KR20060031446A - Cyclone collector - Google Patents

Abstract

The present invention relates to a multi-cyclone dust collector, and in particular, to improve the dust collector structure of the secondary cyclone dust collector, to reduce the rotational flow of fine dust in the dust collector and to maximize the dust collection space. The present invention relates to a multi-cyclone dust collector of a new structure.

To this end, the present invention is the primary cyclone dust collecting unit for collecting the foreign air to primarily collect the foreign matter; It is connected to the primary cyclone dust collecting unit and collects fine foreign matter again from the air which has been separated first of all foreign matters, and is smaller than the primary cyclone dust collecting unit and provided along the outer circumference of the primary cyclone dust collecting unit. Multiple secondary cyclone dust collectors; And, provided along the bottom of each of the secondary cyclone dust collector, and formed to form a substantially non-circular, the dust collector is formed to include a common dust and dust separated from the air by each of the secondary cyclone dust collector in common: It provides a multi-cyclone dust collector, characterized in that.

Multiple Cyclone Dust Collector, Secondary Cyclone Dust Collector, Non-Circular Dust Collector

Description

Multi Cyclone Dust Collector {Cyclone Collector}

1 is an exploded perspective view schematically showing a conventional multi-cyclone dust collector

Figure 2 is a longitudinal sectional view schematically showing a combined state for a conventional multi-cyclone dust collector

Figure 3 is an exploded perspective view schematically showing a multi-cyclone dust collector according to an embodiment of the present invention

Figure 4 is a cross-sectional view for explaining the internal structure of the dust collector of the multi-cyclone dust collector according to an embodiment of the present invention

Explanation of symbols for main parts of the drawings

100. 1st cyclone dust collector 110. 1st inlet

120. First Body 140. First Outflow

300. Second cyclone dust collector 310. Second inlet

320. Second Body 340. Second Outflow

400. Dust collector 410. Non-circular part

The present invention relates to a multiple cyclone dust collector, and more particularly, to a dust collector structure of a secondary cyclone dust collector.

In general, a cyclone dust collector is a device for collecting dust, dust, and the like (hereinafter referred to as “foreign material”) contained in the air by using a cyclone principle, and is mainly applied to a vacuum cleaner.

Recently, in order to improve dust collection performance, a multi cyclone collector (Multi Cyclone Collector) is used.

An example of such a multi-cyclone dust collector is disclosed in Japanese Utility Model Laid-Open No. 52-14775 and the like.

1 and 2, a conventional multi-cyclone dust collector will be described.

The multi-cyclone dust collector is connected to the cyclone (1) (hereinafter referred to as "primary cyclone dust collector") that collects relatively large dust by sucking polluted air from the outside, and is connected to the primary cyclone dust collector (1). It consists of the cyclone 3 which collects a small dust (hereinafter, "secondary cyclone dust collector"). The secondary cyclone dust collector 3 in the multiple cyclones is a collection of a plurality of small cyclones.

This will be described in more detail as follows.

First, the primary cyclone dust collector 1 has a first inflow portion 11, a first body 12, and a first outflow portion 14.

At this time, the first inflow portion 11 is connected in communication with the inflow of the outside air in the tangential direction on the circumferential surface of the first body 12, the first outflow portion 14 is the first 1 It is provided along the direction perpendicular to the substantially center part in the body 12. As shown in FIG.

The first outlet portion 14 serves to discharge the primary filtered air to the secondary cyclone dust collector 3 at approximately the center of the inside, and is generally formed in a cylindrical shape, and the lower portion 14b is open. The perimeter of the upper portion 14a is blocked. In some cases, the filter 16 may be installed in the opening of the lower portion 14b as shown in FIG. 2.

On the other hand, the secondary cyclone dust collector 3 is a plurality of small cyclones mounted in a substantially circular arrangement along the circumference of the first body constituting the primary cyclone dust collector 1, and the second body 32 and , A second inlet portion 31 and a second outlet portion 34.

The second body 32 is formed in a conical cone shape, the bottom portion of which is concentrically piped toward the lower side, and the bottom of each secondary cyclone dust collecting part 3 flows in the second body 32 from the air. The dust collecting container 4 for collecting the separated foreign matter is provided.

At this time, the dust collector (4) is formed to be round in a substantially circular conduit in plan view so that all of the secondary cyclone dust collector (3) can be used in common, the whole position is formed in communication.

In addition, a buffer space 56 is usually defined between the primary cyclone dust collecting part 1 and the secondary cyclone dust collecting part 3, and the primary cyclone dust collecting part 1 passes through the buffer space 56. It is configured to allow the air to be introduced into the secondary cyclone dust collector (3).

In addition, an upper portion of the secondary cyclone dust collector 3 is provided with a discharge space 52 communicating with the second outlet 34 of the plurality of secondary cyclone dust collectors 3, and the discharge space 52 is disposed. Air is discharged to the outside through the discharge pipe 54 via. Reference numeral 5 in FIG. 2, which has not been described, is a case for accommodating the primary cyclone dust collector 1 and the secondary cyclone dust collector 3.

Referring to the operation of the conventional multi-cyclone dust collector described above is as follows.

When the multiple cyclone dust collector is operated to drive the suction force generating means, for example, a suction fan (not shown) of the vacuum cleaner, external contamination is caused through the first inlet 11 of the primary cyclone dust collector 1. Air is introduced into the primary cyclone dust collector 1. At this time, the contaminated air is sucked along the tangential direction, and is rotated on the inner wall surface of the first body 12 of the primary cyclone dust collector 1, in which dust is separated by centrifugal force.

At this time, the relatively heavy and large dust is collected in the lower portion of the primary cyclone dust collector (1), the small dust that is not separated by turning inside the primary cyclone dust collector (1) and ascends to the first outflow portion (14) Is discharged through.

On the other hand, the air containing the small dust discharged from the primary cyclone dust collector (1) through the second inlet (not shown), respectively, into the second body 32 forming each secondary cyclone dust collector (3) Inflow.

Therefore, the fine dust is separated once again from the plurality of secondary cyclone dust collectors 3 and the purified air is discharged to the outside through the second outlet 34, the discharge space 52, and the discharge pipe 54.

At this time, the fine dust separated from the air while flowing inside the second body 32 of the secondary cyclone dust collector 3 is lowered to the lower portion of the second body 32, and each secondary cyclone dust collector 3 Dust is collected in the dust collecting container 4 provided at the bottom of the.

However, the above-described conventional multi-cyclone dust collector is formed in a single channel so that the dust collectors 4 of the respective secondary cyclone dust collectors 3 are all used in common, and are rounded in a substantially circular shape in plan view. Since it is formed, the fine dust introduced into the dust collecting container 4 performs continuous flow in the dust collecting container 4 along the flow direction inherent in the inflow process.

As a result, the fine dust collected in the dust collecting container 4 is again scattered into the second body 32 of each of the secondary cyclone dust collecting units 3 and the discharge space 52 through the second outlet 34. Has a problem that is often caused by discharge.

Of course, in order to prevent re-scattering of the dust collected in the dust collecting container 4 may be formed so as to partition the space between the respective secondary cyclone dust collector 3 is connected to each other, which is difficult to manufacture In addition, only the space in communication with any of the secondary cyclone dust collectors 3 may exceed the allowable dust collection capacity, so that re-spreading of the fine dust collected in the space is inevitable.

The present invention is to solve the above problems, the object of the present invention is to improve the dust collector structure of the secondary cyclone dust collector to reduce the rotational flow of the fine dust made in the dust collector, It is to provide a multi-cyclone dust collector with a new structure to maximize the dust collection space.

In order to achieve the above object, the present invention is the primary cyclone dust collector for collecting the foreign air primarily to collect the foreign matter; It is connected to the primary cyclone dust collecting unit and collects fine foreign matter again from the air, the separation of the foreign matter is primarily completed, is smaller than the primary cyclone dust collecting unit and provided along the circumference of the primary cyclone dust collecting unit A plurality of secondary cyclone dust collectors; And, provided along the bottom of each of the secondary cyclone dust collector, and formed to form a substantially non-circular, the dust collector is formed to include a common dust and dust separated from the air by each of the secondary cyclone dust collector in common: It provides a multi-cyclone dust collector, characterized in that.

Here, each of the secondary cyclone dust collectors is preferably disposed in a substantially circular shape around the primary cyclone dust collector, and the dust collector is preferably formed to have at least one corner portion.

In particular, the corner portion of the dust collecting container is more preferably bent to have an angle enough to reduce the rotational flow of the fine foreign matter collected in the dust collecting container.

Hereinafter, with reference to the accompanying Figures 3 and 4 will be described the most preferred embodiment of the present invention.

First, Figure 3 attached is shown a multi-cyclone dust collector according to an embodiment of the present invention.

That is, the multi-cyclone dust collector according to the embodiment of the present invention is connected to the primary cyclone dust collector 100 and the primary cyclone dust collector 100 to collect foreign matter primarily by inhaling the outside air. It comprises a secondary cyclone dust collector 300 and a dust collecting container 400 for collecting the fine foreign matter again from the air is complete separation of the foreign matter.

Here, the secondary cyclone dust collecting unit 300 is smaller than the primary cyclone dust collecting unit 100 and a plurality of secondary cyclone dust collecting units 300 are provided along the outer circumference of the primary cyclone dust collecting unit 100.

In particular, each of the secondary cyclone dust collectors 300 is disposed in a substantially circular shape along the circumference of the primary cyclone dust collector 100.

The individual shapes of the primary cyclone dust collecting part 100 and the secondary cyclone dust collecting part 300 are substantially the same as the primary cyclone dust collecting part 100 and the secondary cyclone dust collecting part 300 described above.

That is, the primary cyclone dust collector 100 has a first inlet 110 through which external air is introduced, a first body 120, and a first outlet 140 through which air from which foreign substances are separated is first flowed out. It is configured to include.

In addition, each of the secondary cyclone dust collectors 300 may include a second inlet 310 and a second body 320 to which the air flowing out through the first outlet 140 is introduced, and the second body 320 and the foreign matter again. Each of the second outlet 340 through which the separated air flows is configured.

On the other hand, the dust collecting container 400 according to an embodiment of the present invention is provided along the bottom of each second body 320 of each of the secondary cyclone dust collecting unit 300, at least one portion as shown in FIG. While being formed to be non-circular, the fine particles separated from the air by the respective secondary cyclone dust collectors 300 are configured to be collected in common.

At this time, the dust collecting container 400 is formed in the shape of a tube that is entirely communicated with the inside of the non-circular portion (hereinafter referred to as "non-circular part") 410 is formed to have a corner.

In particular, the non-circular portion 410 of the dust collecting container 400 is preferably bent to have an angle enough to reduce the rotational flow of the fine foreign matter collected in the dust collecting container 400.

At this time, it is preferable to prevent the connection of the respective secondary cyclone dust collecting units 300 to the non-circular portion 410 of the dust collecting container 400.

Of course, any one of the secondary cyclone dust collectors 300 may be connected to the non-circular portion 410 of the dust collector 400, in which case the rotational flow of the fine particles collected in the dust collector 400 effectively Cannot be reduced.

Referring to the operation of the embodiment of the multi-cyclone dust collector according to the present invention described above are as follows.

First, when the multi-cyclone dust collector is operated to drive the suction force generating means, for example, a suction fan (not shown) of the vacuum cleaner, the external cyclone dust collector 100 may be connected to the outside through the first inlet 110 of the primary cyclone dust collector 100. The contaminated air of is introduced into the primary cyclone dust collector 100.

At this time, the polluted air introduced through the first inlet 110 is sucked along the tangential direction of the first body 120, and is rotated on the inner wall surface of the first body 120, this process In the separation of foreign matter from the air by centrifugal force.

Subsequently, the relatively heavy and large foreign matters separated from the air are collected at the lower portion of the primary cyclone dust collecting part 100, and the fine foreign matters not separated from the air are rotated inside the first body 120 and then lifted up to the first body. Discharged through the outlet 140.

On the other hand, the air containing the fine foreign matter discharged from the primary cyclone dust collector 100 passes through the buffer space 560 and the second inlet 310, sequentially forming each secondary cyclone dust collector 300 2 is introduced into the body 320, respectively.

Therefore, the fine dust is separated once again from the plurality of secondary cyclone dust collectors 300 and purified air is discharged to the outside through the second outlet 340, the discharge space 520, and the discharge pipe 540.

In addition, the fine dust separated from the air while flowing inside the second body 320 of the secondary cyclone dust collector 300 is lowered to the lower portion of the second body 320, and each secondary cyclone dust collector 300 is provided. The dust is collected in the dust collecting container 400 provided at the bottom of each.

At this time, in the dust collecting container 400, an air flow inherent in the process of introducing the various fine foreign matters is present, and the fine dust collected in the dust collecting container 400 due to the air flow is the dust collecting container 400. It will flow inside.

In particular, since the overall shape of the dust collecting container 400 is circular, fine foreign matter in the dust collecting container 400 performs a rotational flow, but the non-circular portion 410 of the dust collecting container 400 during the rotational flow. Hit the edge of).

Therefore, the rotational flow of the fine foreign matter is sharply reduced, thereby preventing the foreign matter from being scattered again into the second body 320 of each of the secondary cyclone dust collectors 300.

On the other hand, the cyclone dust collector according to the present invention described above can be installed and used in the canister type vacuum cleaner and upright cleaner.

As described above, the multi-cyclone dust collector according to the present invention has an effect of additionally securing a dust collecting space as much as a non-circular portion additionally formed by improving the dust collecting structure of the secondary cyclone dust collecting portion.

In particular, the dust collecting container of the present invention can prevent the flow of fine foreign matter flowing therein can be blocked by the corner of the non-circular part to prevent the foreign matter collected in the dust collecting container to be re-spread to each secondary cyclone dust collecting unit. Has the effect that it can be.

Claims (5)

A primary cyclone dust collecting unit which collects foreign matter by collecting outside air; It is connected to the primary cyclone dust collecting unit and collects fine foreign matter again from the air which has been separated first of all foreign matters, and is smaller than the primary cyclone dust collecting unit and provided along the outer circumference of the primary cyclone dust collecting unit. Multiple secondary cyclone dust collectors; And, A dust collector is provided along the bottom of each secondary cyclone dust collector, and at least one portion is formed to form a non-circular shape, and the foreign matters separated from the air by the secondary cyclone dust collector are collected in common. Multiple cyclone dust collector, characterized in that configured to. The method of claim 1, Each secondary cyclone dust collecting unit And a plurality of cyclone dust collectors, respectively arranged in a substantially circular shape along the circumference of the primary cyclone dust collector. The method of claim 1, The dust collector is It is formed in the shape of a tube in communication with the inside, wherein the non-circular part is formed to have an edge, characterized in that the multiple cyclone dust collector. The method of claim 3, wherein The non-circular part of the dust collector is Multi-cyclone dust collector, characterized in that formed to be bent to have an angle enough to reduce the rotational flow of the dust collected in the dust collector. The method of claim 3, wherein In the non-circular part of the dust collecting container A multiple cyclone dust collector, characterized in that the secondary cyclone dust collector is not connected.

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