KR100565574B1 - A cyclone type dust collector for a vacuum cleaner - Google Patents

Abstract

The present invention relates to a cyclone dust collector for a vacuum cleaner, and to collect the pollutants over a second time in the cyclone dust collector to improve the dust collection efficiency.

To this end, the present invention is connected to the inlet extension pipe 51 of the two-segmented extension tube of the vacuum cleaner is a cylindrical first dust collector 110 to centrifuged to collect the first large particles of contaminants in the air and contaminants sucked 110 ), One side is in communication with the first dust collecting unit 110, the other side is in communication with the discharge side extension pipe 52 of the extension pipe, the particles in the air and contaminants introduced through the first dust collecting unit 110 is small Secondary dust is collected by centrifugation of fine contaminants, and a cyclone dust collector for a vacuum cleaner including a cylindrical second dust collector 120 configured to discharge the sucked air through the discharge side extension pipe 52 is provided. do

Vacuum cleaner, cyclone, dust collector

Description

A cyclone type dust collector for a vacuum cleaner

1 is a main cross-sectional view of a cyclone dust collector for a conventional vacuum cleaner

2 is an exploded perspective view of a first embodiment of a cyclone dust collector according to the present invention;

3 is a cross-sectional view of main parts of the cyclone dust collector of FIG.

Figure 4 is a perspective view showing the projection of the second embodiment of the cyclone dust collector according to the present invention

5 is a cross-sectional view of main parts of the cyclone dust collector of FIG. 4.

6 is a sectional view of main parts of a third embodiment of a dust collector according to the present invention;

Description of the main parts of the drawings

110, 210, 310-First dust collector 111, 211, 311-First body

112, 212, 312-Suction line 113-Top cover

114, 214, 314-Punching pipes 120, 220, 320-Second dust collector

121, 221, 321-Second body 122, 222, 322-Inlet

123, 223, 323-Means for turning force 124, 224, 324-Air discharge pipe

125, 225, 325-Dust collector 126-Pollutant discharge pipe

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dust collector for a vacuum cleaner, and in particular, a cyclone dust collector for a vacuum cleaner mounted on a vacuum cleaner extension pipe so that contaminants sucked into the vacuum cleaner can be collected using a cyclone principle before being introduced into the vacuum cleaner body. It is about.

In general, a vacuum cleaner is a home appliance that generates a strong air suction input in a cleaner body to force the suction of contaminants such as dust on the floor to be cleaned.

Meanwhile, a general vacuum cleaner is configured to collect contaminants such as dust sucked through an extension tube in the cleaner body, but a vacuum cleaner (hereinafter, referred to as a cyclone vacuum cleaner) equipped with a dust collector using a cyclone principle is used. A dust collector is installed between the extension pipe and the extension pipe, which is divided into two, to collect dust and the like.

As shown in FIG. 1, the cyclone dust collecting device of the cyclone-type vacuum cleaner includes a cylindrical body 11 and a dust collecting box formed at the lower end of the body 11 to collect contaminants such as dust. 14).

An inlet 12 is formed in the upper side surface portion of the body 11 and communicates with the first extension pipe 51 through which dust is introduced from the outside such as the bottom, and the upper surface of the body 11 is formed through the body 11. An air discharge pipe 13 through which the introduced air is discharged is formed, and the air discharge pipe 13 communicates with a second extension pipe 52 connected to a handle (not shown).

Here, the inlet 13 is formed in a tangential direction with respect to the circumferential direction of the body 11 so that air and contaminants introduced through the first extension pipe 51 can flow in the tangential direction in the body 11, The air discharge pipe 13 is formed perpendicular to the top surface in the body (11).

The cyclone dust collecting device having the above configuration operates as follows.

When the user operates the cleaner for cleaning, contaminants such as dust and the like are sucked together with air through the first extension pipe 51, and tangentially in the dust collector body 11 through the inlet 13 of the cyclone dust collector. Inflow, and thus air and contaminants introduced into the body 11 have a turning force with respect to the body 11.

In addition, at this time, since the suction force is continuously transmitted through the air discharge pipe 13 in the dust collector body 11, the tangential suction air and contaminants in the cyclone body 11 are the cyclone body. It descends while turning along the inner wall of.

In other words, as the inlet side of the air discharge pipe 13 through which the suction force is transmitted is formed below the inlet 12 formed at the upper end of the body, air and contaminants introduced into the inlet 12 are directly discharged. It is possible by moving down through the discharge pipe 13 from the lower center of the body 11 and then descending by turning downward without being discharged through the (13).

On the other hand, the air and contaminants introduced into the body 11 are subjected to different centrifugal forces by different weights in the process of turning and descending along the inner wall surface of the dust collector body 11, and various contaminants from the air. Are separated.

That is, air having a mass close to zero by F = meω ² (F; centrifugal force, m; mass, e; radius of rotation, in this case, the distance from the center of the dust collector body to the inner wall surface, ω; angular acceleration) has almost a centrifugal force. However, dust or contaminants having a relatively large mass are continuously rotated along the inner wall surface of the body 11 of the dust collector under the influence of the centrifugal force, and are collected in the dust collector 14 installed in communication with the lower portion of the body 11.

In addition, the air, which is hardly subjected to centrifugal force, rises from the lower part of the body 11 along the center of the body by the suction force generated through the discharge pipe 13 to be introduced into the cleaner body (not shown) through the discharge pipe 13. do.

As a result, as the above processes are repeated continuously, contaminants may be collected.

However, since the conventional cyclone dust collector has a structure in which contaminants are collected at one time, when the sucked air is discharged while causing a strong whirlwind in the center of the dust collector body, the sucked contaminants are discharged together with the air through the discharge pipe. There is a problem that the discharge is introduced into the cleaner body, the dust collection efficiency is lowered, the motor or the like in the cleaner body is broken or damaged.

Therefore, the present invention is to solve the above problems, the first to collect the large particles of contaminants in the cyclone dust collector, and then to collect and discharge the air and contaminants to collect the second small fine contaminants secondary It is an object of the present invention to provide a cyclone dust collector for a vacuum cleaner in which the dust collection efficiency can be improved by allowing the above two times to be achieved.

In order to achieve the above object, the present invention is divided into two parts, the inlet extension pipe through which air is introduced and the outlet side extension pipe through which air is introduced into the vacuum cleaner extension pipe which guides the cleaner body by taking air and contaminants from the outside. In the cyclone dust collector installed between each of the divided extension pipes in one state to separate the contaminants from the air flow flowing through the extension pipe using the cyclone principle using centrifugal force, the inflow side of the extension pipe A cylindrical first dust collecting part connected to the extension pipe to centrifugally separate the contaminants with large particles from the air and contaminants sucked in, and one side communicates with the first dust collecting part, and the other side is the discharge side extension pipe of the extension pipe. In contact with the air, the small particles of air and contaminants introduced through the first dust collection unit It provides a cyclone dust collector for a vacuum cleaner including a second dust collector configured to discharge secondary air by centrifugation, and then discharge the sucked air through the discharge side extension pipe.

Hereinafter, embodiments of a cyclone dust collector for a vacuum cleaner according to the present invention will be described.

Figure 2 is an exploded perspective view of a first embodiment of the cyclone dust collector according to the present invention, Figure 3 is a sectional view of the main portion of the cyclone dust collector of Figure 2, the configuration and operation of the first embodiment according to the present invention are as follows. .

For reference, in order to facilitate understanding of the dust collectors of the present invention, air and contaminants are introduced into the front of the apparatus and the discharge side is described as the rear of the apparatus.

As shown in Fig. 2 and 3, the cyclone dust collector according to the present invention is an inlet extension pipe 51 on the side where the air is introduced to the extension pipe for sucking air and contaminants from the outside to guide the cleaner body (not shown) ) Is mounted between each of the divided extension tubes in the state divided into two parts of the discharge side extension tube 52 on the side from which air is discharged, and the first dust collector 110 is connected to the inlet extension tube 51 of the extension tube. Centrifugation of the contaminants having large particles in the air and contaminants connected and sucked is performed first, and then the second dust collecting unit 120 is fine contaminants having small particles in the air and contaminants introduced through the first dust collecting unit 110. Centrifugation to collect the secondary and to discharge the clean air from which the contaminants are separated through the discharge side extension pipe (52).

In more detail, the first dust collecting unit 110 is connected to the first body 111 having a cylindrical shape to separate and collect contaminants from inhaled air and contaminants, and an inlet extension pipe 51 to receive air and It is configured to include a suction pipe 112 for guiding the contaminants to be sucked into the first body 111, and an upper cover 113 detachable to the upper end of the first body (111).

The suction pipe 112 has a substantially 'L' shape so that one end thereof is detachably connected to the inlet side extension 51 of the cleaner, while the other end is in communication with one side of the upper end surface of the first body 111.

In addition, the upper cover 113 of the first body 111 may be integrally formed on the upper end of the body, as shown in FIG. 2, in order to remove the contaminants from the body after collecting the contaminants, the first body (111) It is preferable that the upper end is formed to be detachable.

A plurality of holes 114a having a predetermined diameter are disposed below the central portion of the upper cover 113 so that only air and fine contaminants introduced into the first body 111 are discharged and no contaminants larger than a predetermined size are discharged. A perforated tube 114 formed at regular intervals along the sidewall is provided.

In addition, the upper cover 113 has a suction hole 113a through which the suction pipe 112 of the first dust collecting unit 110 passes, a discharge hole 113b through which the other hole 114 passes, and As will be described, a dust collecting hole 113c through which the contaminant discharge pipe 126 of the second dust collecting unit 120 penetrates is formed.

On the other hand, the second dust collecting part 120, the cylindrical second body 121 is installed on the upper portion of the first body 111 of the first dust collecting part 110, and the second body 121 in the bottom portion The inlet 122 is formed in communication with the perforated tube 114 of the upper end of the first body 111 and the air and micro-contaminants passed through the perforated tube 114, and the inlet in the upper portion of the inlet 122 Turning force imparting means 123 for applying a turning force so that the air and fine contaminants that have passed through 122 are pivoted along the inner wall of the second body 121, and the second body 121 is disposed on the opposite side of the turning force imparting means 123. An air discharge pipe 124 formed to protrude from the air discharge pipe 124 and communicated with the discharge side extension pipe 52, and a contaminant discharge pipe 126 formed on the bottom surface of the second body 121 under the air discharge pipe 124, and Including the micro-contaminant dust collector 125, the micro-contaminants discharged through the contaminant discharge pipe 126 is collected It is sex.

The dust collector 125 is integrally formed immediately behind the first body 111, and the user has the first body 111 and the dust collector 125 behind the dust collector 125 from the dust collector. The handle 150 is provided to be gripped by hand when removing.

In addition, a detachable lever 141 is installed at the upper end of the handle 150 so that the upper cover 113 is detachable from the upper end of the first body 111. The detachable lever 141 is already known. Likewise, it is elastically supported by the spring 143 fixed to the top of the handle 150, is connected to the hinge shaft 144 so as to be pivotable, the locking step for supporting the rear end of the upper cover 113 by walking 142 is formed.

On the other hand, the dust collector is a removable protective cover to cover the top of the second dust collector 120 and the suction pipe 112 in order to protect the suction pipe 112 of the second dust collector 120 and the first dust collector 110 ( 130).

Hereinafter, the operation of the first embodiment of the present invention having the above configuration will be described.

When the user operates the cleaner by applying power, air and contaminants are sucked through the inlet extension pipe 51 and introduced into the first body 111 through the suction pipe 112 of the dust collector.

As such, the air and contaminants introduced into the first body 111 are lowered while turning along the inner wall of the first body 111, and contaminants having a relatively large weight are collected at the bottom of the first body 111, and The fine contaminants are discharged into the second body 121 through the inlet 122 of the perforated tube 114 and the second body 121 of the upper end of the first body (111).

At this time, in the process of discharging air and fine contaminants through the perforated tube 114, the large contaminants do not get caught in the perforated tube 114, so only air and fine contaminants are the perforated tube 114 Can be discharged through).

On the other hand, fine contaminants of the air and fine contaminants introduced into the second body 121 through the other hole 114 is turned along the inner wall surface of the second body 121 under the influence of the turning force applying means 123. While proceeding and collected in the dust collecting tube 125 communicated with the contaminant discharge pipe 126 at the bottom of the second body 121, the air which is hardly affected by the centrifugal force is formed in the side wall portion of the rear end of the second body 121. The discharge pipe 114 is discharged to the discharge side extension pipe (52).

Therefore, since contaminants having a relatively large size and heavy weight are first collected on the first body 111 and then, second contaminants may be secondarily filtered out of the second body 121. Most contaminants can be collected.

Subsequently, in order to remove the contaminants collected in the dust collecting apparatus after cleaning is completed, the user presses the detachable lever 141 and the upper cover 113 and the first body 111 of the first dust collecting unit 110. After releasing the coupled state of the first body 111 and the first body 111, the contaminants in the dust collector 125 formed integrally with the rear body may be removed.

4 and 5 show a second embodiment of the dust collecting apparatus according to the present invention, and the dust collection is performed twice in the same manner as the first embodiment described above. The dust collecting part 210 is installed side by side right in front of the second dust collecting part 220.

That is, the dust collecting apparatus of the second embodiment has almost the same basic components as the dust collecting apparatus described in the first embodiment, but the arrangement is different. This will be described in more detail as follows.

The first dust collecting unit 210, the first body 211 of the cylindrical body to separate and collect the contaminants from the suctioned air and contaminants are formed along the longitudinal direction of the extension tube, one end thereof is connected to the inlet extension tube 51 The suction pipe 212 is formed along the side wall of the first body 211 so that the other end thereof is in tangential communication with the lower end of the first body 211.

In addition, a hollow perforated tube 214 is formed on the rear wall of the first body 211 to protrude into the second body 221.

As the perforated tube 214 has a plurality of holes 214a formed at regular intervals along the side wall surface as described in the first embodiment, contaminants having a predetermined size or more are separated by the perforated pipe 214 by the holes 214a. It cannot be discharged through.

On the other hand, the second body 221 of the second dust collecting part 220 is formed in communication with the room immediately after the first body 211, that is, the other hole 214 of the second body 221 In communication with the inlet 222.

In addition, the upper end of the second body 221 is provided with a turning force applying means 223 for imparting a turning force so that air and fine contaminants introduced from the first body 211 can turn, the second body 221 The discharge pipe 224 through which the air of the second body 221 is discharged is formed to protrude to the inside of the second body 221 at the lower end of the), and the discharge pipe 224 is connected to the discharge side extension pipe 52. .

In addition, a dust collecting container 225 is formed on the sidewall surface of the second body 221 so that the fine contaminants introduced at the same height as the position of the turning force applying means 223 are discharged and collected.

Here, the dust collecting container 225 is preferably formed integrally with the first body 211 along the outer surface of the first body 211, which provides a compact appearance by reducing the volume of the dust collecting device to a minimum. To do this.

The operation of the second embodiment of the dust collector will be described below.

When the user operates the cleaner by applying power to the cleaner for cleaning, air and contaminants are guided through the suction pipe 212 connected to the inlet connector 51 so that the first body 211 of the first dust collecting part 210 is operated. The first body 211 flows in the tangential direction from the rear end of the first body 211.

The air and contaminants introduced in this way are rotated along the inner wall surface of the first body 211. At this time, the heavy contaminants subject to a large centrifugal force continue to turn toward the front of the first body and then the first body 211. The dust is collected at the front tip, and air and fine contaminants are discharged into the second body 221 through the other hole 214.

Subsequently, the air and fine contaminants introduced into the second body 221 are turned by the turning force applying means 223 formed at the upper end of the second body 221 so that the fine contaminants communicate with the turning force applying means 223. It is discharged into the dust collector 225 is formed and collected, the air is discharged to the discharge side extension pipe 52 through the discharge pipe 224 of the lower end of the second body (221).

In the first embodiment described above, the dust collecting cylinder 125 is installed to be in communication with one side of the second body 121 on the opposite side of the turning force applying means 123, but in the second embodiment, the position near the turning force applying means 223 is provided. The dust collector 225 is installed in the dust collector to collect fine dust. In the second embodiment, the second body 221 is connected to the other hole tube 214 of the first body 211 in the second embodiment. This is because the position where the pivot movement of the contaminant is generated is limited to the position of the pivot force applying means 223 because it is located in the center of the body 221.

6 shows a third embodiment of the dust collector according to the present invention, and is the same as the second embodiment except that the suction hose 315 is provided.

That is, the suction hose 315 is made of a flexible material, one end of the suction hose 315 is connected to the suction pipe 312 connected to the inlet side connecting pipe 51, the other end of the suction hose 315 It is connected to communicate with the rear end wall of the first body 311.

Therefore, in the third embodiment, the air and contaminants guided through the suction hose 315 can be introduced from the rear end wall of the first body 311.

This is because, as in the second embodiment, since the inhalation pipe 212 is configured in such a way that air and contaminants are introduced into the tangential direction at the rear end of the first body 211, manufacturing difficulties remain. By fitting the hose 315 made of a flexible material to the suction pipe 312 formed as straight, air and contaminants can be easily introduced from the rear end of the first body 311.

In other words, the third embodiment has the advantage that the convenience in manufacturing is improved.

Meanwhile, the above-described embodiments are merely embodiments of the dust collectors of the present invention, and the present invention is not limited to the above embodiments, and various modifications and implementations may be made without departing from the gist of the present invention.

For example, in the dust collector of the second embodiment, the positions of the turning force applying means 223 and the air discharge pipe 224 in the second body 221 may be formed to be interchanged with each other, and to give turning force to the air and contaminants. Helical blades may be used as a means for this.

As described above, according to the present invention, since the dust collection is carried out in the cyclone dust collector of the vacuum cleaner over two times, the dust collection efficiency is improved.

Claims (5)

An extension tube for vacuum cleaner that sucks air and contaminants from the outside and guides it to the main body of the vacuum cleaner is installed between the divided extension tubes in two parts, in which the inlet extension tube through which air is introduced and the outlet side extension tube through which air is discharged. In the cyclone dust collector which separates and collects contaminants from the air flow flowing through the extension pipe by using the cyclone principle using centrifugal force,  A suction tube having one end connected to an inlet extension tube of the extension tube to introduce air and contaminants, and a cylindrical first body connected to the other end of the suction tube to separate and collect contaminants from air and contaminants introduced through the suction tube; A first including a filtration / discharge means formed of a hollow cylindrical shape formed with a plurality of holes arranged at a predetermined interval along the side wall to filter the contaminants of a predetermined size or more from the air discharged from the first body and contaminants A dust collecting unit; A second cylindrical body located on one side of the first body of the first dust collecting part, and air formed in communication with the filtration / discharging means of the first dust collecting part at one side of the second body and passing through the filtration / exhausting means And a turning force applying means for applying turning force so that the air and fine contaminants passing through the inlet are turned along the inner wall of the second body, and formed on the opposite side of the turning force applying means and communicating with the discharge side extension pipe. And a second dust collecting part including an air discharge pipe formed and a micro contaminant dust collecting tube which is connected to one side of the second body and is discharged and collected by the micro contaminants centrifuged from the second body. Clone dust collector. delete The cyclone dust collector of claim 1, wherein the pivot force applying means comprises a cylindrical portion protruding from one side of the second body so as to have a coaxiality with the second body. delete According to claim 1, wherein the first dust collecting portion is connected to the suction pipe and the other end is connected to the rear wall of the first body in order to introduce air and contaminants from the rear wall of the first body Cyclone dust collector for a vacuum cleaner, characterized in that it further comprises.

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