KR20110020157A - A range hood using swirler - Google Patents

Abstract

PURPOSE: A range hood using a swirler is provided to form balanced vortex under the blades of the swirler even if walls or other obstacles exist around the swirler, thereby more efficiently sucking and diskharging polluted air. CONSTITUTION: A range hood comprises a swirler(10) including a rotational plate(11) and a plurality of blades(12). The rotational plate has a disk shape and is installed in a suction port. The blades are formed on the underside of the rotational plate in order to create vortex. A guide wall(20) is formed separate from the leading end of the rotational plate, where the height of the guide wall is greater than that of the blades.

Description

A range hood using swirler

The present invention relates to a range hood using a swirler that can efficiently form a vortex and inhale and discharge contaminated air even if walls or other obstacles exist around the swirler.

Existing general exhaust devices have been rapidly reduced as they move away from the exhaust port, so that the effective exhaust area is limited to a region as small as the diameter of the exhaust port, which is not suitable for eliminating contamination occurring far from the exhaust port.

In order to make up for these drawbacks, vortex-exhaust systems have been developed, which generate vortices by blowing an amount of air into the space that is similar to the flow rate of the exhaust, and use the concentrated vortices formed in the process of inhaling the exhaust system. will be.

However, the above-described conventional devices generate noise due to the generation of turbulence due to mutual interference of the blowing flow and the intake flow in a narrow area under the exhaust port, and also the addition of contamination in the space by the flow blowing into the space. It may cause diffusion and has the disadvantage of installing additional equipment such as a blower, a filter, and a flow pipe to generate vortices.

Thus, as illustrated in FIGS. 10 and 11, an exhaust device using a swirler 4 has been introduced. The exhaust device includes a rotating plate 2 having a disc shape rotatably installed at an inlet of an exhaust pipe 1, A plurality of vanes 3 are arranged on the lower surface of the rotating plate 2 to form a vortex, and a driving unit 5 for rotating the rotating plate 2 is included. At this time, the drive unit 5 was a drive motor 7 fixed to the inner peripheral surface of the exhaust pipe 1 via the bracket 6.

However, the exhauster using the swirler has a problem in that a balanced vortex generation is significantly reduced in the presence of a wall or an obstacle, so that the polluted air cannot be sucked and discharged efficiently.

In addition, since the drive motor for rotating the swirler and the drive motor for rotating the suction fan to be provided separately, the structure is complicated and a problem in miniaturization.

The present invention is to solve the problems as described above, by forming a guide wall spaced a predetermined distance from the tip of the rotating plate to form a balanced vortex even if there is a wall or other obstacles around the swirler contaminated air It is an object of the present invention to provide a range hood using a swirler capable of suction and discharge more efficiently.

In addition, it is possible to form a stable vortex even if an obstacle exists by tilting the rotation center axis of the rotating plate, and the structure of the rotating center axis of the rotating plate and the suction fan are formed on the same axis so that the structure is simple and using a miniaturized swirler Another purpose is to provide a range hood.

Range hood using a swirler according to a preferred embodiment of the present invention to achieve the above object, the disk-shaped rotary plate is rotatably installed in the suction port, and a plurality of arranged on the lower surface of the rotating plate to form a vortex In the range hood using a swirler comprising a wing, the guide wall is formed spaced apart a predetermined distance from the tip of the rotating plate, the height of the guide wall is characterized in that the height of the wing. The guide wall may be inclined or curved downward.

The central axis of rotation of the rotating plate is inclined from 1 to 10 degrees from the vertical, so that the rotating plate can also be rotated at the same angle from the horizontal.

In addition, the rotation center axis of the rotating plate and the rotation center axis of the suction fan may be formed on the same axis to be driven by one driving motor.

Even if there are walls or other obstacles around the swirler, the polluted air can be sucked and discharged more efficiently, and a balanced vortex can be formed under the wings of the swirler.

In addition, the rotating plate and the suction fan can be rotated at the same time with a single drive motor, thereby simplifying the structure and miniaturization, and significantly reducing the manufacturing cost.

1 and 2 are cross-sectional views of the range hood using a swirler according to an embodiment of the present invention.
3 is a flow visualization of the range hood using a swirler according to an embodiment of the present invention.
4 is a flow visualization diagram of a range hood using a swirler without a guide wall.
5 to 8 are cross-sectional views of the range hood using the swirler of the present invention inclined rotational axis.
9 is a partially enlarged view of a range hood using the swirler of the present invention.
10 is a perspective view of an exhaust device according to the prior art.
FIG. 11 is a cross-sectional view of FIG. 1A; FIG.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

Swirl comprising a rotating plate 11 of a disc shape rotatably installed in the suction port according to a preferred embodiment of the present invention, and wings 12 are arranged on the lower surface of the rotating plate 11 to form a vortex ( As shown in FIG. 1 or 2, the range hood using 10) is spaced apart from the tip of the rotating plate 11 by a predetermined distance to form a guide wall 20, and the height of the guide wall 20 is wing 12. Since the guide wall 20 may form a balanced vortex even when the wall W or other obstacles exist around the swirler 10, the contaminated air may be sucked and discharged more efficiently.

In addition, the guide wall 20 may be formed around the rotating plate 11 in various forms such as circular or polygonal, and the guide wall 20 may be inclined or curved downward.

At this time, it is preferable that the height of the guide wall 20 is 5 times or less of the height of the blade | wing 12. If the height of the guide wall 20 exceeds five times the height of the wing 12, there is no increase in the size of the vortex outside the guide wall 20, so that an increase in the exhaust area cannot be expected.

3 illustrates the flow of the range hood using the swirler 10 when the guide wall 20 is formed, and FIG. 4 illustrates the swirler 10 when the guide wall 20 is not formed. The flow of the range hood is visualized.

In FIGS. 3 and 4, walls are formed at the rear and right sides, and the visualization of the flow is performed by installing a humidifier at the bottom to observe the flow of water vapor at 10 second intervals. In FIG. 3, the left and right sides of the guide wall 20 are It is formed to be inclined downward and the front and rear surfaces of the guide wall 20 are formed vertically.

As can be seen in FIG. 3, when the guide wall 20 is formed around the swirler 10, the water vapor particles are naturally sucked out through the range hood without greatly swinging from side to side. That is, the guide wall 20 stably guides the starting flow of the vortex flowing out of the wing 12 so as to be formed on both sides of the rotational center axis 11a of the rotating plate 11 even if the wall W or other obstacles exist. Since the vortices are formed in a balanced manner close to the symmetry, a balanced expansion of the exhaust area is achieved and smooth suction discharge is possible.

On the other hand, when the guide wall is not formed, as can be seen in Figure 4, the water vapor particles were not allowed to be sucked out through the range hood while swinging greatly from side to side, which became more severe over time. The serious decrease in suction discharge, such that the walls formed on the rear and right sides of the swirler 10 interfere with the starting flow of the vortices flowing outward of the wing 12, causing the central axis 11a of the rotating plate 11 to be rotated. ) Since the vortices formed on both sides are not balanced, they interfere with each other and smooth suction discharge is impossible.

As shown in Figs. 5 to 8, the center of rotation 11a of the rotating plate 11 is inclined 1 to 10 degrees from the vertical, and the rotating plate 11 is also inclined at the same angle from the horizontal to rotate the swirler ( 10) Even if there is a wall (W) or other obstacles around, the polluted air can be suctioned and discharged more efficiently.

As shown in FIG. 5, when the rotational center axis 11a of the rotating plate 11 is inclined from the vertical toward the wall W, the vortex near the wall W increases slightly but the vortex near the wall W is much higher. It is formed stably so that the exhaust area is extended to the opposite side of the wall (W), and as shown in FIGS. The exhaust area expands below the wall W while the vortex size near W) decreases.

When the central axis of rotation 11a of the rotating plate 11 is inclined to less than 1 ° from the vertical, it is impossible to change the abnormal vortex caused by the wall W or other obstacles, and thus it is impossible to enlarge the exhaust area. If the central axis of rotation 11a of the rotating plate 11 is inclined beyond 11 ° from the vertical, there is a problem that the asymmetry of the vortex is amplified and the exhaust area is reduced.

As shown in FIG. 9, the central axis of rotation 11a of the rotating plate 11 and the central axis of rotation 30a of the suction fan 30 may be formed on the same axis to be driven by one drive motor 40. have. If the rotational speed of the rotating plate 11 and the suction fan 30 should be different from each other, a transmission (not shown) is provided between the rotating center shaft 11a of the rotating plate 11 and the rotating center shaft 30a of the suction fan 30. C) can be installed, and in this case it is still possible to drive with one drive motor 40. This eliminates the need to provide the drive motors of the swirler 10 and the suction fan 30, respectively, thereby simplifying the complicated structure and miniaturizing the range hood using the swirler and significantly reducing manufacturing costs.

The function and operation of the range hood using a swirler according to the preferred embodiment of the present invention configured as described above will be described with reference to FIGS. 1 to 3.

The suction fan 30 and the rotating plate 11 are rotated at the same time by the driving motor 40, and the vortex is formed at the lower portion of the wing 12 due to the plurality of wings 12 formed on the lower surface of the rotating plate 11. The inclined or curved guide wall 20 greatly reduces the asymmetry of the vortices formed on both sides of the center of rotation 11a due to the wall W or other obstacles, thereby forming a balanced vortex, thereby expanding the exhaust region. It becomes possible, and the polluted air is suctioned out more efficiently.

At this time, the rotation center axis (11a) of the rotating plate 11 is inclined by a predetermined angle from the vertical it is possible to further expand the exhaust area to the desired area.

The above description is merely illustrative of the technical spirit of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following utility model registration claims, and all technical ideas within the scope equivalent thereto shall be construed as being included in the scope of the present invention.

10: swirler 11: tumbler
11a: center of rotation 12: wing
20: guide wall 30: suction fan
30a: center of rotation axis 40: drive motor

Claims (4)

In the range hood using a swirler comprising a disk-shaped rotating plate rotatably installed at the suction port, and a plurality of vanes arranged on the lower surface of the rotating plate to form a vortex,
A guide hood is formed to be spaced apart from the tip of the rotating plate by a predetermined distance, and the height of the guide wall is greater than the height of the blade range hood using a swirler.
The method of claim 1,
The guide wall is a range hood using a swirler, characterized in that inclined or curved downward.
The method according to claim 1 or 2,
The rotation center axis of the rotating plate is inclined by 1 to 10 ° from the vertical, the range plate using a swirler, characterized in that the rotating plate is also inclined at the same angle from the horizontal.
The method according to claim 1 or 2,
Range hood using a swirler, characterized in that the center of rotation of the rotating plate and the center of rotation of the suction fan is formed on the same axis and driven by a single drive motor.

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