KR20160066475A - Capture and emission efficiency is maximized ventilation wings - Google Patents

Abstract

[0001] The present invention relates to an air bladder having a maximum collection efficiency and a discharge efficiency, wherein at least two blades are formed at an equal interval with respect to the center of the air bladder, In this case,
A vortex blade formed at each of the vane ends constituting the air bladder and having a plate shape and erected upright to induce a vortex of ambient air while being rotated together with the vane; The air vents are formed on the vane end of each vane and have a plate shape. The vane vanes are erected upright. The air that is positioned perpendicular to the vane vanes and rotated together with the vanes, A shielding blade for preventing the shielding member from being damaged,
The vortex is formed around the air blades through vortex blades rotating together with the air blades. By forcibly sucking the surrounding air by the suction force of the blades, it is possible to efficiently suck a large amount of air and rotate with the blades It is possible to prevent the air sucked by the suction force of the air bladder from being detached to the vortex side formed by the vortex blades, thereby maximizing the suction efficiency of the air bladder.
In addition, the wind formed by the vortex blades rotating through the guide vanes is guided to the suction force of the blades so as to guide vortexes efficiently through the vortex blades, The suction efficiency can be further improved.

Description

[0002] Capture and emission efficiency is maximized ventilation wings

[0001] The present invention relates to an air blowing fan with maximized collecting and exhausting efficiency, and more particularly, to a blowing fan having a vortex formed around a blowing vane through a vortex blade rotating together with a blowing vane, It is possible to efficiently suck a large amount of air by suction and to prevent the air sucked by the suction force of the air bladder from being detached to the vortex formed by the vortex blades through the shield blades rotating together with the air bladder, To an air bladder for maximizing the suction efficiency and maximizing the collection efficiency and the discharge efficiency.

In general, ventilators are generally used in factories, homes, restaurants, etc. where pollutants occur frequently. The ventilator is useful when it is difficult to install the exhaust pipe near the pollution source due to the partial pollution source on the floor away from the exhaust pipe, or when the pollution source occurs momentarily. In addition to pollution sources, the ventilator discharges the odor and moisture generated in the bathroom of the home to the outside.

Such a conventional ventilator sucks and discharges the outside air using only the suction force of the blowing vane installed inside and rotates, so that the suction force is somewhat weak, so that the discharge of bad odor, moisture, pollution source, etc. inside can not be smoothly discharged .

Therefore, it is inevitable to develop a blowing blade capable of efficiently sucking and discharging a large amount of air.

SUMMARY OF THE INVENTION The present invention has been made in order to solve all of the above problems, and it is an object of the present invention to provide a vortex generating device and a vortex generating device, It is possible to efficiently suck a large amount of air by suction and to prevent the air sucked by the suction force of the air bladder from being detached to the vortex formed by the vortex blades through the shield blades rotating together with the air bladder, And to provide an air bladder that maximizes the suction efficiency and maximizes the collection efficiency and the discharge efficiency.

In addition, the wind formed by the vortex blades rotating through the guide vanes is guided to the suction force of the blades so as to guide vortexes efficiently through the vortex blades, And to provide an air blading blade that maximizes the collection efficiency and the discharge efficiency for further improving the suction efficiency.

According to an aspect of the present invention, there is provided an air blowing fan having a maximum collecting and discharging efficiency according to the present invention, wherein at least two blades are formed at an equal interval with respect to the center, In the air blading,

A vortex blade formed at each of the vane ends constituting the air bladder and having a plate shape and erected upright to induce a vortex of ambient air while being rotated together with the vane; The air vents are formed at the respective vane ends and have a plate shape. The vanes are erected upright. The air vortexed with the vanes rotates together with the vortex vanes. And a shielding blade for preventing the shielding member from being damaged,

Wherein a vortex is formed around the air bladder through the vortex blade rotating together with the air bladder, the surrounding air is forcedly sucked by the suction force of the air bladder to efficiently suck a large amount of air, The air sucked by the suction force of the air blades is prevented from being detached to the vortex side formed by the vortex blades, thereby maximizing the suction efficiency of the air blades.

And a plate-like guide vane extending perpendicularly to the vortex vane at a lower end of the vane vane, the plate vane extending in a direction of rotation of the vane vane,

The guide vane is guided in a direction in which the blowing vane rotates so as to prevent the wind formed by the rotating vortex blade from sucking and disappearing due to the suction force of the blowing vane rotating and inducing vortex to be efficiently formed through the vortex vane .

As described above, according to the present invention, the vortex is formed around the air bladder through the vortex blade rotating together with the air bladder, and the surrounding air is forced by the suction force of the air bladder It is possible to efficiently suck a large amount of air by suction and to prevent the air sucked by the suction force of the air bladder from being detached to the vortex formed by the vortex blades through the shield blades rotating together with the air bladder, The suction efficiency can be maximized.

In addition, the wind formed by the vortex blades rotating through the guide vanes is guided to the suction force of the blades so as to guide vortexes efficiently through the vortex blades, The suction efficiency can be further improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of an air blast vane according to an embodiment of the present invention,
Fig. 2 is a vertical cross-sectional view of the blowing blade shown in Fig. 1,
FIG. 3 is a view showing the state of use of the air blades having the maximum collecting and discharging efficiency shown in FIG. 1

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of an air blowing fan according to a first embodiment of the present invention; FIG. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

FIG. 1 is a perspective view of an air bladder according to an embodiment of the present invention. FIG. 1 is a perspective view of an air bladder with a maximized collecting and discharging efficiency according to an embodiment of the present invention. FIG. 2 is a vertical cross-sectional view of the air blading blade shown in FIG. 1, in which the collecting and discharging efficiency is maximized, and FIG. 3 is a view showing the state of use of the air blading blade having the maximum collecting and discharging efficiency shown in FIG.

As shown in the drawing, the air bladder 100 having the maximum collecting and discharging efficiency according to the embodiment of the present invention is formed with two or more wings 1a at an equal interval with respect to the center, (1) for sucking and discharging outside air,

A vortex blade 10, and a shield blade 20.

As shown in FIGS. 1 and 2, the vortex blade 10 is formed at the end of each vane 1a constituting the vane blade 1, has a plate shape, is erected upright And induces a vortex of ambient air while rotating together with the vanes 1a.

That is, as shown in FIG. 3A, when the vortex 10 is rotated together with the blowing vane 1, a vortex of the air around the edge of the vane 1 is induced by the vortex 10, As shown in FIG. 3B, in the state where the vortex is induced, external air is forcibly sucked by the suction force of the air bladder 1, so that a large amount of ambient air is sucked into the air bladder 1 and discharged.

As shown in FIGS. 1 and 2, the shielding blade 20 is formed at the end of each blade 1a constituting the blades 1 and has a plate shape. The shielding blade 20 is erected upright And is positioned orthogonally to the vortex blade 10 so as to rotate together with the vanes 1a to prevent the air sucked into the vane blade 1 from flowing into the vortex blade 10 side.

3C, the shield blades 20 rotate together with the air blades 1 so that the air sucked through the suction force of the air blades 1 is blown by the vortex blades 10, Is influenced by a vortex formed around the blade (1) to prevent it from being detached to the vortex side, thereby hindering the suction force of the blades (1) to be maximized.

As shown in FIGS. 1 and 2, the vortex blade 10 has a plate-like shape extending from the lower end of the vortex blade 10 in a direction perpendicular to the vortex blade 10, Further comprising a guide vane (30)

The blowing blade 1 is guided in the guide vane 30 so that the wind formed by the vortex 10 rotating is not sucked and sucked into the suction force of the blowing vane 1 rotating, Thereby guiding vortices to be efficiently generated through the vortex blades 10, thereby guiding the amount of air sucked through the blades 1 to be maximized.

The blowing vanes 100 having the maximum collecting and exhausting efficiency of the present invention having the above-described components are configured to vortex around the blowing vanes 1 through the vortex blades 10 rotating together with the blowing vanes 1 A large amount of air can be efficiently sucked by forcibly sucking the surrounding air by the suction force of the air bladder 1 while the shield blades 20 rotating together with the air bladder 1 It is possible to prevent the air sucked by the suction force of the air bladder 1 from being detached to the vortex side formed by the vortex blade 10, thereby maximizing the suction efficiency of the air bladder 1.

The wind formed by the vortex blade 10 rotating through the guide vane 30 is guided in a direction in which the wind vane 1 rotates so as not to be sucked into the suction force of the blades 1 So that the vortex flow is efficiently generated through the vortex vane 10, and the suction efficiency through the vane vane 1 is further improved.

The blowing vane 100 having the above-described configuration with the maximum collecting and exhausting efficiency according to the embodiment of the present invention operates as follows.

3A, when the blades 100 having the maximum collecting and exhausting efficiency of the present invention are rotated through an external power source 2 such as a motor, the blades 1 and the vanes 10 The vortex of the air around the edge of the air bladder 1 is induced.

3B, external air is forcibly sucked by the suction force of the air blades 1 while the vortex is induced around the air blades 1 through the vortex blade 10 as described above, A large amount of air around the air blades 1 is sucked and discharged by the suction force of the air blades 1.

3C, the shield blades 20 rotate together with the air blades 1 so that air sucked through the suction force of the air blades 1 is blown by the vortex blades 10 due to the vortex blades 1, It is possible to prevent the vortex from being separated from the vortex due to the vortex formed around the vortex blade 1, thereby maximizing the suction force of the vortex blade 1.

3D, the guide vane 30 is inserted into the vortex blade 10 so as not to be sucked and sucked into the suction force of the blowing vane 1, the wind formed by the vortex blade 10 rotating, To guide the wind formed by the vanes (1) in a direction in which the vane (1) rotates, thereby guiding vortices to be efficiently generated through the vortex blades (10).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Air blades 1a. wing
2. External power source
10. Vortex Blades 20. Shield Blades
30. Guide wing
100. Ventilation wings with maximum collection and emission efficiency

Claims (2)

A blowing blade (1) having at least two blades (1a) formed at an equal interval with respect to the center and adapted to receive and discharge external air by receiving external power,
The vane (1) is formed at the end of each vane (1a) and has a plate shape. The vane (1) is erected upright to rotate together with the vane (1a) (10); And
The vane 1a is formed at the end of each vane 1a constituting the air vane 1 and has a plate shape and is erected upright. The vane 1a is positioned orthogonally to the vane vane 10, And a shield blade (20) for preventing the air sucked into the air vane (1) from flowing into the vortex blade (10) while rotating together with the air vane (1)
The air in the surrounding air is forcedly sucked by the suction force of the air bladder 1 in a state where a vortex is formed around the air bladder 1 through the vortex blade 10 rotating together with the air bladder 1, Thereby efficiently sucking the air of the air-
It is possible to prevent the air sucked by the suction force of the air bladder 1 from being detached to the vortex side formed by the vortex vane 10 through the shield blades 20 rotating together with the air bladder 1, Wherein the suction efficiency of the vanes (1) is maximized.
The method according to claim 1,
And a plate-shaped guide vane (30) extending perpendicularly to the vortex blade (10) at a lower end of the vortex blade (10) and extending in a direction in which the air vane (1) rotates ,
The guide vane 30 is guided in the direction in which the blowing blade 1 rotates so that the wind formed by the rotating vortex blade 10 does not suck and disappear into the suction force of the blowing vane 1 rotating, And the vortex is efficiently guided through the vortex blade (10), thereby maximizing collection and discharge efficiency.

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