 is connected to the radial direction side of Handleset 200.Thus, it is possible to improve installation portion 511 with dirt cup component 100
Connection area, improves the connection reliability of Handleset 200 and dirt cup component 100, and holds more laborsaving.Alternatively, install
Portion 511 is detachably connected with dirt cup component 100.That is, Handleset 200 is removably mounted on dirt cup component 100
On.Thus, it is possible to be easy to dismount, clean and change.
Further, with reference to Fig. 1, handle housing 51 further include to be connected between installation portion 511 and holding part 512 and
513 and handle bottom 514 at the top of the handle being oppositely arranged, that is to say, that 513, holding part 512 and handle bottom at the top of installation portion 511, handle
514 head and the tail are sequentially connected to constitute annular hand grip housing 51, so as to the structural reliability of handle housing 51 is high.Certainly, this practicality
New not limited to this, handle housing 51 can also be without for annular, i.e. to include 513 and handle bottom 514 at the top of handle, now,
Handle housing 51 by the installation portion 511, holding part 512 being oppositely arranged and can be connected between installation portion 511 and holding part 512
Bridging portion constitute the not shown example such as I-shaped.
Preferably, can be provided with 513 at the top of handle be connected with electric supply installation 52 electric-controlled plate 53, handle bottom 514 is interior also may be used
To be provided with the electric-controlled plate 53 being connected with electric supply installation 52, at the top of handle 513 and handle bottom 514 in can also be designed with simultaneously and power supply
The electric-controlled plate 53 that device 52 is connected.Thus, it is possible to more fully using the space inside handle housing 51.
In sum, the hand-held cleaners 1000 according to some specific embodiments of this utility model, with following several respects
Advantage.
A, by negative pressure device 3 is arranged in glass shell 1 so that the integral structure layout of dirt cup component 100 is compact,
Small volume and less weight, comfort are high, and it is high to cause the air channel compact in design of dirt cup component 100, suction that little, efficiency is lost.
B, by arranging cyclone separator in glass shell 1, so as to improve the cleaning effect of hand-held cleaners 1000, and
And when cyclone separator 4 is around negative pressure device 3, the work noise of hand-held cleaners 1000 can be reduced, improve hand-held suction
The environment friendly of dirt device 1000.
C, when negative pressure device 3 is integrated part with hood 2, space can be effectively saved, dirt cup component is further improved
100 structural compactness, and dust capacity can be improved, on the premise of cost is not increased, hood 2 can be effectively improved
Intensity so that hood 2 can preferably protect negative pressure device 3, improves the service life of negative pressure device 3.
Each part in d, dirt cup component 100 in addition to being integrated part, is all connected using dismountable mode, so that
Obtain dirt cup component 100 and be extremely easy to dismounting, and selectivity dismounting can be carried out, in order to 1000 internals of hand-held cleaners
Specific aim cleaning is carried out, the cleaning effect of hand-held cleaners 1000 is improved.
E, by making motor 32 axially spaced with cyclone cylinder 410, such that it is able to more fully using the sky in glass shell 1
Between, improve pick-up performance.
F, the bottom by air vent 220 to be located at dirt cup component 100, so as to the cleaning Jing after dirt cup component 100 is filtered
Air can be blown out downwards, and then avoid the problem that dirt cup component 100 is dried to user person, improve hand-held cleaners 1000
Comfort so that user is ready to be cleaned using hand-held cleaners 1000.
G, by arrange dust collecting trough 4210 so that the dust accumulated in dust collecting trough 4210 can be avoided in glass shell 1
The air-flow of flowing, and be difficult to be rolled repeatedly obstruction filtration members or enter next stage cyclonic chamber, and, when in dust collecting trough 4210
After dirt accumulation is a certain amount of, the dust outside dust collecting trough 4210 can be adhered to, prevent dust from being blown afloat, so as to improve cleaning effect
Really.In addition, by arranging the first dust-break piece 113113 and the second dust-break piece 114 in glass shell 1, can further blocks dust quilt
Roll repeatedly obstruction filtration members or enter next stage cyclonic chamber, so as to improve cleaning effect.
H, raised by center of gravity by Handleset 200 so that hand-held cleaners 1000 it is overall hold it is more laborsaving.
Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative importance
Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or
Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two
More than, unless otherwise expressly limited specifically.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
Example ", or the description of " some examples " etc. mean specific features with reference to the embodiment or example description, structure, material or spy
Point is contained at least one embodiment of the present utility model or example.In this manual, the schematic table to above-mentioned term
State.And, the specific features of description, structure, material or feature can be with
Combined in any one or more embodiments or example in an appropriate manner.Additionally, in the case of not conflicting, this area
Technical staff the feature of the different embodiments or example described in this specification and different embodiment or example can be entered
Row is combined and is combined.
While there has been shown and described that embodiment of the present utility model, it will be understood by those skilled in the art that:
Various changes, modification, replacement can be carried out to these embodiments in the case of without departing from principle of the present utility model and objective
And modification, scope of the present utility model limited by claim and its equivalent.
Claims (10)
1. a kind of dirt cup component, it is characterised in that include:
Glass shell;
Hood, the hood is tubular, and the hood is located in the glass shell and dedusting chamber is limited between the glass shell;
First cyclonic separation part, the first cyclonic separation part are located at the dedusting intracavity and along the hood circumferentially around institute
State hood;And
Negative pressure device, the negative pressure device are located in the hood so that dust and gas are revolved into the dedusting intracavity by described first
Wind separation member dust and gas separate, wherein, in the axial direction of the hood, the negative pressure device be at least partially disposed at it is described first rotation
The side of wind separation member.
2. dirt cup component according to claim 1, it is characterised in that the hood is included along the axial phase successively of the hood
First section even, transitional cylinder section and second section, wherein, the maximum barrel dliameter of first section is less than second section
Minimum barrel dliameter, the first cyclonic separation part is relative with first section or with described first in the hood radially
Cylinder section and the transitional cylinder section are relative, the negative pressure device it is relative with second section or with second section and the mistake
Cross cylinder section relative.
3. dirt cup component according to claim 2, it is characterised in that first section is directly with second section
Cylinder section, the transitional cylinder section are flaring cylinder section.
4. dirt cup component according to claim 1, it is characterised in that the first cyclonic separation part is around the hood
Multiple cyclone cylinders.
5. dirt cup component according to claim 4, it is characterised in that the cyclone cylinder includes axially being connected along the hood
Direct tube section and conical cylinder section.
6. dirt cup component according to claim 1, it is characterised in that further include:
Second cyclonic separation part, the second cyclonic separation part are located between the first cyclonic separation part and the glass shell, institute
State negative pressure device make dust and gas into the dedusting intracavity first pass through the second cyclonic separation part dust and gas separate, again by described the
One cyclonic separation part dust and gas are separated.
7. dirt cup component according to claim 6, it is characterised in that the second cyclonic separation part is tubular and coaxially
It is set in outside the hood.
8. the dirt cup component according to any one of claim 1-7, it is characterised in that there is in the glass shell opening, institute
State hood local have air vent and be located at it is described opening sentence by it is described opening manifest, the negative pressure device is configured to make
The air-flow isolated from the dedusting intracavity is entered in the hood and is discharged by the air vent.
9. the dirt cup component according to any one of claim 1-7, it is characterised in that the axial side outer end of the hood
Face is fitted with the local inner surface of the glass shell or is passed the local inner surface of the glass shell, and the dedusting chamber limit is in institute
Circumferentially around the hood between the outer peripheral face of the inner surface and the hood of stating glass shell and along the hood.
10. a kind of hand-held cleaners, it is characterised in that include the dirt cup component according to any one of claim 1-9.
Priority Applications (41)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620677750.7U CN206063066U (en) | 2016-06-30 | 2016-06-30 | Dirt cup component and the hand-held cleaners with which |
PCT/CN2016/090046 WO2018000459A1 (en) | 2016-06-30 | 2016-07-14 | Dust cup assembly and handheld vacuum cleaner provided with same |
PCT/CN2016/090047 WO2018000460A1 (en) | 2016-06-30 | 2016-07-14 | Dust cup assembly and handheld vacuum cleaner provided with same |
PCT/CN2016/090048 WO2018000461A1 (en) | 2016-06-30 | 2016-07-14 | Dust cup assembly and handheld vacuum cleaner having same |
CA2971068A CA2971068A1 (en) | 2016-06-30 | 2016-07-14 | Handheld vacuum cleaner |
PCT/CN2016/090039 WO2018000458A1 (en) | 2016-06-30 | 2016-07-14 | Handheld vacuum cleaner |
CA2970992A CA2970992A1 (en) | 2016-06-30 | 2016-07-14 | Dust cup assembly and handheld cleaner having the same |
CA2970695A CA2970695A1 (en) | 2016-06-30 | 2016-07-14 | Dust cup assembly and handheld cleaner having the same |
US15/238,108 US10258209B2 (en) | 2016-06-30 | 2016-08-16 | Handheld cleaner |
US15/237,957 US20180000295A1 (en) | 2016-06-30 | 2016-08-16 | Dust cup assembly and handheld cleaner having the same |
US15/238,054 US10307026B2 (en) | 2016-06-30 | 2016-08-16 | Dust cup assembly and handheld cleaner having the same |
JP2016159739A JP2018000913A (en) | 2016-06-30 | 2016-08-16 | Dust cup assembly and handy cleaner having the same |
US15/238,205 US10413140B2 (en) | 2016-06-30 | 2016-08-16 | Dust cup assembly and handheld cleaner having the same |
EP16184558.1A EP3263003B1 (en) | 2016-06-30 | 2016-08-17 | Dust cup assembly and handheld cleaner having the same |
JP2016159970A JP2018000915A (en) | 2016-06-30 | 2016-08-17 | Handy cleaner |
EP16184527.6A EP3263176B1 (en) | 2016-06-30 | 2016-08-17 | Handheld vacuum cleaner |
EP16184469.1A EP3263002B1 (en) | 2016-06-30 | 2016-08-17 | Dust cup assembly and handheld cleaner having the same |
JP2016159965A JP2018000914A (en) | 2016-06-30 | 2016-08-17 | Dust cup assembly and handy cleaner having the same |
EP16184610.0A EP3263004B1 (en) | 2016-06-30 | 2016-08-17 | Dust cup assembly and handheld cleaner having the same |
JP2016160176A JP2018000916A (en) | 2016-06-30 | 2016-08-17 | Dust cup assembly and handy cleaner having the same |
PCT/CN2016/108104 WO2018000719A1 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld vacuum cleaner comprising same |
US15/512,805 US10463214B2 (en) | 2016-06-30 | 2016-11-30 | Handheld cleaner |
US15/512,776 US20180333034A1 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld cleaner having the same |
ES16849907T ES2928685T3 (en) | 2016-06-30 | 2016-11-30 | handheld vacuum cleaner |
US15/505,824 US10398267B2 (en) | 2001-06-30 | 2016-11-30 | Dust cup, dust cup assembly and handheld cleaner |
EP16843249.0A EP3287059B1 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld vacuum cleaner comprising same |
ES16840272T ES2947523T3 (en) | 2016-06-30 | 2016-11-30 | Dust container assembly and handheld vacuum cleaner provided with the same |
PCT/CN2016/108093 WO2018000716A1 (en) | 2016-06-30 | 2016-11-30 | Handheld vacuum cleaner |
CA2971037A CA2971037A1 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld cleaner having same |
CA2971065A CA2971065A1 (en) | 2016-06-30 | 2016-11-30 | Dust cup, dust cup assembly and handheld cleaner |
US15/506,061 US10575694B2 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld cleaner having same |
EP16840273.3A EP3479743B1 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld vacuum cleaner comprising same |
EP16840272.5A EP3479750B1 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld vacuum cleaner provided with same |
PCT/CN2016/108105 WO2018000720A1 (en) | 2016-06-30 | 2016-11-30 | Dust cup, dust cup assembly, and handheld vacuum cleaner |
ES16840271T ES2929421T3 (en) | 2016-06-30 | 2016-11-30 | Dust container, dust container set and hand vacuum |
CA2971058A CA2971058A1 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld cleaner having same |
PCT/CN2016/108103 WO2018000718A1 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld vacuum cleaner provided with same |
EP16849907.7A EP3479742B1 (en) | 2016-06-30 | 2016-11-30 | Handheld vacuum cleaner |
EP16840271.7A EP3479749B1 (en) | 2016-06-30 | 2016-11-30 | Dust cup, dust cup assembly, and handheld vacuum cleaner |
US15/506,082 US10441127B2 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld cleaner having same |
PCT/CN2016/108096 WO2018000717A1 (en) | 2016-06-30 | 2016-11-30 | Dust cup assembly and handheld vacuum cleaner comprising same |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620677750.7U CN206063066U (en) | 2016-06-30 | 2016-06-30 | Dirt cup component and the hand-held cleaners with which |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206063066U true CN206063066U (en) | 2017-04-05 |
Family
ID=58422393
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620677750.7U Expired - Fee Related CN206063066U (en) | 2001-06-30 | 2016-06-30 | Dirt cup component and the hand-held cleaners with which |
Country Status (1)
Country | Link |
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CN (1) | CN206063066U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105962847A (en) * | 2016-06-30 | 2016-09-28 | 江苏美的清洁电器股份有限公司 | Dust cup assembly and handheld vacuum cleaner provided with same |
CN108209721A (en) * | 2018-01-09 | 2018-06-29 | 苏州市春菊电器有限公司 | A kind of dirt cup and its dust catcher for not hanging dirt |
CN110612052A (en) * | 2017-05-11 | 2019-12-24 | 三菱电机株式会社 | Cyclone separation device and electric dust collector |
-
2016
- 2016-06-30 CN CN201620677750.7U patent/CN206063066U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105962847A (en) * | 2016-06-30 | 2016-09-28 | 江苏美的清洁电器股份有限公司 | Dust cup assembly and handheld vacuum cleaner provided with same |
CN110612052A (en) * | 2017-05-11 | 2019-12-24 | 三菱电机株式会社 | Cyclone separation device and electric dust collector |
CN110612052B (en) * | 2017-05-11 | 2021-06-15 | 三菱电机株式会社 | Cyclone separation device and electric dust collector |
CN108209721A (en) * | 2018-01-09 | 2018-06-29 | 苏州市春菊电器有限公司 | A kind of dirt cup and its dust catcher for not hanging dirt |
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CF01 | Termination of patent right due to non-payment of annual fee |
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