KR20000067037A - cyclone dust collector - Google Patents

Abstract

PURPOSE: Provided is a cyclone collector in a vacuum cleaner, which gives rotary power to air and contaminants to reinforce the centrifugal force, such that air and the contaminants are separated perfectly. CONSTITUTION: The cyclone collector comprises a cyclone body(11) having a space section(12) in a drum shape, a tangential spiral suction flow way(13) for sucking the primarily rotated air and contaminants into the space section(12), an air-exhausting flow way(14) to exhaust the air in the upper direction, wherein the air is separated from the contaminants by the centrifugal force, and a contaminant-discharging flow way(15) for discharging the contaminants into the separable reservoir(16).

Description

Cyclone dust collector

The present invention relates to a cyclone dust collector that can collect various contaminants such as dust using the cyclone principle, and more specifically, the cyclone body in a state in which air and contaminants are primarily given rotational force. It is to be suctioned in the tangential direction to the space portion formed in the so that the centrifugal force in the space portion is stronger.

In general, the cyclone dust collector is mainly applied to a vacuum cleaner for home use, and the principle is that the air of the pollutants (dust, lint, scraps of paper, crumbs, etc.) rotated with the air using centrifugal force to the outside. It has been known for many years, as it collects and collects only pollutants from the air.

Looking at the prior art of the cyclone dust collector described above with reference to Figures 1 to 3 as follows.

A cyclone body 1 having a cylindrical space portion 2 is provided, and a suction flow path 3 for sucking air and contaminants tangentially to the space portion 2 at the upper end of the circumferential surface of the cyclone body. Is formed, the air discharge passage 4 is formed in the center of the upper surface of the cyclone body (1) to discharge the air sucked into the space portion 2 and the air separated by centrifugal force upwards, A contaminant discharge passage 5 is formed at the lower end of the cyclone body 1 to discharge the contaminants separated by centrifugal force from the air and contaminants sucked into the space 2 in one direction. The discharge passage has a structure in which the contaminant collecting box 6 is detachably coupled to collect the discharged contaminants.

Therefore, the conventional cyclone dust collector having such a structure may be installed and used inside the cleaner body constituting the vacuum cleaner, or may be installed and used between the extension pipe and the connection hose connecting the cleaner body and the suction port. In the state installed inside the main body, only the suction flow path 3 formed in the upper position of the circumferential surface of the cyclone body 1 is coupled to the inlet portion, which is the connection hose coupling portion of the cleaner body, and is installed between the extension pipe and the connection hose. The suction passage 3 formed in the upper position of the circumferential surface of the cyclone body 1 is coupled to the extension tube, and the air discharge passage 4 formed at the central portion of the upper surface of the cyclone body 1 is coupled to the connection hose. .

Hereinafter, the dust collecting process of collecting various contaminants sucked with air according to the use of the vacuum cleaner will be described in detail.

When the user applies the power to perform the cleaning operation and selects the cleaning start mode, the suction force generating means in the main body constituting the vacuum cleaner acts to generate the suction force, so that the contaminants in the room together with the air suction inlet of the vacuum cleaner. The air and contaminants are sucked in through the suction passage (3) formed in the upper portion of the circumferential surface of the cyclone body (1) to the space portion (2) of the cyclone body (1) Suction in the tangential direction.

When air and contaminants are sucked in a tangential direction to the space portion 2 of the cyclone body 1, the sucked air and contaminants move downward while centrifugal rotation, as the space portion is cylindrical. And contaminants are different centrifugal force due to the difference in density, so relatively light air gathers into the central part of the space part 2, causing a whirlwind, and forming an upward air flow in a reverse direction at any moment, so that the cyclone body 1 Contaminants that are discharged upward through the air discharge passage 4 formed in the central portion of the upper surface and which are relatively heavier than air continue to descend along the inner circumference of the space 2, and then the circumferential surface of the cyclone body 1. It is discharged in one direction through the pollutant discharge passage 5 formed in the lower position.

Meanwhile, contaminants discharged through the contaminant discharge passage 5 from the space part 2 of the cyclone body 1 are collected in the contaminant collection box 6 separably coupled to the contaminant discharge passage. When the contaminants are collected in the contaminant collecting box 6 and accumulated more than necessary, the contaminant collecting box may be separated from the contaminant discharge passage 5 to discard the contaminants collected and then recombined.

However, the conventional cyclone dust collector has a centrifugal force because the air and contaminants are tangentially rotated in the space portion for the first time as the air and contaminants are tangentially sucked into the space portion of the cyclone body through the suction passage formed in the cyclone body. It is weak and the separation of air and contaminants does not occur so perfectly, and thus, the dust collection efficiency is lowered, and thus, a large amount of contaminants such as fine dust is contained in the air discharged through the air discharge pipe. In consideration of the fact that the same contaminants are included, a separate filter for additionally collecting fine dust inside the main body of the vacuum cleaner has a problem in that the main body of the vacuum cleaner is enlarged.

The present invention has been made to solve the above-mentioned conventional problems, the object is to continue the space after the first rotational force is applied in the state before the air and contaminants are tangentially sucked into the space portion of the cyclone body As the centrifugal force is strengthened by being sucked in a tangential direction in the part to make the centrifugal force stronger, the separation efficiency of the air and the contaminants occurs perfectly, and the dust collection efficiency is improved.

According to the present invention for achieving the above object, the cyclone body having a cylindrical space portion, and the air and contaminants rotated while being provided in one position on the lower surface of the cyclone body to rotate the air and pollutants primarily Suction passage for tangentially sucking air into the space portion, and an air discharge passage formed at the center of the upper surface of the cyclone body to discharge upwardly the air separated by the centrifugal force among the air sucked into the space portion and contaminants; And a contaminant discharge channel formed at an upper position of the circumferential surface of the cyclone body to discharge the contaminants separated by centrifugal force from the air and contaminants sucked into the space in one direction, and are detachably coupled to the contaminant discharge channel. A cyclone dust collector is provided which consists of a contaminant collector for collecting the contaminants discharged.

Figure 1 is a longitudinal cross-sectional view showing a conventional cyclone dust collector

2 is a cross-sectional view taken along line II of FIG. 1.

3 is a cross-sectional view taken along the line II-II of FIG.

Figure 4 is a longitudinal cross-sectional view showing a cyclone dust collector of the present invention

5 is a cross-sectional view taken along the line III-III of FIG. 4.

Explanation of symbols for main parts of the drawings

11. Cyclone body 12. Space part

13. Suction channel 14. Air discharge channel

15. Pollutant discharge channel 16. Pollutant collection box

Hereinafter, the present invention will be described in more detail with reference to the attached FIGS. 4 to 5 as an embodiment.

4 is a longitudinal cross-sectional view showing the cyclone dust collector of the present invention, Figure 5 is a cross-sectional view of the line III-III of Figure 4, the present invention is provided with a cyclone body 11 having a cylindrical space portion 12 The spiral suction flow path 13 is formed at one side of the lower surface of the cyclone body to suck the rotated air and contaminants in a tangential direction to the space 12 while primarily rotating the air and contaminants. In the center of the upper surface of the cyclone body 11, an air discharge passage 14 is formed to discharge upwardly the air sucked into the space 12 by the centrifugal force among the contaminants and the air. Contaminant discharge passage 15 is formed in the upper portion of the circumferential surface of the clone body 11 to discharge the contaminants separated by centrifugal force from the air and contaminants sucked into the space 12 in one direction, and discharge the contaminants. The furnace is also collected contaminants to collect contaminants discharged (16) is removably coupled structure.

The process of installing the cyclone dust collector of the present invention having such a structure inside the cleaner body constituting the vacuum cleaner or between the extension pipe and the connection hose connecting the cleaner body and the suction inlet is the same as previously described, and thus is omitted. In the following, various contaminants sucked together with air according to the use of a vacuum cleaner will be described in detail with respect to the process of collecting dust by the cyclone dust collector of the present invention.

When the user applies the power to perform the cleaning operation and selects the cleaning start mode, the suction force generating means in the main body constituting the vacuum cleaner acts to generate the suction force, so that the contaminants in the room together with the air suction inlet of the vacuum cleaner. Is sucked through, and the sucked air and contaminants are suctioned in a tangential direction to the space portion 12 of the cyclone body 11 through a suction passage 13 formed at one side of the lower surface of the cyclone body 11. Since the suction flow passage 13 is formed in a spiral shape, the air sucked in a tangential direction to the space portion 12 of the cyclone body 11 is provided with a rotational force in the process of guiding air and contaminants into the suction flow passage. And contaminants primarily have rotational force.

When the air and contaminants are sucked in the tangential direction of the space portion 12 of the cyclone body 11 as described above, the sucked air and the contaminants are centrifugally rotated upward in the space part as the space part is cylindrical. In this case, since air and contaminants receive different centrifugal forces due to density differences, relatively light air gathers into the central portion of the space part 12, causing a whirlwind, and forming an upward air flow at some point to form the cyclone. While being discharged upward through the air discharge passage 14 formed at the center of the upper surface of the body 11, contaminants that are heavier than air continue to rise along the inner circumference of the space part 12, and then the cyclone body 11. ) Is discharged in one direction through the pollutant discharge passage 15 formed in the upper position of the peripheral surface.

Meanwhile, contaminants discharged through the contaminant discharge passage 15 from the space portion 12 of the cyclone body 11 are collected in the contaminant collection box 16 separably coupled to the contaminant discharge passage, so that contaminants are collected. When the contaminants are collected in the contaminant collecting box and accumulated more than necessary, the contaminant collecting box may be separated from the contaminant discharge passage 15 and discarded the collected contaminant and then recombined.

In the cyclone dust collector of the present invention as described above, air and contaminants sucked in the tangential direction of the space portion 12 of the cyclone body 11 are primarily in a state in which rotational force is applied as described above. Accordingly, it is understood that the centrifugal force is further enhanced when the second centrifugal rotation is performed in the space part 12, and accordingly, separation of air and contaminants is made more clearly.

Therefore, the present invention is secondary centrifugal rotation while being sucked in the tangential direction of the cyclone body in the state in which air and contaminants are primarily given rotational force, so that the centrifugal force becomes stronger, and thus air and contaminants are completely separated. As a result, even when the dust is fine dust is not discharged together with the air, the dust collection efficiency is improved, as well as the dust collection efficiency is improved, so there is no need to use an additional filter inside the body of the vacuum cleaner. There is an effect that the main body of the cleaner can be miniaturized.

Claims (1)

A cyclone body having a cylindrical space portion, A suction flow path provided at one side of the lower surface of the cyclone body to suck air and contaminants in a tangential direction to the space while rotating air and contaminants primarily; An air discharge passage formed at the center of the upper surface of the cyclone body and discharging the air separated by centrifugal force from the air sucked into the space part and the contaminants upward; A contaminant discharge passage formed at an upper end of the circumferential surface of the cyclone body and discharging contaminants separated by centrifugal force among air and contaminants sucked into the space part in one direction; The cyclone dust collecting device, characterized in that configured to be contaminated in the pollutant discharge passage to collect the pollutant discharged.