KR20010018129A - cyclone dust collector - Google Patents

Abstract

PURPOSE: A cyclone collector is provided, which is characterized in that venting air current is formed by separated air in the body of cyclone because the diameter of a venting duct(4) is bigger than a body of cyclone, therefore micro-dust is not vented through the venting duct(4). CONSTITUTION: The cyclone collector consists of a cyclone body(1) being a type of cylinder for separating air and dust, an air suction duct(2) for sucking air and dust thereinto, a venting duct(4) for venting micro-dust, an air venting duct(3) for venting air, a collecting tank for collecting micro-dust.

Description

Cyclone dust collector

The present invention relates to a cyclone dust collector that can collect various contaminants such as dust by using the cyclone principle, and more specifically, by changing the structure of the cyclone body, contaminants such as fine dust are air. It is not to be affected by the exhaust stream of the gas.

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, confectionery, etc.) that rotates with the air by using a centrifugal force to the outside It has been known for many years as a device to discharge and collect only pollutants from air.

The cyclone dust collector is largely divided into a unidirectional type in which air and pollutants are discharged only in one direction, and a bidirectional type in which the air and pollutants are discharged simultaneously in both directions.

Then, the conventional cyclone dust collector is divided into unidirectional type and bidirectional type, respectively, as follows.

First, a conventional unidirectional cyclone dust collector will be described. As shown in FIGS. 1 to 3, a cylindrical cyclone body 1 is provided, and one side of the cyclone body has air and contaminants in a tangential direction. A suction pipe 2 is formed to be sucked, and an air discharge pipe 3 is formed at the center of the other side of the cyclone body 1 so that air separated from the contaminant is discharged by centrifugal force during the rotation in the tangential direction. On the other side of the cyclone body 1, a contaminant discharge pipe 4 is formed to discharge contaminants separated from air by centrifugal force during the tangential rotation, and the contaminant discharge pipe is collected and collected. The contaminant collecting box 5 is detachably coupled.

Therefore, such a conventional unidirectional cyclone dust collector may be installed and used inside the cleaner body constituting the vacuum cleaner or installed in an extension pipe connecting the cleaner body and the suction port, and installed in the cleaner body. In the suction tube (2) formed on one side of the cyclone body (1) is coupled to the inlet portion which is the connection hose coupling portion of the cleaner body, in the state installed in the extension tube suction tube (2) formed on one side of the cyclone body (1) And the air discharge pipe (3) formed on the other side is directly coupled to the extension pipe.

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 and selects the cleaning start mode, the suction force generating means in the main body constituting the vacuum cleaner acts to generate suction force, so that contaminants in the room are sucked through the suction port of the vacuum cleaner together with the air. Air and contaminants to be sucked are continuously sucked in the cyclone body 1 through the suction pipe 2 formed on one side of the cyclone body 1.

As such, when air and contaminants are suctioned in the cyclone body 1 in a tangential direction, the cyclone body has a cylindrical shape with the same diameter in its entirety, so that the air and contaminants are rotated by centrifugal force and moved to the other side. Since the pollutants receive different centrifugal forces due to density differences, air that is relatively lighter than the pollutants causes a whirlwind at the central part of the cyclone body 1 and forms an exhaust stream at a certain moment, and thus to the central part of the other side of the cyclone body. Contaminants discharged through the formed air discharge pipe (3) and at the same time heavier than air continue to move to the other side along the circumferential surface of the cyclone body (1), and then the contaminant discharge pipe (4) formed on the other side of the circumferential surface of the cyclone body. Is discharged through.

Meanwhile, contaminants discharged through the contaminant discharge pipe 4 are collected and collected in the contaminant collection box 5 coupled to the contaminant discharge pipe, so that cleaning is performed. The contaminants are collected in the contaminant collection box 5 and accumulated more than necessary. When the pollutant collection box is separated from the cyclone body (1), discard the collected pollutants, and then combine them again.

In addition, when describing the conventional bidirectional cyclone dust collector, as shown in Figs. 4 to 6 attached to the cylindrical cyclone body 11, the circumferential surface of the cyclone body in the air and contaminants in the tangential direction A suction pipe 12 is formed to be sucked, and air discharge pipes 13 are formed at both centers of the side surfaces of the cyclone body 11 so that the air separated from the contaminants is discharged by centrifugal force during the rotation in the tangential direction. Contaminant discharge pipes 14 are formed on both sides of the cyclone body 11 so that the pollutants separated from the air by the centrifugal force are respectively discharged in a tangential direction, and the pollutant discharge pipes are collected and collected. The contaminant collecting box 15 is detachably coupled to each other.

Therefore, such a conventional bidirectional cyclone dust collector may be installed and used inside the cleaner body constituting the vacuum cleaner or installed in an extension tube connecting the cleaner body and the suction port, and installed in the cleaner body. In the suction tube 12 formed on one side of the cyclone body 11 is coupled to the inlet portion which is the coupling hose coupling portion of the cleaner body, in the state installed in the extension tube suction tube 12 formed on one side of the cyclone body 11 And the air discharge pipe 13 formed on the other side is directly coupled to the extension pipe.

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 and selects the cleaning start mode, the suction force generating means in the main body constituting the vacuum cleaner acts to generate suction force, so that contaminants in the room are sucked through the suction port of the vacuum cleaner together with the air. Air and contaminants to be sucked are continuously sucked in the cyclone body 11 through the suction pipe 12 formed in the center of the circumferential surface of the cyclone body 11.

When the air and contaminants are sucked in the cyclic direction in the cyclone body 11 as described above, the cyclone body has a cylindrical shape with the same diameter in its entirety, so that the air and contaminants are bilaterally moved while being rotated by centrifugal force. Since air and contaminants receive different centrifugal forces due to density differences, air that is relatively lighter than contaminants causes a whirlwind in the central part of the cyclone body 11 and forms an exhaust air stream at some point to form a central part of both sides of the cyclone body. Contaminants discharged through the air discharge pipes 13 formed at the same time and relatively heavier than air continue to move to both sides along the circumferential surface of the cyclone body 11, and are formed on both sides of the circumferential surface of the cyclone body 11. Through 14).

On the other hand, the pollutants discharged through the pollutant discharge pipe 14 are collected and collected in the pollutant collection box 15 coupled to the pollutant discharge pipe, so that cleaning is performed. When the pollutants are collected in the pollutant collection box and accumulated more than necessary, the pollutant collection is performed. The box 15 may be separated from the cyclone body 11 to discard the collected contaminants, and then used again by combining.

However, the conventional unidirectional and bidirectional cyclone dust collector has the same diameter of the entire body from one side to the other side, so that the cyclone body is centrifuged in the cyclone body and moved to the air discharge pipe by the exhaust stream. Considering that the distance between the air and the pollutants moving toward the pollutant discharge pipe spreading outward is the same from the beginning to the end, the pollutants are relatively affected by the air exhaust stream at the part discharged through the pollutant discharge pipe. When the fine dust of the contaminants are easily affected by the exhaust air of the air, causing a primary problem that is discharged with the air, thereby reducing the dust collection efficiency and additionally a separate filter into the main body of the vacuum cleaner There was a secondary problem that must be used.

The present invention has been made in order to solve the above-mentioned conventional problems, by expanding the portion of the cyclone body in which the contaminant discharge pipe is formed so that the diameter of the enlarged portion is larger than the diameter of the remaining portion separated from the cyclone body. When the air is discharged through the air discharge pipe while forming the exhaust air stream, the purpose of the present invention is to prevent light pollutants such as fine dust from being discharged together by being affected by the air discharge air stream.

According to the present invention for achieving the above object, only a cylindrical cyclone body, an air suction pipe through which air and contaminants are sucked into the cyclone body, and the air separated after the inhaled air and contaminants are separated, respectively. In the air discharge pipe discharged and the contaminant discharge pipe discharged only the separated contaminants, and the dust collecting tube for collecting the separated discharged contaminants, the diameter of the contaminant discharge pipe formed part of the cyclone body than the diameter of the other portion There is provided a large-scaled cyclone dust collector.

1 is a main portion perspective view showing a conventional unidirectional cyclone dust collector

Figure 2 is a cross-sectional view showing a conventional unidirectional cyclone dust collector

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

Figure 4 is a main part perspective view showing a conventional bidirectional cyclone dust collector

Figure 5 is a cross-sectional view showing a conventional bi-directional cyclone dust collector

6 is a cross-sectional view taken along the line II-II of FIG. 5.

7 is a main portion perspective view showing the present invention unidirectional cyclone dust collector

Figure 8 is a cross-sectional view showing the present invention unidirectional cyclone dust collector

9 is a cross-sectional view taken along the line III-III of FIG. 8.

10 is a main part perspective view showing a bidirectional cyclone dust collector of the present invention;

Figure 11 is a cross-sectional view showing a bidirectional cyclone dust collector of the present invention

12 is a cross-sectional view taken along the line IV-IV of FIG.

Explanation of symbols for the main parts of the drawings

1,11. Cyclone Body 2,12. suction

3,13. Air discharge pipe 4,14. Pollutant discharge pipe

Hereinafter, the present invention will be described in more detail with reference to the attached FIGS. 7 to 9 and the attached accompanying drawings 10 to 12 showing different embodiments of the present invention.

7 is a cross-sectional view illustrating a unidirectional cyclone dust collector of the present invention, and FIG. 8 is a cross-sectional view of the unidirectional cyclone dust collector of the present invention, and FIG. 9 is a cross-sectional view taken along line III-III of FIG. 8. Description of the same configuration as that of the conventional unidirectional cyclone dust collector described above in the configuration of one embodiment will be omitted, but in the drawings it will be given a conventional number as it is.

Hereinafter, the main configuration of an embodiment of the present invention will be described.

The contaminant discharge pipe 4 is formed on the other side of the circumference of the cyclone body 1 so that its diameter B is larger than the diameter B ₁ of the remainder.

The process of applying an embodiment of the present invention configured as described above to a vacuum cleaner and a dust collecting process of collecting various contaminants such as dust and lint when the user uses the apparatus in the state of applying the vacuum cleaner are described in the related art. If so, it will be understood that most will be described below briefly focusing on the action according to the main configuration of the embodiment of the present invention (a configuration in which the contaminant discharge pipe 4 formed in the circumference of the cyclone body 1) As follows.

When the air and contaminants are sucked into the cyclone body 1 through the suction pipe 2 formed on one side of the cyclone body 1 by the suction force generated in the cleaner body and are centrifugally rotated, the air is centrifugally rotated. And air from the contaminants gathers into the central part to form an exhaust stream and is discharged through the air discharge pipe (3), and the contaminants continue to move with a large centrifugal force along the circumferential surface of the cyclone body (1) to move the contaminant discharge pipe (4). In this case, since the formation part of the contaminant discharge pipe 4 on the other side of the circumference of the cyclone body 1 is expanded, the diameter of the expanded portion B is larger than the diameter of the remaining portion B ₁ . The centrifugal force, the force for discharging the contaminants into the contaminant discharge pipe 4, is far from the discharge air of the air in the contaminant discharge pipe part. It is understandable that no contaminants will be contained in the air that is eventually discharged since it will not be mixed under the influence of the exhaust stream.

10 is a main portion perspective view showing the bidirectional cyclone dust collector of the present invention, FIG. 11 is a cross-sectional view showing the bidirectional cyclone dust collector of the present invention, and FIG. 12 is a cross-sectional view taken along line IV-IV of FIG. The present invention omits description of the same configuration as the configuration of the conventional bidirectional cyclone dust collector described above among other embodiments, but will be given a conventionally assigned number on the drawings.

Hereinafter, the main components of another embodiment of the present invention will be described.

The contaminant discharge pipes 14 formed on both sides of the circumference of the cyclone body 11 are respectively expanded so that the diameters of both expansion parts of the cyclone body 11 are larger than the diameter of the remaining parts b ₁ .

Applying a vacuum cleaner according to another embodiment of the present invention configured as described above and a dust collecting process for collecting various contaminants such as dust and lint when the user uses the apparatus in the state applied to the vacuum cleaner, refer to the conventional process described above. Since most of the present invention will be understood, the following briefly focuses on the action according to the main configuration of another embodiment of the present invention (a configuration in which the contaminant discharge pipe 14 is formed on both sides of the circumference of the cyclone body 11). Is as follows.

When the air and the contaminants are sucked into the cyclone body 11 through the suction pipe 12 formed in the center portion of the circumferential surface of the cyclone body 11 by the suction force generated in the cleaner body, the centrifugal rotation is performed. Air from the air and contaminants gathers into the central part to form an exhaust stream, which is discharged through each of the air discharge pipes 13 on both sides, and the contaminants continue to move largely under centrifugal force along the circumferential surface of the cyclone body 11. Each pollutant discharge pipe 14 is discharged through the contaminant discharge pipe 14, and at this time, each of the pollutant discharge pipes 14 formed on both sides of the circumference of the cyclone body 11 is expanded, and the diameter of the expanded part b is the diameter of the remaining part b. ₁ ) the centrifugal force, which is a force that discharges contaminants into each contaminant discharge pipe 14, is larger than the discharge air stream of the air in each contaminant discharge pipe part. Since even fine dust in the salt is not mixed under the influence of the air discharge of the air, it is understood that the air discharged eventually does not contain any contaminants.

Therefore, in the cyclone dust collector of the present invention, since the diameter of the contaminant discharge pipe forming part of the circumference of the cyclone body is larger than the diameter of the remaining part, the distance between the air discharge air flow and the centrifugal force of the contaminant in the cyclone body is increased. As it moves away, even the relatively light fine dust among the contaminants is not affected by the air exhaust stream, and thus, the contaminants are not included in the air exhaust stream. There is an effect that does not need to additionally install a separate filter inside the body of the cleaner.

Claims (1)

Cylindrical cyclone body, an air intake tube through which air and contaminants are sucked into the cyclone body, and an air discharge tube and separated contaminants, in which only the separated air is discharged after the inhaled air and contaminants are separated, respectively. A cyclone dust collector comprising a pollutant discharge pipe and a dust collector for collecting the pollutants separated and discharged, wherein the diameter of the portion where the pollutant discharge pipe is formed in the cyclone body is formed to be larger than the diameter of other parts.