KR20000050947A - Multi Blade Type Fan - Google Patents

Abstract

PURPOSE: A sirocco fan is provided to maximize blowing efficiency without limit of mounting ring-shaped plates and blades. CONSTITUTION: A sirocco fan consists of ring-shaped upper/lower plates, blades connected between the plates, a rotary shaft mounted in the central line and a support rod connected with the plates to support the rotary shaft. The ring-shaped plate has inner/outer diameters at a ratio of 0.7-0.9, preferably 0.85 to form upper and lower frames of a sirocco fan body.

Description

Multi Blade Type Fan {Multi Blade Type Fan}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-wing fan, and more particularly, to a multi-wing fan having improved blade numbers, ring-shaped disks, and wing installation angles.

Generally, the blower is divided into multi-wing type (aka sirocco type), turbo type, and flat type.

The performance of the dual multi-blown blower is known as the most suitable blower for handling a large amount of air or gas at low pressure below 80 mmAq.

The basic structure of the multi-blade blower is a plurality of ring-shaped disks and vertical wings that are installed in a plurality of circles as if forming a cylindrical body by forming a flow-intake passage passage from the outside to the inner side by extending a predetermined length vertically between the ring-shaped disks. And a plurality of sections extending in the direction of the central axis from this vertical wing, and a rotation axis supported on the center line by the sections.

This blower is basically installed in the air intake and exhaust process of a predetermined air ventilation system and air conditioning system. The multi-blown blower has very smooth air flow, almost no unpleasant noise and vibration, and quiet operation, but most of them have very low wind efficiency. In addition, its use was also applicable only to specific specifications.

The problem with the decrease in wind efficiency compared to the wind blower is that most of them follow the conventional structure in which the ratio between the outer diameter and the inner diameter of the ring-shaped disk that determines the width of the upper and lower ring-shaped disks is not experimentally proven. Since the size of the ring-shaped upper and lower plates ultimately affects the wing area of the blower and its side length, the empirical figures for this part affect the improvement of wind-to-wind efficiency.

However, in the related art, it is carried out without specifying a specification or range of such a preferable blower, resulting in a decrease in efficiency compared to wind power.

In addition, the number of blades provided between the ring-shaped disks (upper and lower plate bodies) was also only installed at predetermined intervals according to the size of the ring-shaped disks determined.

Therefore, the number of wings has been manufactured without any reference value even though it is a factor that determines the intake air amount of the blower.

In particular, the radius and installation angle of the blade, together with the number of the blade, are factors that determine the air intake. The reason is that the above-mentioned ring-shaped disc, the length of the blade, the number of wings, the installation angle of the blade, the radius of the blade, and the like determine the efficiency of the wind in order to inhale and exhaust the air ideally without resistance.

It is an object of the present invention to provide a multi-air blower structure that can maximize the wind efficiency. Specifically, to provide a multi-blade blower having a ring-shaped disc of a specific interval, the length of the blades, the number of wings, the installation angle of the blades and the radius of the blade that can increase the wind efficiency.

Missing short description in the drawing

An object of the present invention for achieving the above object is a plurality of ring-shaped disks having a ratio (D1 / D2) of the inner diameter (D1) to the outer diameter (D2) of 0.75-0.9, and the ring-shaped disk. The blade radius = absolute value × lake length (mm) ÷ 4 to support the wind power at a predetermined angle ΔΒ and the number of wings having such a radius is advantageous in the range of approximately 45-53. In addition, the ratio of B2 / D2 is preferably about 50%.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a blower according to the present invention, FIG. 2 is a plan view of the blower, and FIG. 3 is experimental data for obtaining an ideal wind energy efficiency of the present invention.

The blower to which the present invention according to FIG. 1 is applied is largely a ring-shaped upper and lower plates, a blade connected between the plates, a rotation shaft installed on a center line, and a support connected from the plate to support the rotation shaft. It is made of liver.

(Hereinafter, R is wing radius, blower plane diameter is D2, and blower side length is B2.)

As shown in FIG. 2, the present invention comprises a predetermined ideal number, dimensions, and experimental data.

That is, the ratio (D1 / D2) of the inner diameter (D1) and the outer diameter (D2) of the ring-shaped disks forming the upper and lower frames of the multi-blade blow base body was 0.7-0.9, and the most preferable ratio was 0.85.

The blade installed between the ring-shaped discs of the above ratio is preferably set to the installation angle (ΔΒ) of about 15-23 (deg), most preferably 19 (deg), the blade radius is the blade radius = absolute value × lake 30-35R is preferable by the formula of length (mm) / 4, and the most effective radius was 33 (mm). In particular, the number of wings with this radius is the most suitable for 50, and the ratio of the side length and diameter is most suitable when B2 ÷ D2 = 0.5 (50%).

Where B2 is the chosen value between 180 and 360 mm.

These specifications are repeated data set, and as a result, the efficiency against wind power rose to 63%. This has the effect of surpassing the efficiency of the multi-blown blower, which was about 47% in the past.

As such, the present invention has the effect of improving the waste of wind power according to the conventional multi-blade blower is carried out without the specification for the accurate ring-shaped disk and wing installation.

Claims (2)

In the multi-blade blower, A base frame having a ratio (D1 / D2) of the inner diameter (D1) and an outer diameter (D2) of 0.75-0.9 and a ratio of the side vertical length (B2) and the outer diameter (D2) of 50%; And Vertically installed between the ring-shaped disk of the base frame, a multi-blade blower comprising a predetermined radius (R), a predetermined angle (ΔΒ) and a vertical number of wings installed in a predetermined number. The method of claim 1, wherein the wing, A blade type blower, wherein the blade radius is absolute value (33.7) x lake length (mm) ÷ 4, the number of wings is 50, and the installation angle is 19 (deg).