KR200255882Y1 - Blade Plant Blower - Google Patents

Abstract

Blade plant blower according to the present invention has a plurality of blades are radially coupled to the outer circumferential surface of the hub, the base portion of the blade, the coupling portion thereof extends in the circumferential direction and formed two bolt holes formed with the same curvature as the hub As the bolt is connected to the hub, it is firmly fixed, and the structure of the motor is that the rotor is inserted into the hub and the part of the motor is inserted into the hub, which reduces the volume and the suction failure due to the volume of the motor located on the inlet side. The assembly process is simplified by reducing the number of parts and the number of parts is reduced, and the assembly process is simplified compared to the conventional technology, and the fixing of the blade is firm, so the resistance against complex stresses applied in various directions is increased, which shortens the lifespan due to blade breakage. do.

Description

Blade Planting Blower

The present invention relates to a blade planting blower, more specifically, a plurality of blades formed in the lower proximal end equal to the curvature of the hub radially fixed to the outer peripheral surface of the hub, respectively, the blade life is extended and the impeller The manufacturing of the blade becomes simple, and the rotor of the motor is disposed in the annular fixed inside of the hub and the stator of the motor is installed in the rotor, the hub and the motor can be integrated into a small blade manufacturing cost is low blade It relates to a plant blower.

The conventional planting blower, as shown in Figure 4, is a structure in which a single bolt 56 is formed in a portion where the blade is coupled to the outer peripheral surface of the hub, the tension (vibration) during the rotation (tension) by centrifugal force And bending and torsion due to the geometry of the blades are simultaneously applied. As a result, the overlapping force is concentrated to the portion where the blade and the bolt are coupled, leading to cracking of the coupling portion, thereby causing the blade to be broken. .

In addition, the conventional blower, as shown in Figure 5, the shaft is fixed to the center of the rotor 51, the coil is wound, the stator 52 is arranged around the coil portion, the rear cover 53 The rear end of the shaft is rotatably supported by the shaft, and the hub 55 is coupled to the end of the shaft protruding through the front cover 54. The motor and the hub occupy an independent space. There was a problem that the weight is increased.

Therefore, the conventional blower has a limitation in the life due to the crack of the coupling portion of the blade and the volume of the motor is coupled to the stator and the front cover separately from the hub and the volume of the motor installed in the inlet is difficult to prevent air intake. There is a problem in that the suction efficiency is lowered, and the front cover must be combined so that the weight of the material cost and the manufacturing process are lengthened.

The object of the present invention is to solve this problem, the blade is extended to the base end fixed to the outer peripheral surface of the hub in the circumferential direction is combined by two bolts, so that the bonding force is dispersed and the concentration of stress can be avoided, the joint breakage It is to provide a blade plant-type blower is to solve the problem and the number of blades is adjustable.

The other object of the present invention is that the rotor constituting the motor is integrated into the hub and the assembly process is shortened because the front cover is removed and the hub plays a role of covering the structure where the conventional hub and the motor occupy independent spaces. It is to provide a blade-planted blower that is easy to install in the duct by reducing the volume and weight, and the suction obstacle due to the volume of the motor located on the suction port is eliminated.

This object of the present invention is that the blade is coupled to the outer circumferential surface of the hub by two bolts, a part of the motor is inserted into the hub, the motor is miniaturized to shorten the motor manufacturing process and to reduce the material cost and to reduce the weight The blower is easy to install and the blade is secured so that the blade long blower is achieved by the blade plant blower according to the present invention.

Blade planting blower according to the present invention will be clearly understood its features and advantages by the embodiments described in detail below with reference to the accompanying drawings.

1 is a cross-sectional view of the blade planting blower according to the present invention

Figure 2 is a blade perspective view of the blade planting blower according to the present invention

Figure 3 is a hub perspective view of the blade planting blower according to the present invention

Figure 4 is a perspective view of a conventional planting blade

Figure 5 is a perspective view of the combined part of the motor of the conventional blower cut

* Sign on the main part of the drawing *

1.blade 2.hub

3. Motor 4. Frame

22. Rotor 31. Stator

In the blade planting blower A according to the present invention, as shown in FIGS. 1 and 2, a plurality of blades 1 are radially coupled around the hub 2. In this embodiment, eight blades are combined. The blade 1 is formed with a curvature equal to the curvature of the hub 2 by extending a predetermined length in the circumferential direction so that the proximal end 11 bolted to the hub 2 is seated on the circumferential surface of the hub 2. Two bolt holes 12 are formed at the edge of the upper surface of the base end 11 of each blade.

As shown in FIG. 3, the hub 2 has a structure in which a motor is inserted into and fixed inside the blade and a blade is planted on an outer circumferential surface thereof, and a plurality of base ends 11 of the plurality of blades 1 on a cylindrical outer circumferential surface of the hub 2 are provided. ), A bolt hole 21 is formed, and the rotor 22 is annularly fixed to the inner circumferential surface. The installation of the rotor in the hub 2 is a shrink fit structure that heats the hub 2 and inserts the rotor 22 in the expanded state of the inner circumferential surface of the hub. A center hole 23 is formed at the center of the hub 2, and a shaft fixing hole 24 is formed around the hub 2.

Since the motor 3 is inserted into the hub 2, as shown in FIG. 1, a separate installation space is unnecessary, and the installation area is greatly reduced. The motor (3) is fixed to the center of the hub (2) and the rotating shaft (31A) that rotates with the hub (2) is fixed with the ball bearing so as to rotate in the center and is installed facing the rotor (22) outside The stator 31 in which the stator coil 31B which drives the rotor 22 is wound is contained. One end of the rotating shaft 31A has a circular plate structure, and a center hole is formed in the center and a fixing hole 32 is formed around the fixing shaft, and the fixing hole is bolted through the shaft fixing hole 23 of the hub. It is fixed with the hub (2) in the form. The stator 31 has a support hole 33 formed on the rear surface fixed to the hub, and a support bolt is inserted through the rear cover 34 so that the stator 31 is coupled to the support hole 33. The rear cover 34 is provided with a wire introduction pipe 35 through which current flows into the stator coil 31B. The hub 2 and the rear cover 34 have a structure in which the contact surface is smoothly disposed so that the hub 2 rotates smoothly and has a slight gap.

The base end 11 of the blade 1 is seated on the hub 2 and is fixed with two bolts so that the frame 4 is installed to induce blowing through the blade 1 when the hub 2 rotates. The frame support 41 is coupled to the rear cover 34 so as to be inclined to extend toward the hub, and the frame in a cylindrical frame 4 surrounding the plurality of blades 1 mounted on the hub 2. The other end of the support beam 41 is joined to support the frame 4, and the frame 3 has a structure in which the inlet area of the air suction side is enlarged and molded.

The function of the blade planting blower according to the present invention having such a structure will be described in detail below.

A current flows through the stator coil portion 31B wound around the stator 31 so that a rotational force, which is a force perpendicular to the current direction and the direction of the magnetic force line of the rotor 22, is transmitted to the rotor 22 and integrated with the rotor. The hub 2 rotates about the axis of rotation 31A.

At this time, a plurality of blades (1), each of which is joined to the circumferential surface of the hub (2) by two bolts, which are planted with airfoils, are rotated to induce the flow of air, and the air blowing function of suction and discharge is performed. Done.

Blade-planted blower according to the present invention includes a proximal end portion of the blade is a circumferentially extended structure in which two bolt holes are formed on the upper surface is firmly fixed to the outer peripheral surface of the hub to withstand rotational movement, the blade life is long, motor The rotor is arranged annularly around the stator coil part constituting the fixed structure is inserted into the hub, the hub serves as a covering of the motor, eliminating the need for a front gerber, the volume is reduced, and the material can be partially saved, reducing the weight It is easy to install and the effect of shortening the manufacturing process is achieved by the blade planting blower according to the present invention.

Claims (2)

In blade planting blower, The blade includes a proximal end fixed to the outer circumferential surface of the hub, the proximal end extends a predetermined length in the circumferential direction of the hub and two or more bolt holes are drilled to form a curvature equal to the curvature of the hub. The method of claim 1, The hub is coupled to the rotor disposed annularly around the stator coils inside, the hub and the rotating shaft is coupled through a fixed hole formed in the shaft fixed hole in the hub center and one end of the rotating shaft in the center of the stator, the outside of the rear cover Blade-type blower, characterized in that the stator is fixed to the bolt is inserted is coupled to the support hole formed in the stator.