CN1647741A - Dust separating mechanism for vacuum cleaner - Google Patents

Abstract

The dust separating mechanism for vacuum cleaner includes front stage of cyclonic separating part, the back stage of cyclonic separating part, and the connecting passage between these two parts. The front stage of cyclonic chamber has top baffle with openings and the baffle extends downwards spirally from over the airflow entering passage of the preceding stage. Relatively heavy large dust grains after being sucked into the inside cavity of the front stage one cyclonic barrel will rotate downwards spirally to stay in the bottom of the back stage of the cyclonic barrel. In this way, the relatively heavy large dust grains are separated.

Description

The dust separation apparatus of dust catcher

Technical field

The present invention relates to a kind of dust separation apparatus of dust catcher,

Background technology

In the prior art, adopted two-stage dust cyclonic separation technology in the dust catcher of DYSON company, it comprises prime cyclonic separation part, back level cyclonic separation part, be used to be communicated with the interface channel of prime cyclonic separation part and back level cyclonic separation part, the prime cyclonic separation partly is used for bulky grain, heavier dust separates, thinner dust and air-flow are then through entering back level cyclonic separation part behind the interface channel, by back level cyclonic separation part tiny dust is separated, fine dust after the separation enters in the laying dust bucket, and clean air-flow is discharged in the atmosphere after fan blade through the negative pressure exit passageway.Described prime cyclonic separation partly comprises prime whirlwind bucket, be arranged at the prime air-flow admission passage of the top side wall portion of prime whirlwind bucket, be arranged at the laying dust bucket of the inner chamber central part of prime whirlwind bucket, when oarse-grained dust rotates with cyclonic air flow, bulky grain run into lose that inertia can drop to the below behind the inwall of prime whirlwind bucket and and flow separation.Described back level cyclonic separation partly comprises a plurality of backs level whirlwind bucket, each back level whirlwind bucket is positioned at the top of laying dust bucket, the bottom of each back level whirlwind bucket has back level whirlwind bucket bottom opening, back level whirlwind bucket bottom opening is arranged in the inner chamber of laying dust bucket, the top of back level whirlwind bucket is fixed with central tube, this central tube stretches into downwards in the inner chamber of back level whirlwind bucket, and the upper portion side wall of back level whirlwind bucket is provided with back level air-flow admission passage.After air-flow rotates, enter interface channel in the inner chamber of prime whirlwind bucket, enter a back level air-flow admission passage from interface channel again and enter again in the level whirlwind bucket of back through the perforate side direction of the inboard bucket of prime whirlwind bucket wall.Because rotate rear side in prime whirlwind bucket, the air-flow of band dust enters interface channel to inwardly (edge haply towards axis direction); and the rotary speed of air-flow in this prime whirlwind bucket is lower; therefore heavy particle dust that should be separated also can be inhaled in the interface channel owing to the effect of negative pressure, causes prime cyclonic separation part dust-separating deleterious.When air-flow tangentially after prime air-flow admission passage enters prime whirlwind barrel cavity, the flow direction of air-flow is dispersed, the air-flow that enter early stage can produce the air-flow that the later stage enters and disturb, and has influenced cyclone effect.

Summary of the invention

The object of the invention provides a kind of prime whirlwind bucket that makes and can separate heavier dust granule, the dust separation apparatus of the dust catcher of the interface channel of level and back level whirlwind bucket after a heavy dust can not enter.

Technical scheme of the present invention is: a kind of dust separation apparatus of dust catcher, comprise prime cyclonic separation part, back level cyclonic separation part, be used to be communicated with the interface channel of prime cyclonic separation part and back level cyclonic separation part, described prime cyclonic separation partly comprises prime whirlwind bucket, be arranged at the prime air-flow admission passage of the top side wall portion of prime whirlwind bucket, be arranged at the laying dust bucket of the inner chamber central part of prime whirlwind bucket; Described back level cyclonic separation partly comprises a plurality of backs level whirlwind bucket, each back level whirlwind bucket is positioned at the top of laying dust bucket, the bottom of each back level whirlwind bucket has back level whirlwind bucket bottom opening, back level whirlwind bucket bottom opening is arranged in the inner chamber of laying dust bucket, the top of back level whirlwind bucket is fixed with central tube, this central tube stretches into downwards in the inner chamber of back level whirlwind bucket, the upper portion side wall of back level whirlwind bucket is provided with back level air-flow admission passage, cavity between described prime whirlwind bucket and the laying dust bucket constitutes the prime cyclone chamber, the top of this prime cyclone chamber is provided with baffle plate, this baffle plate begins from the top of prime air-flow admission passage to extend spirally downwards around the laying dust bucket, have many perforates on the described baffle plate, be connected by midfeather between the baffle plate initiating terminal of described baffle plate and the baffle plate terminating end; Described prime cyclone chamber is connected with interface channel by perforate.

The present invention compared with prior art has following advantage:

Because the effect of gravity and helical baffle; make air-flow after prime air-flow admission passage enters the prime cyclone chamber; the diversity of air-flow is little; effective under the screw; midfeather can stop air-flow to enter communication passage from baffle plate initiating terminal to the gap between the baffle plate terminating end; therefore heavier bulky grain dust in the inner chamber that is inhaled into prime whirlwind bucket after; can be rotated down by spiral; and air stream outlet is positioned at the tapping of the baffle plate at top; therefore the heavier dust of particle is difficult for overcoming the effect of gravity and moves up; heavier particle dust can be stayed the bottom in the level whirlwind bucket of back, so prime cyclonic separation part can play the effect that big heavier particle dust is separated.

Description of drawings

Accompanying drawing 1 is an outward appearance right view of the present utility model;

Accompanying drawing 2 is structure master's cutaway view of the present utility model;

Accompanying drawing 3 is the A-A direction cutaway view of accompanying drawing 2;

Accompanying drawing 4 is the B-B direction cutaway view of accompanying drawing 2;

Accompanying drawing 5 is the C-C direction cutaway view of accompanying drawing 3;

Accompanying drawing 6 is the D-D direction cutaway view of accompanying drawing 3;

Accompanying drawing 7 is the structure cutaway view of level cyclonic separation part after; Wherein:

1, negative pressure exit passageway; 2, central tube inner chamber; 3 central tubes; 4, filter barrier; 5, interface channel; 6, back level whirlwind inner chamber; 7, baffle plate; 8, prime air-flow admission passage; 9, prime cyclone chamber; 10, laying dust bucket; 11, prime whirlwind bucket; 12, the bucket end; 13, back level whirlwind bucket; 14, perforate; 15, laying dust chamber; 16, back level whirlwind bucket bottom opening; 17, back level air-flow admission passage; 18, level air-flow in back enters pipeline; 19, midfeather; 20, top cover; 21, baffle plate initiating terminal; 22, baffle plate terminating end;

The specific embodiment

Referring to accompanying drawing 1 to accompanying drawing 7, particularly referring to accompanying drawing 2, a kind of dust separation apparatus of dust catcher, comprise prime cyclonic separation part, back level cyclonic separation part, be used to be communicated with the interface channel of prime cyclonic separation part and back level cyclonic separation part, described prime cyclonic separation partly comprises prime whirlwind bucket 11, be arranged at the prime air-flow admission passage 8 of the top side wall portion of prime whirlwind bucket 11, be arranged at the laying dust bucket 10 of the inner chamber central part of prime whirlwind bucket 11, the air-flow of band dust tangentially enters in the prime cyclone chamber 9 from prime air-flow admission passage 8, at baffle plate 7, prime whirlwind bucket 11, the bucket end 12, rotation in the prime cyclone chamber 9 between the laying dust bucket 10, big heavy dust is stayed in this prime cyclone chamber 9, and thin dust upwards enters in the interface channel 5 through perforate 14 with air-flow, described interface channel 5 is positioned at the outside of each back level whirlwind bucket 13, be provided with in the described interface channel 5 and filter barrier 4, interface channel 5 is by the intracavity inter-connection of each back level air-flow admission passage 17 with each back level whirlwind bucket 13.This back level air-flow mode of entrance makes the air-flow of back level inlet port be evenly distributed, and then the separating property of each back level whirlwind bucket 13 is identical, has improved dust separating effect.Filtering barrier 4 can be big and light dust, scraps of paper class dust for example, and every in interface channel 5, and fine dust can be by filtering in the inner chamber that barrier 4 enter back level whirlwind bucket 13.Described back level cyclonic separation part as accompanying drawing 1 to shown in the accompanying drawing 7, level whirlwind bucket 13 after it comprises six, each back level whirlwind bucket 13 is positioned at the top of laying dust bucket 10, the bottom of each back level whirlwind bucket 13 has back level whirlwind bucket bottom opening 16, back level whirlwind bucket bottom opening 16 is arranged in the inner chamber of laying dust bucket 10, and the fine dust after separated can enter in the laying dust chamber [15] through this whirlwind bucket bottom opening 16.The top of back level whirlwind bucket 13 is fixed with central tube 3, this central tube 3 stretches into downwards in the inner chamber of back level whirlwind bucket 13, the upper portion side wall of back level whirlwind bucket 13 is provided with back level air-flow admission passage 17, this back level air-flow admission passage 17 is used for air-flow and tangentially enters back level whirlwind inner chamber 6, and the central tube inner chamber 2 that clean air communication is crossed in the central tube 3 enters the negative pressure exit passageway, is discharged to outside the machine behind the blade of motor.To shown in the accompanying drawing 5, the cavity between described prime whirlwind bucket 11 and the laying dust bucket 10 constitutes prime cyclone chamber 9 as accompanying drawing 1, and the top of this prime cyclone chamber 9 is provided with baffle plate 7.Shown in accompanying drawing 4 and accompanying drawing 6, this baffle plate 7 begins from the top of prime air-flow admission passage 8 to extend spirally downwards around laying dust bucket 10, have many perforates 14 on the described whole baffle plate 7 equably, described prime cyclone chamber 9 is connected with interface channel 5 by perforate 14, is connected by midfeather 19 between the baffle plate initiating terminal 21 of described baffle plate 7 and the baffle plate terminating end 22; Baffle plate 7 between baffle plate initiating terminal 21 and the baffle plate terminating end 22 generally extends spirally 330 degree to 390 degree haply around extending spirally a week downwards around laying dust bucket 10.Baffle plate 7 makes air-flow after prime air-flow admission passage 8 sucks, can be under the guiding of baffle plate 7, be rotated down along the cavity spiral between the inwall of the outer wall of laying dust bucket 10 and prime air-flow admission passage 11, make heavier particle be split into the outside, bottom of prime cyclone chamber 9.

Claims (6)

1, a kind of dust separation apparatus of dust catcher, comprise prime cyclonic separation part, back level cyclonic separation part, be used to be communicated with the interface channel of prime cyclonic separation part and back level cyclonic separation part, described prime cyclonic separation partly comprises prime whirlwind bucket [11], be arranged at the prime air-flow admission passage [8] of the top side wall portion of prime whirlwind bucket [11], be arranged at the laying dust bucket [10] of the inner chamber central part of prime whirlwind bucket [11]; Described back level cyclonic separation partly comprises a plurality of backs level whirlwind bucket [13], each back level whirlwind bucket [13] is positioned at the top of laying dust bucket [10], the bottom of each back level whirlwind bucket [13] has back level whirlwind bucket bottom opening [16], back level whirlwind bucket bottom opening [16] is arranged in the inner chamber of laying dust bucket [10], the top of back level whirlwind bucket [13] is fixed with central tube [3], this central tube [3] stretches into downwards in the inner chamber of back level whirlwind bucket [13], the upper portion side wall of back level whirlwind bucket [13] is provided with back level air-flow admission passage [17], it is characterized in that: the cavity between described prime whirlwind bucket [11] and the laying dust bucket [10] constitutes prime cyclone chamber [9], the top of this prime cyclone chamber [9] is provided with baffle plate [7], this baffle plate [7] begins from the top of prime air-flow admission passage [8] to extend spirally downwards around laying dust bucket [10], have many perforates [14] on the described baffle plate [7], be connected by midfeather [19] between the baffle plate initiating terminal [21] of described baffle plate [7] and the baffle plate terminating end [22]; Described prime cyclone chamber [9] is connected with interface channel [5] by perforate [14].

2, the dust separation apparatus of dust catcher according to claim 1 is characterized in that: described many perforates [14] are distributed on the whole baffle plate [7].

3, the dust separation apparatus of dust catcher according to claim 1 is characterized in that: described many perforates [14] are evenly distributed on the whole baffle plate [7].

4, the dust separation apparatus of dust catcher according to claim 1 is characterized in that: described baffle plate [7] extends spirally a week haply downwards around laying dust bucket [10].

5, the dust separation apparatus of dust catcher according to claim 4 is characterized in that: described baffle plate [7] extends spirally 330 degree downwards to 390 degree around laying dust bucket [10].

6, the dust separation apparatus of dust catcher according to claim 1, it is characterized in that: described interface channel [5] is positioned at the outside of each back level whirlwind bucket [13], be provided with in the described interface channel [5] and filter barrier [4], interface channel [5] is by the intracavity inter-connection of each back level air-flow admission passage [17] with each back level whirlwind bucket [13].

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