DE102009044824A1 - fan blades - Google Patents

Abstract

A wing for an axial fan, with at least one leading edge region, a trailing edge region and a plurality of pressure equalization holes. The leading edge region serves to blow the air from the outside of the wing and the trailing edge region serves to blow air to the outside of the wing and the pressure equalization holes are positioned at the trailing edge region. The pressure equalization holes were installed to equalize pressure and to reduce pressure differences between the front and the back of the blade, thereby eliminating the backflow phenomenon caused by the separation of the boundary layer airflow at the trailing edge region at the airflow side of the blade thereby reducing power consumption and noise level and preventing dust from settling on the trailing edge area on the airflow side of the wing.

Description

FIELD OF THE INVENTION

The The invention relates to a wing for an axial fan and a wing for one Centrifugal fan.

BACKGROUND OF THE INVENTION

As in 1 As shown, a conventional wing for an axial fan includes a leading edge portion and a trailing edge portion. The leading edge region serves to blow air from the outside of the wing and the trailing edge region serves to blow air to the outside of the wing. However, there are several problems with the wing: As the wing rotates, the airflow at the trailing edge area is affected by increasing rotational energy; accordingly, the separation of the boundary layer airflow causes a backflow phenomenon when the airflow is discharged from the trailing edge region. This increases the power consumption and the noise level and a considerable amount of dust settles on the trailing edge region on the airflow side of the wing.

One conventional wing a centrifugal fan raises the same problems as described above.

SUMMARY OF THE INVENTION

Regarding The problem described above is the object of the invention the provision of a conventional blade for an axial fan, the is able to reverse the flow phenomenon too eliminate that caused by the separation of the boundary layer air flow so that the power consumption and the noise level are reduced and no dust on the trailing edge region on the airflow side of the grand piano settles.

A Another object of the invention is to provide a conventional wing for one centrifugal fan, which is capable of the backflow phenomenon too eliminate that caused by the separation of the boundary layer airflow, so that the power consumption and the noise level are reduced and no dust on the trailing edge region on the airflow side of the grand piano settles.

Around Achieving the above objectives is achieved according to one embodiment the invention a wing for one Axial presented, consisting of a leading edge area, a trailing edge area and several pressure equalization holes consists. The leading edge area is for blowing the air from the outside of the grand piano and the trailing edge region is for blowing air to the outside of the grand piano and the pressure equalization holes are positioned at the trailing edge area.

In such an embodiment are the pressure equalization holes in a row, evenly or positioned indiscriminately.

In such an embodiment are the pressure equalization holes straight through holes or aslant running through holes.

In such an embodiment shape the pressure equalization holes a net-shaped Hole arrangement, thereby adjusting the pressure on both sides of the wing becomes.

In such an embodiment the diameter of a pressure compensation hole moves in between 0.1 mm and 100 mm.

In such an embodiment the pressure equalizing hole is a circular hole or not a circular hole.

According to one another embodiment The invention is a wing for one Centrifugal fan presented, consisting of a leading edge area, a trailing edge area and several pressure equalization holes consists. The leading edge area is for blowing the air from the outside of the grand piano and the trailing edge region is for blowing air to the outside of the grand piano and the pressure equalization holes are positioned at the trailing edge area.

In such an embodiment are the pressure equalization holes in a row, evenly or positioned indiscriminately.

In such an embodiment are the pressure equalization holes straight through holes or aslant running through holes.

In such an embodiment shape the pressure equalization holes a net-shaped Hole arrangement, thereby adjusting the pressure on both sides of the wing becomes.

In such an embodiment the diameter of a pressure compensation hole moves in between 0.1 mm and 100 mm.

In such an embodiment the pressure equalizing hole is a circular hole or not a circular hole.

The advantages of the blade for an axial fan of the invention include: 1) The trailing edge richly positioned pressure equalization holes can equalize the pressure and reduce the pressure differential between the front and the back of the blade; 2) the pressure equalization holes can eliminate the backflow phenomenon caused by the separation of the boundary layer airflow at the trailing edge region on the airflow side of the blade, thus reducing power consumption and noise level; 3) The pressure equalization holes can prevent dust from settling on the trailing edge area on the airflow side of the wing.

The Advantages of the grand piano for one centrifugal of the invention include: 1) Those positioned at the trailing edge region Pressure equalization holes can equalize the pressure and reduce the pressure difference between the front and the back the grand piano; 2) the pressure equalization holes can Eliminate backflow phenomenon that by the separation of the boundary layer air flow at the trailing edge region at the air flow side of wing caused, so the power consumption and the noise level be reduced; 3) the pressure equalization holes can prevent yourself Dust settles at the trailing edge area on the airflow side of the wing.

BRIEF DESCRIPTION OF THE DRAWINGS

The The invention will hereinafter be described with reference to accompanying drawings described, wherein:

1 is a schematic view of an axial fan in the prior art;

2 Figure 3 is a schematic view of a blade for an axial fan in an exemplary illustration of the invention;

3 an application of an axial fan in an exemplary illustration of the invention;

4 Fig. 12 is a schematic view of a centrifugal fan in another exemplary embodiment of the invention; and

5 Figure 3 is a schematic view of a blade for a centrifugal fan in another exemplary illustration of the invention.

BRIEF DESCRIPTION OF THE PRESENTATIONS

As in 2 and 3 As shown, a wing for an axial fan of the invention consists of a leading edge region 1 , a trailing edge area 2 and several pressure equalization holes 3 , The leading edge area 1 Used to blow air from the outside of the wing, the trailing edge area 2 Used to blow air from the outside of the wing and the pressure equalization hole 3 is at the trailing edge area 2 positioned.

The pressure equalization holes 3 are in a row, evenly or randomly positioned.

In this embodiment, the pressure equalization holes 3 circular holes, non-circular holes, straight through holes or slanted through holes, and the diameter of the pressure equalizing holes 3 is between 0.1 mm and 100 mm.

The pressure equalization holes 3 Form a net-shaped hole arrangement, whereby the pressure on both sides of the wing is adjusted.

The pressure equalization holes 3 can balance pressure and compensate for pressure differences between the front and the back of the wing, the backflow phenomenon caused by the separation of the boundary layer airflow at the trailing edge area 2 at the airflow side 4 eliminating the wing, thus reducing power consumption and noise levels, and preventing dust on the trailing edge area 2 at the airflow side 4 of the wing settles.

As in 4 and 5 As shown, a vane for a centrifugal fan of the invention consists of a leading edge region 1 , a trailing edge area 2 and several pressure equalization holes 3 , The leading edge area 1 Used to blow air from the outside of the wing, the trailing edge area 2 Used to blow air to the outside of the wing and the pressure equalization hole 3 is at the trailing edge area 2 positioned.

The pressure equalization holes 3 are in a row, evenly or randomly positioned.

In this embodiment, the pressure equalization holes 3 circular holes, non-circular holes, straight through holes or slanted through holes, and the diameter of the pressure equalizing holes 3 is between 0.1 mm and 100 mm.

The pressure equalization holes 3 Form a net-shaped hole arrangement, whereby the pressure on both sides of the wing is adjusted.

The pressure equalization holes 3 can balance pressure and compensate for pressure differences between the front and the back of the wing, the backflow phenomenon caused by the separation of the boundary layer airflow at the trailing edge area 2 at the airflow side 4 of the flü Gels is eliminated, thereby reducing power consumption and noise levels, and preventing dust on the trailing edge area 2 at the airflow side 4 of the wing settles.

While single Illustrations of inventions have been illustrated and described, it will be for the person skilled in the art with appropriate knowledge, that changes and modifications performed can be without departing from the invention in its broader aspect and it is therefore the aim of the appended claims, all such changes and to cover modifications like these in the true sense and Scope of the invention fall.

Claims (10)

A wing for an axial fan, consisting of a leading edge area ( 1 ); a trailing edge area ( 2 ); and several pressure equalization holes ( 3 ); wherein said leading edge region ( 1 ) for blowing the air from the outside of the wing; said trailing edge region ( 2 ) for blowing the air to the outside of the wing; and said pressure equalization hole ( 3 ) is positioned at said trailing edge region. A wing of claim 1, wherein said pressure equalization holes ( 3 ) are positioned in a row, evenly or indiscriminately. A wing of claim 1 or claim 2, wherein said pressure equalization holes ( 3 ) are circular holes, non-circular holes, straight through holes or oblique through holes. A wing of claim 3, wherein said pressure equalization holes ( 3 ) form a net-shaped hole arrangement, whereby the pressure on both sides of the wing is adjusted. A wing of claim 3, wherein the diameter of a pressure equalization hole ( 3 ) is between 0.1 mm and 100 mm, said pressure equalization hole ( 3 ) is a circular hole or a non-circular hole. A wing for a centrifugal fan, consisting of a leading edge area ( 1 ); a trailing edge area ( 2 ); and several pressure equalization holes ( 3 ); wherein said leading edge region ( 1 ) for blowing the air from the outside of the wing; said trailing edge region ( 2 ) for blowing the air to the outside of the wing; and said pressure equalization hole ( 3 ) is positioned at said trailing edge region. A wing according to claim 6, wherein said pressure equalization holes ( 3 ) are positioned in a row, evenly or indiscriminately. A wing according to claim 6 or claim 7, wherein said pressure equalization holes ( 3 ) are circular holes, non-circular holes, straight through holes or oblique through holes. A wing according to claim 8, wherein said pressure equalization holes ( 3 ) form a net-shaped hole arrangement, whereby the pressure on both sides of the wing is adjusted. A wing of claim 8, wherein the diameter of a pressure equalization hole ( 3 ) is between 0.1 mm and 100 mm, said pressure equalization hole ( 3 ) is a circular hole or a non-circular hole.