CN202288132U - Dust cup of dust collector and dust collector - Google Patents
Dust cup of dust collector and dust collector Download PDFInfo
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- CN202288132U CN202288132U CN2011203964316U CN201120396431U CN202288132U CN 202288132 U CN202288132 U CN 202288132U CN 2011203964316 U CN2011203964316 U CN 2011203964316U CN 201120396431 U CN201120396431 U CN 201120396431U CN 202288132 U CN202288132 U CN 202288132U
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Abstract
A dust cup of a dust collector comprises an air inlet, a primary dust collecting room, a secondary dust collecting room, a primary cyclone separator, a secondary cyclone separator and an air outlet; the secondary dust collecting room encircles the primary dust collecting room; the primary cyclone separator comprises a primary cyclone passage; the primary cyclone passage comprises an encircling wall and a partition board; the partition board spirally extends from the bottom of a cyclone room to the bottom of the primary dust collecting room, which is used for holding coarse dust, and the partition board and the encircling wall constitute the primary cyclone passage which extends spirally; one end of the primary cyclone passage serves as a coarse dust inlet and communicated with the primary cyclone room, and the other end serves as a primary dust outlet and is communicated with the primary dust collecting room; the secondary cyclone separator comprises a cyclone cylinder; a secondary cyclone passage is arranged in the cyclone cylinder; the entrance of the secondary cyclone passage is communicated with the primary cyclone room, is positioned above the coarse dust inlet and is opposite to the coarse dust inlet; and the exit of the secondary cyclone passage is communicated with the air outlet and the secondary dust collecting room. The utility model can prevent the coarse dust in the dust from being raised, and has a good dust separation effect and a high efficiency.
Description
Technical field
The utility model relates to cleaning appliance, relates in particular to dust catcher, particularly the dirt cup of dust catcher.
Background technology
One Chinese patent application has disclosed a kind of dust catcher No. 200920184866.7; This dust catcher comprises primary cyclone, a plurality of secondary cyclone of arranging side by side each other; Described primary cyclone is positioned at the upper reaches of described secondary cyclone; Described primary cyclone comprises one-level whirlwind bucket, is positioned at the single stage of dust collection chamber of one-level whirlwind bucket below, is arranged on the inner one-level diversion column of described one-level whirlwind bucket; Have a direction and tangent one-level air inlet and the one-level ash hole of bucket inwall on the bucket wall of described one-level whirlwind bucket; Described one-level ash hole is positioned at the below of described one-level diversion column and along the tangential direction setting of air-flow rotation, makes the dust that separates via one-level whirlwind bucket to throw away along the tangential direction of air-flow rotation then to drop into described single stage of dust collection indoor.
The course of work of above-mentioned dust catcher is: after dust-contained airflow gets into one-level whirlwind bucket from one-level air inlet tangential; Dust-contained airflow at the inner chamber of one-level whirlwind bucket along the spiral rotation from up to down of one-level diversion column; When rotating to the one-level ash hole place of below; Cinder can throw away to single stage of dust collection indoorly along with the part air-flow, and the air-flow that has a small amount of thin ash can be through being arranged on the inside that one-level ash hole on the truncated cones shape grid flows into the one-level diversion column, and this air-flow can continue to rise.Because the secondary air inlet of each secondary cyclone all communicates with the inside of one-level diversion column; Air-flow in the one-level diversion column can get in each secondary cyclone uniformly and separate; Thin ash can constantly fall into the secondary dust storage chamber; Thereby, make the dust separation effect of primary cyclone be improved, also guaranteed from the cleanliness factor of the air-flow of this dust catcher discharge.
But; In the above-mentioned dust catcher, because the one-level ash hole is arranged on one-level whirlwind bucket near on the bucket wall of flat board and dull and stereotyped arrange along horizontal direction, so; Cause dust accretions easily on flat board; And the dust that is deposited on the flat board gets into the secondary dust storage chamber by airborne dust and along with the rotation of air-flow from diversion column, so separative efficiency is low.
Summary of the invention
The problem that the utility model solves is the inefficient problem of dirt cup dust separation of existing dust catcher.
For addressing the above problem; The utility model provides a kind of dirt cup of dust catcher; The dirt cup of this dust catcher has air inlet, single stage of dust collection chamber, secondary dust storage chamber, primary cyclone, secondary cyclone and air outlet; Said secondary dust storage chamber surrounds said single stage of dust collection chamber; Said primary cyclone comprises one-level cyclone chamber and primary cyclone channel, and said one-level cyclone chamber is communicated with said air inlet and has relative cyclone chamber bottom and cyclone chamber top, and said cyclone chamber bottom links to each other with the top of said single stage of dust collection chamber; Said primary cyclone channel comprises surrounds wall and dividing plate; This dividing plate is accepted the bottom spiral extension of cinder and is constituted the described primary cyclone channel that spiral extends with said encirclement wall to said single stage of dust collection chamber from said cyclone chamber bottom; Import is communicated with said one-level cyclone chamber to one end of said primary cyclone channel as cinder, and the other end is communicated with said single stage of dust collection chamber as the one-level ash hole; Said secondary cyclone comprises the whirlwind tube; This whirlwind tube is connected in said cyclone chamber top and at least partly is positioned at said one-level cyclone chamber; Be provided with the secondary cyclone channel in this whirlwind tube; The inlet of this secondary cyclone channel is communicated with said one-level cyclone chamber and is positioned at said cinder import top and relative, and the outlet of secondary cyclone channel is communicated with said air outlet and said secondary dust storage chamber.
Alternatively; The bottom of said one-level cyclone chamber is round table-like; The sidewall of said one-level cyclone chamber is provided with the air intake passage of the tangential direction that is positioned at said one-level cyclone chamber sidewall, and said one-level cyclone chamber is communicated with said air inlet and comprises that said one-level cyclone chamber is communicated with said air inlet by this air intake passage.
Alternatively; The sidewall of said whirlwind tube offers the secondary ash hole; This secondary ash hole is positioned at the opening direction of the bottom top of accepting thin ash and described secondary ash hole of said secondary dust storage chamber also facing to the sidewall of described secondary dust storage chamber, and the outlet of said secondary cyclone channel is communicated with said secondary dust storage chamber and comprises by this secondary ash hole and be communicated with said secondary dust storage chamber.
Alternatively, said one-level ash hole be positioned at said single stage of dust collection chamber the opening direction of the bottom top of accepting cinder and said one-level ash hole facing to the sidewall of said single stage of dust collection chamber.
Alternatively, the dirt cup of said dust catcher comprises mesh filter and conducting element, and said mesh filter is positioned at said whirlwind tube inside and has the filtering holes that communicates with said air outlet; Said conducting element extends and twist and between the outside wall surface of the internal face of said whirlwind tube and mesh filter and constitute spiral said secondary cyclone channel with the internal face of said whirlwind tube and the outside wall surface of mesh filter to the top of whirlwind tube from the bottom of said whirlwind tube; The outlet of this secondary cyclone channel is communicated with said air outlet and comprises by said filtering holes and be communicated with said air outlet, and the hand of spiral that extend to whirlwind tube top said secondary cyclone channel spin air duct bottom is identical with the hand of spiral that said primary cyclone channel is extended to the bottom of said single stage of dust collection chamber from said cyclone chamber bottom.
The utility model also provides the dirt cup of another kind of dust catcher; The dirt cup of this dust catcher has air inlet, single stage of dust collection chamber, secondary dust storage chamber, primary cyclone, secondary cyclone and air outlet; Said primary cyclone comprises one-level cyclone chamber and the primary cyclone channel that is communicated with said air inlet; This primary cyclone channel and said one-level cyclone chamber are communicated with and comprise dividing plate and surround wall; Said dividing plate surrounds described primary cyclone channel from the bottom spiral extension of cinder to said single stage of dust collection chamber that accept with the encirclement wall; Import is communicated with said one-level cyclone chamber to one end of said primary cyclone channel as cinder, and the other end is communicated with said single stage of dust collection chamber as the one-level ash hole; Said secondary cyclone has the whirlwind tube, and this whirlwind tube part at least is positioned at said one-level cyclone chamber, and this whirlwind tube set inside has the secondary cyclone channel that is communicated with said one-level cyclone chamber; The inlet of this secondary cyclone channel is communicated with said one-level cyclone chamber and is positioned at the top of said cinder import and relatively, exports said secondary dust storage chamber of connection and said air outlet.
Alternatively, the dirt cup of said dust catcher comprises urceolus and inner core, and it is inner that said inner core is positioned at said urceolus; Said inner core has said single stage of dust collection chamber and said one-level cyclone chamber; The top of this one-level cyclone chamber is cylindric, and it is round table-like that the bottom is, and said one-level cyclone chamber also has the air intake passage of the tangential direction that is positioned at said inner core sidewall; This air intake passage is communicated with the one-level cyclone chamber and an end is said air inlet, and it is indoor that said primary cyclone channel is positioned at said single stage of dust collection; Said secondary dust storage chamber is surrounded by the internal face of urceolus and the outside wall surface of inner core at least.
Alternatively, the sidewall of said whirlwind tube offers the secondary ash hole, and this secondary ash hole is positioned at the top, bottom of accepting thin ash of said secondary dust storage chamber and faces toward the sidewall of said secondary dust storage chamber.
Alternatively, said one-level ash hole be positioned at said single stage of dust collection chamber the bottom top of accepting cinder and with sidewall facing to said single stage of dust collection chamber.
The utility model also provides a kind of dust catcher, and this dust catcher comprises the dirt cup of aforesaid dust catcher.
Compared with prior art, the utlity model has following advantage:
1, the utility model is owing to be provided with spiral primary cyclone channel, therefore, and the cinder in the dust can get into the single stage of dust collection chamber in said spiral primary cyclone channel, and cinder also can be because of the spirality of primary cyclone channel along said dividing plate free-falling; And the inlet of secondary cyclone channel is positioned at cinder import top and relative, makes dust to turn in cinder import department, thereby; Thin ash in the dust can get into said secondary dust storage chamber from said secondary cyclone channel; Like this, avoid cinder to pile up and the dust raising phenomenon that causes, moreover; Dividing plate and the compartmentation that surrounds wall by primary cyclone channel; Also can avoid the cinder in the dust can be by airborne dust, dust separation be effective, and efficient is high.
2, because the bottom of said one-level cyclone chamber is the round table-like and air intake passage tangential direction along one-level cyclone chamber sidewall; So the air that is mixed with dust can rotate in the one-level cyclone chamber, like this; Dust gets into said primary cyclone channel more easily and turns in cinder import department more easily; Thereby, make dust separation effective, efficient is high.
3, be arranged at the sidewall of whirlwind tube owing to said secondary ash hole and be positioned at the top, bottom that the secondary dust storage chamber is accepted thin ash; The sidewall that also faces toward said secondary dust storage chamber; So; Thin ash can get into said secondary dust storage chamber also owing to the gravity effect falls in the said secondary dust storage chamber by inertia, and not only the volume of secondary dust storage chamber can do more, and can also avoid airborne dust.
4, accept the top, bottom of cinder and the sidewall that opening direction faces toward the single stage of dust collection chamber because the one-level ash hole is positioned at said single stage of dust collection chamber, can make that also the volume of single stage of dust collection chamber is bigger, and, airborne dust avoided.
5, because said secondary cyclone channel and primary cyclone channel all are spiralitys, so cinder or thin ash can be through repeatedly collisions, speed is waited until decay, and dust separation is effective, and separative efficiency is high.
Description of drawings
Fig. 1 is the front view of the dirt cup of the utility model dust catcher;
Fig. 2 be along the A-A of Fig. 1 to cutaway view;
Fig. 3 is the right view of Fig. 1;
Fig. 4 be along the B-B of Fig. 3 to cutaway view.
The specific embodiment
By specifying technology contents, structural feature that the utility model creates, being reached purpose and effect, will combine embodiment and conjunction with figs. to specify below.
See also Fig. 1 to Fig. 4, the dirt cup of the dust catcher of the utility model first embodiment has air inlet 1, single stage of dust collection chamber 2, secondary dust storage chamber 3, primary cyclone 4, secondary cyclone 5 and air outlet 6.
Please continue to consult Fig. 1 to Fig. 4, said primary cyclone 4 comprises one-level cyclone chamber 41 and primary cyclone channel 42.Said one-level cyclone chamber 41 comprises cylindrical first carrier 411 and is the second round table-like carrier 412.This one-level cyclone chamber 41 is communicated with said air inlet 1; Particularly; Offer the tangential direction air intake passage 413 in the same way with said first carrier 411 on the sidewall of said one-level cyclone chamber 41 on (connecting place of the sidewall of first carrier 411 or second carrier 412 or first carrier 411 and second carrier 412), an end of this air intake passage 413 is said air inlets 1, and the other end is communicated with said one-level cyclone chamber 41 inside; Like this; Said one-level cyclone chamber 41 just is communicated with said air inlet 1 and can receives the dust from the outside through said air intake passage 413, and the air-flow that gets into from air inlet 1 turns clockwise in said one-level cyclone chamber 41.Said one-level cyclone chamber 41 has relative cyclone chamber top 414 and cyclone chamber bottom 415; In the present embodiment; Said cyclone chamber top 414 is exactly the top of first carrier 411, and cyclone chamber bottom 415 is bottoms of said second carrier 412, and the bottom of first carrier 411 is connected with the top of second carrier 412; Like this, constitute said one-level cyclone chamber 41.The cyclone chamber of said one-level cyclone chamber 41 bottom 415 links to each other with the top of said single stage of dust collection chamber 2, and the bottom of accepting cinder of the top of said single stage of dust collection chamber 2 and said single stage of dust collection chamber 2 is relative.
See also Fig. 1 to Fig. 4; Said primary cyclone channel 42 comprises surrounds wall 421 and dividing plate 422; This dividing plate 422 twist, in this embodiment, the clockwise spiral in bottom that this dividing plate 422 is accepted cinder from said cyclone chamber bottom 415 to said single stage of dust collection chamber 2 extends and forms.The sidewall of said encirclement wall 421 is cylindrical; Sidewall with respect to the edge of the bottom of accepting cinder of single stage of dust collection chamber twist; Like this, said encirclement wall 421 can constitute spiral primary cyclone channel 42 with said dividing plate 422, after being provided with like this; One end of said primary cyclone channel 42 is communicated with said one-level cyclone chamber 41 as cinder import 423, and an other end is communicated with said single stage of dust collection chamber 2 as one-level ash hole 424.This one-level ash hole 424 is positioned at the opening direction of the bottom top of accepting cinder and said one-level ash hole 424 of said single stage of dust collection chamber 2 facing to the sidewall of said single stage of dust collection chamber 2.
See also Fig. 1 to Fig. 4, said secondary cyclone 5 comprises whirlwind tube 51.This whirlwind tube 51 is connected in said cyclone chamber top 414 and at least partly is positioned at said one-level cyclone chamber 41.Be provided with secondary cyclone channel 511 in the said whirlwind tube 51; The inlet of this secondary cyclone channel 511 is communicated with said one-level cyclone chamber 41 and is positioned at said cinder import 423 tops and relative with said cinder import 423; Such as; Over against, the outlet of said secondary cyclone channel 511 is communicated with said air outlet 6 and said secondary dust storage chamber 3.In the present embodiment; Said secondary cyclone channel 511 specifically is constructed as follows: said secondary cyclone 5 also comprises mesh filter 52 and conducting element 53; Said mesh filter 52 is positioned at said whirlwind tube 51 inside; Be separated by with the inwall of said whirlwind tube 51 and reserve the space that holds conducting element 53 and be convenient to form said secondary cyclone channel 511, mesh filter 52 has the filtering holes 521 that communicates with said air outlet 6.
See also Fig. 1 to Fig. 4; Said conducting element 53 particularly, extends and between the outside wall surface of the internal face of said whirlwind tube 51 and mesh filter 52 to the clockwise spiral in the top of whirlwind tube 51 from the bottom of said whirlwind tube 51 twist; Like this; The outside wall surface of the internal face of said whirlwind tube 51, mesh filter 52 and conducting element 53 constitute spiral said secondary cyclone channel 511, and the top of said conducting element 53 is positioned under the said filtering holes 521.Because the bottom of said secondary cyclone channel 511 spin air ducts 51 is to the clockwise spiral in the top of whirlwind tube 51; The clockwise spiral in bottom that said primary cyclone channel 42 is accepted cinder from said cyclone chamber bottom 415 to said single stage of dust collection chamber 2 extends; And because air-flow turns clockwise in said one-level cyclone chamber 41, all are clockwise directions, so; Primary cyclone channel 42 is identical with the hand of spiral of secondary cyclone channel 511; Also identical with the direction of rotation of air-flow in one-level cyclone chamber 41, certainly, said conducting element 53 also can rise along the counter clockwise direction spiral; Also be; The hand of spiral of said secondary cyclone channel 511 also can be spiralling, and said primary cyclone channel 42 is spiral counterclockwise also, and air-flow also can be rotated counterclockwise in said one-level cyclone chamber 41; So, as long as the hand of spiral that extend to the top of whirlwind tube 51 bottom of said secondary cyclone channel 511 spin air ducts 51 is identical and identical with the direction of rotation of air-flow in said one-level cyclone chamber 41 to the hand of spiral of the bottom of said single stage of dust collection chamber 2 extension from said cyclone chamber bottom 415 with said primary cyclone channel 52.
See also Fig. 1 to Fig. 4; Adopt after the said structure; It specifically is to be communicated with said air outlet 6 by said filtering holes 521 that the outlet of this secondary cyclone channel 511 is communicated with said air outlet 6, and in such cases, said mesh filter 52 inside can hollow constitute first passage; Said filtering holes 521 runs through the sidewall of mesh filter 52; One filtering screen 54 hides the top of said whirlwind tube 51 and the top of mesh filter 52, and this filtering screen 54 constitutes the air-out passage with loam cake 55, and an end of this air-out passage is said air outlet 6 and is communicated with said first passage; Like this, the air after said secondary cyclone channel 511 just will be filtered through filtering holes 521, first passage and air-out passage is discharged outside said dirt cup.And, to block at said filtering screen 54 under the situation on top of top and mesh filter 52 of whirlwind tube 51, the sidewall on said filtering screen 54, whirlwind tube 51 tops and the outside wall surface on mesh filter 52 tops surround the outlet of said secondary cyclone channel 511.
See also Fig. 2 and Fig. 4; The sidewall of said whirlwind tube 51 offers secondary ash hole 512; This secondary ash hole 512 is positioned at the opening direction of the bottom top of accepting thin ash and described secondary ash hole 512 of said secondary dust storage chamber 3 also facing to the sidewall of described secondary dust storage chamber 3, and it specifically is to be communicated with said secondary dust storage chamber 3 by this secondary ash hole 512 that the outlet of said secondary cyclone channel 511 is communicated with said secondary dust storage chamber 3.
See also Fig. 1 to Fig. 4; In the present embodiment; Said one-level cyclone chamber 41 constitutes an inner core 7 with said single stage of dust collection chamber 2 one, the middle part of said whirlwind tube 51 be connected in said inner core 7 one-level cyclone chamber 41 cyclone chamber top 414 and part is positioned at said one-level cyclone chamber 41 inside, and; This whirlwind tube 51 is positioned at said urceolus 8 with said inner core 7; One end of inner core 7 has inner opening, and said urceolus 8 has outer opening, and end cap 9 comprises first closure part 91 and second closure part 92; Interval between the outside wall surface of said first closure part 91 shutoff inner cores 7 and the internal face of urceolus 8 and constitute the bottom of accepting thin ash of said secondary dust storage chamber 3; The inner opening of the said inner core of said second closure part, 92 shutoff and constitute the bottom that cinder is accepted in said single stage of dust collection chamber 2, adopt said structure after, said secondary dust storage chamber 3 is made up of the outside wall surface of inner core 7, internal face, first closure part 91 and the zone of filtering screen 54 between whirlwind tube 51 and urceolus 8 of urceolus 8 at least; Said single stage of dust collection chamber 2 is made up of the inwall wall and second closure part 92 of said inner core 7 cylindrical bottoms at least; Adopt after such structure, said secondary dust storage chamber 3 surrounds said single stage of dust collection chamber 2, can certainly adopt other structures to make secondary dust storage chamber 3 surround said single stage of dust collection chamber 2.
See also Fig. 1 to Fig. 4, the course of work of the utility model is following:
The air that is mixed with dust (cinder and thin ash) gets into one-level cyclone chamber 41 from said air inlet 1 along said air intake passage 413; In this one-level cyclone chamber 41, turn clockwise; Cinder gets into primary cyclone channel 42 backs from cinder import 423 and gets into single stage of dust collection chamber 2 clockwise from one-level ash hole 424; Dust turns at cinder import 423 places upwards and gets into said secondary dust storage chamber 3 from the inlet spiral rising (clockwise) of secondary cyclone channel 511 and from said secondary ash hole 512; Simultaneously, air is also discharged from said air outlet 6 through filtering holes 521 and filtering screen 54 backs.
From said process, owing to be provided with spiral primary cyclone channel 42, therefore, the cinder in the dust can get into single stage of dust collection chambers 2 in said spiral primary cyclone channel 42; Cinder also can be because of the spirality of primary cyclone channel 42 along said dividing plate 422 free-fallings, and the inlet of secondary cyclone channel 511 is positioned at cinder import 423 tops and relatively, make dust to turn at cinder import 423 places; Thereby the thin ash in the cinder can get into said secondary dust storage chamber 3 from said secondary cyclone channel 511, like this; The dust raising phenomenon of avoiding cinder to pile up and causing; Moreover, by dividing plate of primary cyclone channel 42 422 and the compartmentation that surrounds wall 421, also can avoid the cinder in the dust can be by airborne dust; Dust separation is effective, and efficient is high.Based on this kind technical thought, the utility model also provides the dirt cup of the dust catcher of second embodiment, and this dirt cup has air inlet, single stage of dust collection chamber, secondary dust storage chamber, primary cyclone, secondary cyclone and air outlet.Said primary cyclone comprises one-level cyclone chamber and the helical primary cyclone channel that is communicated with said air inlet; Said one-level cyclone chamber has relative cyclone chamber bottom and cyclone chamber top; Said cyclone chamber bottom links to each other with the top of said single stage of dust collection chamber; Import is communicated with said one-level cyclone chamber to one end of said primary cyclone channel as cinder, and the other end is communicated with said single stage of dust collection chamber as the one-level ash hole; Said secondary cyclone has the whirlwind tube that is connected in said cyclone chamber top, and this whirlwind tube set inside has the secondary cyclone channel that is communicated with said one-level cyclone chamber; The inlet of this secondary cyclone channel is communicated with said one-level cyclone chamber and is positioned at the top of said cinder import and relatively, exports said secondary dust storage chamber of connection and said air outlet.Other structures of said dirt cup can adopt the structure of first embodiment, repeat no more at this.
Certainly, based on said structure, the utility model can also provide a kind of dust catcher, and this dust catcher comprises the dirt cup of aforesaid dust catcher, and how the dirt cup belongs to prior art with the miscellaneous part assembling of dust catcher, repeats no more at this.
Claims (10)
1. the dirt cup of a dust catcher has air inlet, single stage of dust collection chamber, secondary dust storage chamber, primary cyclone, secondary cyclone and air outlet, and said secondary dust storage chamber surrounds said single stage of dust collection chamber, it is characterized in that:
Said primary cyclone comprises one-level cyclone chamber and primary cyclone channel, and said one-level cyclone chamber is communicated with said air inlet and has relative cyclone chamber bottom and cyclone chamber top, and said cyclone chamber bottom links to each other with the top of said single stage of dust collection chamber; Said primary cyclone channel comprises surrounds wall and dividing plate; This dividing plate is accepted the bottom spiral extension of cinder and is constituted the described primary cyclone channel that spiral extends with said encirclement wall to said single stage of dust collection chamber from said cyclone chamber bottom; Import is communicated with said one-level cyclone chamber to one end of said primary cyclone channel as cinder, and the other end is communicated with said single stage of dust collection chamber as the one-level ash hole;
Said secondary cyclone comprises the whirlwind tube; This whirlwind tube is connected in said cyclone chamber top and at least partly is positioned at said one-level cyclone chamber; Be provided with the secondary cyclone channel in this whirlwind tube; The inlet of this secondary cyclone channel is communicated with said one-level cyclone chamber and is positioned at said cinder import top and relative, and the outlet of secondary cyclone channel is communicated with said air outlet and said secondary dust storage chamber.
2. the dirt cup of a kind of dust catcher according to claim 1; It is characterized in that: the bottom of said one-level cyclone chamber is round table-like; The sidewall of said one-level cyclone chamber is provided with the air intake passage of the tangential direction that is positioned at said one-level cyclone chamber sidewall, and said one-level cyclone chamber is communicated with said air inlet and comprises that said one-level cyclone chamber is communicated with said air inlet by this air intake passage.
3. the dirt cup of a kind of dust catcher according to claim 1; It is characterized in that: the sidewall of said whirlwind tube offers the secondary ash hole; This secondary ash hole is positioned at the opening direction of the bottom top of accepting thin ash and described secondary ash hole of said secondary dust storage chamber also facing to the sidewall of described secondary dust storage chamber, and the outlet of said secondary cyclone channel is communicated with said secondary dust storage chamber and comprises by this secondary ash hole and be communicated with said secondary dust storage chamber.
4. the dirt cup of a kind of dust catcher according to claim 1 is characterized in that: said one-level ash hole is positioned at the opening direction of the top, bottom of accepting cinder and said one-level ash hole of said single stage of dust collection chamber facing to the sidewall of said single stage of dust collection chamber.
5. the dirt cup of a kind of dust catcher according to claim 1, it is characterized in that: the dirt cup of said dust catcher comprises mesh filter and conducting element, it is inner and have a filtering holes that communicates with said air outlet that said mesh filter is positioned at said whirlwind tube; Said conducting element extends and twist and between the outside wall surface of the internal face of said whirlwind tube and mesh filter and constitute spiral said secondary cyclone channel with the internal face of said whirlwind tube and the outside wall surface of mesh filter to the top of whirlwind tube from the bottom of said whirlwind tube; The outlet of this secondary cyclone channel is communicated with said air outlet and comprises by said filtering holes and be communicated with said air outlet, and the hand of spiral that extend to whirlwind tube top said secondary cyclone channel spin air duct bottom is identical with the hand of spiral that said primary cyclone channel is extended to the bottom of said single stage of dust collection chamber from said cyclone chamber bottom.
6. the dirt cup of a dust catcher has air inlet, single stage of dust collection chamber, secondary dust storage chamber, primary cyclone, secondary cyclone and air outlet, it is characterized in that:
Said primary cyclone comprises one-level cyclone chamber and the primary cyclone channel that is communicated with said air inlet; This primary cyclone channel and said one-level cyclone chamber are communicated with and comprise dividing plate and surround wall; Said dividing plate surrounds described primary cyclone channel from the bottom spiral extension of cinder to said single stage of dust collection chamber that accept with the encirclement wall; Import is communicated with said one-level cyclone chamber to one end of said primary cyclone channel as cinder, and the other end is communicated with said single stage of dust collection chamber as the one-level ash hole;
Said secondary cyclone has the whirlwind tube, and this whirlwind tube part at least is positioned at said one-level cyclone chamber, and this whirlwind tube set inside has the secondary cyclone channel that is communicated with said one-level cyclone chamber; The inlet of this secondary cyclone channel is communicated with said one-level cyclone chamber and is positioned at the top of said cinder import and relatively, exports said secondary dust storage chamber of connection and said air outlet.
7. the dirt cup of a kind of dust catcher according to claim 6; It is characterized in that: the dirt cup of said dust catcher comprises urceolus and inner core; It is inner that said inner core is positioned at said urceolus, and said inner core has said single stage of dust collection chamber and said one-level cyclone chamber, and the top of this one-level cyclone chamber is cylindric; It is round table-like that the bottom is; Said one-level cyclone chamber also has the air intake passage of the tangential direction that is positioned at said inner core sidewall, and this air intake passage is communicated with the one-level cyclone chamber and an end is said air inlet, and it is indoor that said primary cyclone channel is positioned at said single stage of dust collection; Said secondary dust storage chamber is surrounded by the internal face of urceolus and the outside wall surface of inner core at least.
8. the dirt cup of a kind of dust catcher according to claim 6, it is characterized in that: the sidewall of said whirlwind tube offers the secondary ash hole, and this secondary ash hole is positioned at the top, bottom of accepting thin ash of said secondary dust storage chamber and facing to the sidewall of said secondary dust storage chamber.
9. the dirt cup of a kind of dust catcher according to claim 6 is characterized in that: said one-level ash hole be positioned at said single stage of dust collection chamber the top, bottom of accepting cinder and with sidewall facing to said single stage of dust collection chamber.
10. dust catcher, it is characterized in that: it comprises the dirt cup of any one described dust catcher in the claim 1 to 9.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011203964316U CN202288132U (en) | 2011-10-18 | 2011-10-18 | Dust cup of dust collector and dust collector |
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CN2011203964316U CN202288132U (en) | 2011-10-18 | 2011-10-18 | Dust cup of dust collector and dust collector |
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CN202288132U true CN202288132U (en) | 2012-07-04 |
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CN2011203964316U Withdrawn - After Issue CN202288132U (en) | 2011-10-18 | 2011-10-18 | Dust cup of dust collector and dust collector |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102334954A (en) * | 2011-10-18 | 2012-02-01 | 江苏美的春花电器股份有限公司 | Dust cup of dust collector and dust collector |
-
2011
- 2011-10-18 CN CN2011203964316U patent/CN202288132U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102334954A (en) * | 2011-10-18 | 2012-02-01 | 江苏美的春花电器股份有限公司 | Dust cup of dust collector and dust collector |
CN102334954B (en) * | 2011-10-18 | 2013-10-02 | 江苏美的春花电器股份有限公司 | Dust cup of dust collector and dust collector |
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