KR20000056656A - Cyclone dust collector - Google Patents

Abstract

PURPOSE: A cyclone dust collector applied to a vacuum cleaner is provided. In the cyclone an inlet air containing dust is exhausted through two outlets with reduced air pressure, thereby decreasing pressure loss. Consequently, the cyclone can reduce noise, and it improves dust-collecting efficiency. CONSTITUTION: The cyclone dust collector comprises the parts of: an air suction pipe(12) which is placed at the upper part around the cyclone body(11) in tangential direction to suck air and pollutants into the cyclone body; two air exhaust pipes(13) which are placed at the center of both sides of the cyclone body to bisect the sucked air and exhaust; two pollutants exhaust pipes(14) which are placed at the end of both sides around the cyclone body to exhaust the sucked pollutants; and a pollutants collection box(15) which collects pollutants exhausted from the pollutants exhaust pipe.

Description

Cyclone dust collector

The present invention relates to a cyclone dust collector capable of collecting various contaminants such as dust by using the cyclone principle, and more specifically, the air intake and discharge are naturally made in the forward direction by varying the structure. The discharge is bisected so that even fine dust is smoothly loaded.

In general, the cyclone dust collector is mainly applied to a vacuum cleaner for home use. The principle is that the air is discharged to the outside of the pollutants rotating with the air by using centrifugal force, and only the pollutants are separated from the air and collected for several years. It has been known for a long time.

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

There is a cylindrical cyclone body 1 in which the conical portion 1a whose diameter decreases gradually downward is integrated into the lower part, and the air is a cyclone body 1 in the upper portion of the circumferential surface of the cyclone body. An air suction pipe 2 is formed to laterally suck in the tangential direction, and the upper and lower portions of the cyclone body 1 have a cylindrical shape in which upper and lower portions are opened so that the air sucked into the cyclone body is vertically discharged upward. An air discharge pipe 3 is formed, and contaminants (dust, lint, waste pieces, etc.) sucked into the cyclone body 1 together with air are formed at the lower end of the cone portion 1a formed on the cyclone body 1. The contaminant discharge pipe (4) is formed so that) is discharged vertically downward, and at the end of the contaminant discharge pipe, contaminants discharged through the contaminant discharge pipe (4) in a state located directly below the cyclone body (1) can be discharged. Also collected contaminants to (5) are coupled detachably.

In the state where the conventional cyclone dust collector having such a structure is applied to a vacuum cleaner, a dust collecting process such as dust and lint is collected when a user uses the vacuum cleaner in detail.

When the user applies the power to perform the cleaning operation and then selects the cleaning start mode, a separate suction force generating means constituting the vacuum cleaner acts to generate the suction force, so that the air is formed on the upper surface of the cyclone body 1. The horizontal suction in the cyclone body 1 through the air suction pipe (2) formed in place in a tangential direction, the air suction pipe (2) is connected to the suction inlet (not shown) of the vacuum cleaner eventually It is understood that contaminants in the room are sucked together with the air into the cyclone body 1 through the inlet port.

In this way, the air tangentially sucked in the cyclone body 1 together with the contaminants descends while continuously rotating along the inner circumferential surface of the conical portion 1a integrated in the cyclone body, wherein the cyclone body ( Since the upper and lower portions of the cylindrical air discharge pipe (3) is opened in the center of the upper surface of 1), the descending air is vertically discharged upward through the air discharge pipe (3) by forming an upward air flow in the reverse direction at any moment At the same time, the contaminants are vertically discharged downward through the contaminant discharge pipe 4 formed at the bottom of the conical portion 1a, and the discharged contaminants are continuously collected in the contaminant collection box 5 coupled to the end of the contaminant discharge pipe. .

That is, in the process of descending along the inner circumferential surface of the cone 1a the horizontally suctioned air in the cyclone body 1 together with the contaminants, the air and the contaminants are subjected to different centrifugal forces due to density differences. Relatively heavy contaminants continue to descend on the inner circumferential surface of the conical portion 1a and are discharged through the contaminant discharge pipe 4 formed at the lower end of the conical part, and the discharged contaminants are wrapped at the end of the contaminant discharge pipe. As the contaminant collection box 5 is detachably coupled in a state located directly below the clone body 1, the contaminant collection box 5 is continuously collected in the contaminant collection box 5, in which the cyclone body 1 is located. The rotational speed of the discharged air is based on the principle of rotational moment, considering that the strongest whirlwind is generated (at the state of scientific definition) at the point of 0.6 of the diameter of the air discharge pipe (3). The sucked air is reversed in the reverse direction (opposite to the direction of initial movement of the sucked air) while having an upward airflow, and then continuously discharged to the outside of the cyclone body 1 through the air discharge pipe 3, so that contaminants are eventually discharged. The dust is collected and cleaned.

On the other hand, when the contaminants are collected in the contaminant collecting box 5 due to the above action and are accumulated more than necessary, the contaminants collected by separating the contaminant collecting box 5 detachably coupled to the end of the contaminant discharge pipe 4 are collected. If you want to separate the contaminant collection box 5, the contaminant collection box is located directly below the cyclone body 1, so when the canister vacuum cleaner is applied to the contaminant collection box ( 5) Before the separation, it is understood that the cyclone body 1 should be taken out of the inside of the vacuum cleaner body and then the contaminant collection box 5 should be separated.

However, conventional cyclone dust collectors have various problems as follows.

First, since the intake and exhaust of the air is made in the reverse direction rather than the forward direction, the noise is increased as the resistance is generated when the direction of the sucked air is reversed in the cyclone body, and the pressure loss is caused by the resistance. Dust collection efficiency also fell.

Second, since all the air sucked into the cyclone body through the air suction pipe is discharged through one air discharge pipe, a part of the fine dust is discharged to the outside by being discharged to the outside as the discharge power is the same as the suction force, so it is applied to the vacuum cleaner. At the time, a separate filter was added to the inside of the main body of the vacuum cleaner.

Third, the contaminant collection box can only be combined in the state located directly below the cone of the cyclone body, so even if it is applied to the body of the canister vacuum cleaner, the cyclone body is discarded when discarding the contaminants collected in the contaminant collection box. As it was not possible to separate the contaminant collection box separately in a state of being kept, it was difficult to maintain the vacuum cleaner.

Fourth, when the overall height is increased, when applied to the canister (canister) type vacuum cleaner mainly used in Korea, the main body of the vacuum cleaner is separated because it is large.

The present invention has been made in order to solve the above-mentioned problems, the object is that the intake and discharge of the air is naturally made in the forward direction so that the pressure loss is greatly reduced as the air is not subjected to resistance in the cyclone body In addition, the air sucked through the one path is discharged in two divided states through two different paths so that the discharge power is reduced compared to the suction power of the air, and fine dust is discharged together in the discharge air. There is nothing to be done.

According to an embodiment of the present invention for achieving the above object, a cylindrical cyclone body, an air suction pipe provided at the center portion of the circumferential surface of the cyclone body to allow air and contaminants to be sucked in the cyclic direction in the cyclone body, and the cy Air discharge pipes are provided at each of the central portions of both sides of the clone body to allow the air sucked into the cyclone body to be discharged while being bisected, and formed at both ends of the circumferential surface of the cyclone body to discharge the contaminants sucked into the cyclone body. There is provided a cyclone dust collector consisting of a contaminant discharge pipe and a contaminant collector for collecting contaminants discharged through the contaminant discharge pipe.

1 is a perspective view showing a conventional cyclone dust collector

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

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

Figure 4 is a perspective view of the cyclone dust collector of the present invention

Figure 5 is a longitudinal cross-sectional view showing a cyclone dust collector of the present invention

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

Figure 7a is a cross-sectional view of the state in which the discharge direction of the contaminants through the contaminant discharge pipe in the cyclone dust collector of the present invention is upward

Figure 7b is a cross-sectional view of the state in which the discharge direction of the contaminants through the contaminant discharge pipe in the cyclone dust collector of the present invention toward one side

Explanation of symbols for main parts of the drawings

11. Cyclone body 12. Air suction pipe

13. Air discharge pipe 14. Pollutant discharge pipe

15. Pollution box 16. Guide

17. Partition plate

Hereinafter, the present invention will be described in more detail with reference to the attached FIGS. 4 to 6 as an embodiment.

4 is a perspective view showing the cyclone dust collector of the present invention, Figure 5 is a longitudinal sectional view showing the cyclone dust collector of the present invention, Figure 6 is a cross-sectional view of the II-II line of Figure 5, the present invention is the same in all parts And a cylindrical cyclone body 11 having a diameter, and an air suction pipe 12 is formed at the center of the circumferential surface of the cyclone body so that air is sucked in the tangential direction in the cyclone body 11, and In the central portion of both sides of the cyclone body 11, the cylindrical air discharge pipe 13 is formed so that the air sucked into the cyclone body is halved in the horizontal direction through different paths, and the cyclone body 11 is formed. At both ends of the circumferential surface, contaminants (dust, lint, scrap, etc.) sucked into the cyclone body along with air are halved in two directions through different paths. A contaminant discharge pipe 14 is formed, and a contaminant collection box 15 is detachably coupled to an end portion of each contaminant discharge pipe 14 so as to collect contaminants discharged through the contaminant discharge pipe 14.

In addition, it has a certain length in the circumferential direction in the middle portion of the inner peripheral surface of the cyclone body 11, and bent from both ends to both sides The guide piece 16 having a cross section in the form of the air drawn in the tangential direction in the cyclone body 11 through the air suction pipe 12 is guided by the guide piece 16, the air discharge pipe 13 is The guide piece 16 gradually widens the contact width (b) with the cyclone body 11 from the air suction pipe 12 side to the opposite side, while smoothly dividing to both sides formed to have a centrifugal force. When the guide piece 16 is guided so that the air discharge pipe 13 is more smoothly bilaterally formed on both sides.

Meanwhile, the contaminant collection box 15 may further include a partition plate 17 for partitioning the inside thereof, which may be caused by collisions between flows introduced from the contaminant discharge pipe 14 of the cyclone body 11 or mutually collide with each other. This is because it is possible to prevent the contaminants from floating in the contaminant collection box 15 while being circulated.

When the cyclone dust collector of the present invention having such a structure is applied to a vacuum cleaner, a dust collecting process such as dust and lint is collected when the user uses the vacuum cleaner in detail.

If the user applies the power to perform the cleaning operation and then selects the cleaning start mode, a separate suction force generating means constituting the vacuum cleaner acts to generate the suction force, so that air is in the center of the circumference of the cyclone body 11. It is sucked in the tangential direction in the cyclone body 11 through the air suction pipe 12 formed in the portion, it is understood that the air is a variety of contaminants, such as dust or lint.

In this way, the air and contaminants sucked in the tangential direction in the cyclone body 11 receive different centrifugal forces due to density differences, respectively, and air discharge pipes 13 are formed at the centers of both sides of the cyclone body 11, respectively. Therefore, the air and the foreign matter sucked in the tangential direction in the cyclone body 11 through the air suction pipe 12 are divided into two halves on both sides with respect to the center line of the air suction pipe 12, respectively, to separate two different paths. It turns to move to the different air discharge pipe (13).

Since the air that has different paths and the two orbiting paths and the pure air of the foreign matter are lighter in mass than the foreign matter, they form a discharge airflow while forcibly causing a whirl in the central portion of the space in the cyclone body 11. Contaminants that are naturally discharged horizontally in both suction and forward directions through the air discharge pipes 13 formed at the centers of both sides of the cyclone body 11 and whose weight is heavier than air are separated from the cyclone body 11 by centrifugal force. It moves continuously while turning to both ends along the inner circumferential surface, and is discharged in a tangential direction through the pollutant discharge pipes 14 formed at both ends of the circumferential surface of the cyclone body. Cleaning is performed by entering and collecting the contaminant collection box 15 detachably coupled to the end. It is done.

As such, when the contaminants discharged in the tangential direction through the contaminant discharge pipe 14 enter the contaminant collection box 15 and are collected, if the inside of the contaminant collection box 15 is partitioned by the partition plate 17, the contaminant collection box ( 15) It is understood that contaminants entered into the contaminants 15 are prevented from floating inside because the contaminants do not collide with each other.

Meanwhile, since the position of the air suction pipe 12 formed in the cyclone body 11 in the process is located at the center of the circumferential surface of the cyclone body 11, the air suction pipe 12 is introduced into the cyclone body 11 through the air suction pipe 12. The amount of air sucked is divided by exactly half and horizontally discharged through the air discharge pipes 13 formed on both sides of the cyclone body. Accordingly, each air discharge pipe 13 is compared with the air suction input sucked through the air suction pipes 12. ), The air discharge power discharged through) drops in half, so that even in the case of relatively light fine dust, it is hardly discharged together in the discharged pure air.

When cleaning is performed in this way, the middle portion of the inner circumferential surface of the cyclone body 11 has a certain length in the circumferential direction, and is curved from both ends to the both sides. Since the guide piece 16 having a cross section in the form is formed, air and foreign matter sucked in the tangential direction in the cyclone body 11 through the air suction pipe 12 are guided to the guide piece 16, and accordingly suction It is understood that the air and the foreign matter is smoothly divided into two sides on both sides of the air discharge pipe 13 is formed, the guide piece 16 from the air suction pipe 12 toward the opposite side of the cyclone body 11 Since the width b of the contact portion with () becomes wider and wider, the air is more smoothly bifurcated to both sides where the air discharge pipe 13 is formed when the air is guided to the guide piece 16.

In addition, when contaminants are collected in the contaminant collecting box 15 and accumulated more than necessary, the contaminant collecting box 15 coupled to the contaminant discharge pipe 14 may be separated, and the collected contaminant may be discarded. ) May be used in combination with the pollutant discharge pipe 14, and the pollutant collection box 15 may divide the internal space by the diaphragm 15a as in the embodiment to separate the pollutants discharged through the pollutant discharge pipe 14, respectively. Although it is not shown in figure, although it is not shown in figure, you may collect it in the state mixed in one space part without dividing a space part separately.

The cyclone dust collector of the present invention as described above is actually installed inside the main body of the vacuum cleaner when applied to a canister vacuum cleaner commonly used in Korea, or a flow path (extension pipe or connecting hose) connecting the suction port and the main body. When installed in the main body, the contaminant discharge pipe 14 so as to face the discharge direction of the contaminant through the contaminant discharge pipe 14 upward as shown in Figure 7a or one side as shown in Figure 7b. The contaminant collection box 15 coupled to the cyclone body 11 is preferably parallel to the cyclone body 11, which separates the contaminant collection box to discard contaminants collected in the contaminant collection box 15 during the use of the device. The purpose is to make the separation work convenient.

When the contaminants are collected in the contaminant collecting box 15 and accumulated more than necessary by the above-described action, the contaminant collecting box 15 coupled to the contaminant discharge pipe 14 may be separated and the collected contaminant may be discarded. If the collection box is located in parallel with the cyclone body 11 as described above, when the cyclone device of the present invention is applied to a canister vacuum cleaner mainly used in Korea, the cyclone body 11 is left as it is. It is possible to separate the contaminant collection box 15 even in a state.

Therefore, the cyclone dust collector of the present invention has various effects as follows.

First, since the intake and exhaust of the air is naturally made in the forward direction, as the air is not resisted in the cyclone body, the pressure loss is greatly reduced, and the dust collecting efficiency is improved and the noise is also reduced.

Second, since the air sucked through one air suction pipe is discharged in two divided states through two different air discharge pipes, the discharge power of the air is reduced to about half of the suction power, so that fine dust is discharged together with the discharge air. Even when it is applied to a vacuum cleaner, there is no need to install a separate dust collecting filter inside the main body of the vacuum cleaner.

Third, since the pollutant collection box in which the pollutants are collected may be combined with the cyclone body in parallel with the cyclone body, the cyclone body is left as it is when the vacuum cleaner is applied to discard the pollutants collected in the pollutant collector. Since only the contaminant collection box can be separated, the maintenance of the vacuum cleaner becomes very convenient.

Fourth, as the overall height is lowered, even if applied to the canister (canister) type vacuum cleaner mainly used in Korea, the main body of the vacuum cleaner is not very large, it is very advantageous.

Claims (5)

Cylindrical cyclone body, An air suction pipe provided at a central portion of the circumferential surface of the cyclone body to allow air and contaminants to be sucked in the cyclic direction in the cyclone body; An air discharge pipe provided at each of the central portions of both sides of the cyclone body so that the air sucked into the cyclone body is discharged while being bisected; Contaminant discharge pipe formed on both sides of the circumferential surface of the cyclone body to discharge the contaminants sucked into the cyclone body; Cyclone dust collecting device, characterized in that configured to be configured to collect the pollutant discharged through the pollutant discharge pipe. The method of claim 1, The guide piece having a predetermined length in the circumferential direction is formed in the center portion of the inner circumferential surface of the cyclone body, and the air sucked in the tangential direction in the cyclone body through the air suction pipe is guided by the guide piece so that both sides of the air discharge pipe are formed Cyclone dust collector, characterized in that to smoothly nutrient as. The method of claim 2, Guide piece is curved outwardly from its end to both sides Cyclone dust collector, characterized in that it has a cross section of the shape. The method of claim 2 or 3, The guide piece is a cyclone dust collector, characterized in that the contact width (b) with the cyclone body from the air suction pipe side toward the opposite side becomes wider and wider. The method of claim 1, Cyclone dust collector, characterized in that to separate the internal space by installing a partition plate inside the contaminant collection box.