KR102099369B1 - fan that is improved suction abilitycyclone typic collector - Google Patents

Abstract

The present invention is mounted on the rotating vehicle so as to rotate together with the rotating vehicle inlet pipe extending from the entrance of the rotating vehicle to protrude in the direction of the rotation axis, and rotating the entrance pipe on the partition wall partitioning the first space and the second space It relates to a blower having a plurality of blades, which is inscribed as possible and spaced in the direction of the rotation axis at the tip of the inlet pipe.

Description

Fan that is improved suction ability cyclone typic collector}

The present invention relates to a blower with improved suction capacity.

The blower consists of an impeller that causes flow, and a casing that guides the flow into and out of the van.

As shown in FIG. 1, according to the flow of air, the blower is divided into a centrifugal blower having an air flow perpendicular to the axial direction and an axial flow blower having an air flow axial direction.

In particular, the centrifugal force blower has an inlet opening in the axial direction, and an outlet opening in a direction perpendicular to the axial direction.

However, the centrifugal force blower has an inlet formed adjacent to the negative pressure formed by rotation of the rotating vehicle in a state in which the rotating vehicle is rotatably disposed in the casing, so that the inlet is connected to flow in the first space, and the outlet is eliminated. When connected to the second space, only the air in the first space adjacent to the inlet can be sucked by negative pressure and discharged into the second space, and the air in the first space not adjacent to the inlet cannot be sucked into the second space. It has the problem that it cannot be discharged.

The present invention has a problem in solving the above-mentioned problems.

In order to solve the above problem, the present invention is to install the inlet pipe extending to protrude in the direction of the rotational axis from the entrance of the rotating car to the rotating car to rotate together with the rotating car, and divide the first space and the second space. The above problem can be solved by rotating the inlet pipe on a wall to be rotatable and providing a blower having a plurality of wings at a distance in the rotation axis direction at the tip of the inlet pipe.

The present invention is a positive pressure around the front end of the inlet pipe by a plurality of blades coupled to the rotating vehicle and rotated together with the rotating vehicle by the above-described problem solving means, in the rotation axis direction by rotation of the rotating vehicle. The tip of the inlet pipe becomes negative pressure, so that the air around the tip of the inlet pipe is moved in a direction away from the tip of the inlet pipe by positive pressure, and the negative pressure causes the air in the vicinity of the tip of the inlet pipe in the rotation axis direction. The air of the inlet pipe is moved in a direction close to the tip of the inlet pipe, and in the end, the air in the first space connected to the inlet pipe is circulated in the first space, and the second space through the outlet through the inlet pipe As it is discharged, it is possible to significantly improve the suction capacity than the conventional one, even with the same power as the conventional one.

1 is a schematic view of a conventional blower,
Figure 2 is a front sectional view of a blower according to an embodiment of the present invention,
3 is a cross-sectional plan view showing a plurality of wings in line AA of FIG. 1.

Hereinafter, the collecting parts of the embodiments according to the present invention will be described in detail with reference to FIGS. 2 to 3.

In Fig. 2, a blower according to an embodiment of the present invention is indicated by reference numeral 100.

2 and 3, the blower 100 includes a rotating vehicle 10, like a conventional centrifugal force blower.

The rotating vehicle 10 includes a main plate 11 and a shroud 12 spaced apart from each other in the rotation axis direction; And a plurality of wings 13 interposed between the main plate 11 and the shroud 12 and fixed to them, and arranged at regular intervals in the rotational direction of the rotating vehicle 10. .

The shroud 12 is formed with a suction port 12a having the same center as the rotation center of the rotation vehicle 10, and the main plate 11 is, for example, the rotation center of the rotation vehicle 10 It is coupled to a driving means 80 such as a motor 81 having an output shaft 82 fixed to the main plate 11 so that the main plate 11 rotates with the same center.

In addition, the first space (S1) and the second space (S2) penetrate the partition wall (50) divided by dividing the suction hole (12a) in the direction in which the back of the main plate (11) extends in the direction of the rotation axis. One end of the inlet pipe 30 rotatably inscribed through a bearing is coupled to rotate together with the shroud 12, or the inlet pipe 30 having a plurality of distribution holes formed at one end is a main plate ( 11) In the state coupled to the center of the main plate 11 with the same center as the rotation center of 11), the other end passes through the suction port 12a having the same rotation center as the rotation center of the shroud 12 and passes through the main plate ( 11) in the direction of the back.

The inner end of each of the plurality of wings 13 converges adjacent to the radially outer side of the suction port 12a, and their outer ends are radially outer side of the main plate 11 and the shroud 12. It is radiating nearby.

The outer circumferential surface of the other end 30a of the inlet pipe 30 is provided with a plurality of wings 31 spaced in the circumferential direction of the inlet pipe 30.

The discharge side and the suction side of the blower 100 are spatially partitioned by the partition wall 50, and the first space S1 on the suction side and the second space S2 on the discharge side are the inlet pipe 30 ), Through the space between the suction port (12a) and the main plate 11 and the shroud 12 is to be distributed to each other.

According to the blower 100 configured as described above, the circumference around the other end 30a of the inlet pipe 30 is coupled to the rotating vehicle 10 by a plurality of wings 31 rotating together with the rotating vehicle 10. The positive pressure becomes the negative pressure of the other end 30a of the inlet pipe 30 in the rotational axis direction by the rotation of the rotating car 10, and the positive pressure causes the other end 30a of the inlet pipe 30 around the periphery. Air is moved in a direction away from the other end (30a) of the inlet pipe 30, the air near the other end (30a) of the inlet pipe 30 in the rotation axis direction by the negative pressure is the inlet pipe (30) It is to be moved in a direction close to the other end (30a) of the, eventually, the air in the first space (S1) connected to the inlet pipe 30 is circulated in the first space (S1) while circulating in the inlet pipe (30) ) To be discharged to the second space S2, and even with the same power as in the prior art, the suction ability can be significantly improved.

In the above embodiment, although the driving means 80 is described as a motor to drive the rotary vehicle 10, the present invention is not limited thereto, and the driving means 80 is not shown, but the main plate (11), it may be coupled to at least one of the shroud 12 and the inlet pipe 30 to rotate the rotary vehicle 10, or the circumferential portion of the rotary vehicle 10 is connected to the negative pressure source The air may be sequentially rotated to move the space between the inlet pipe 30 and the main plate 11 and the shroud 12 to rotate the rotating vehicle 10.

In addition, in the above embodiment, although the other end 30a of the inlet pipe 30 is described as being opened, the present invention is not limited to this, and the other end of the inlet pipe 30 is blocked, and instead the wing A plurality of through-holes 32 arranged at intervals to each other in the longitudinal direction and the circumferential direction of the inlet pipe, as shown in FIG. ) May be formed.

When the plurality of through-holes 32 are formed in the inlet pipe 30, solid matter heavier than air mixed with air in the first space S1 is forced by the rotating wing 31. While being moved away from the inlet pipe 30, the passage through the plurality of through-holes 32 is prevented, while the solid filtered air is passed through the plurality of through-holes 32, the second space S2. Can be moved to.

In addition, the blower 100 of the present embodiment is in the state where the other end (30a) of the inlet pipe 30 is open, the inner end of the wing 31 is fixed to the inlet pipe (30) portion of the inlet pipe ( 30) A plurality of through-holes 32 arranged at a distance from each other in the longitudinal direction and in the circumferential direction may be formed. In this case, the filtration function of the solid can be easily performed while maintaining the suction power.

10; Rotating wheel, 30; Entrance tube, 50; Partition wall, 80; Drive means

Claims (3)

As the rotational vehicle driven by the driving means 80, the main plate 11 and the shroud 12 spaced from each other in the rotation axis direction; And a plurality of blades (13) interposed between the main plate (11) and the shroud (12), fixed to them, and arranged at regular intervals in the rotational direction of the rotating vehicle (10). (10),
A suction port (12a) formed in the center of the shroud (12) having the same center as the rotation center of the rotating vehicle (10),
The inlet pipe 30 rotates with the shroud 12 by one end being coupled to the suction port 12a of the shroud 12 by extending the back to the main plate 11 in the direction of the rotation axis in the direction of the back. ), And
It includes a plurality of wings (31) provided on the outer circumferential surface of the inlet pipe 30 at intervals in the circumferential direction of the inlet pipe (30),
The other end (30a) of the inlet pipe 30 is open, or the other end (30a) of the inlet pipe 30 is blocked while the inner end of the wing (31) is fixed to the inlet pipe (30) portion In a state in which a plurality of through holes 32 arranged at a distance from each other in the longitudinal direction and the circumferential direction of the inlet pipe 30 are formed, or the other end 30a of the inlet pipe 30 is opened, the A plurality of through-holes 32 are formed at intervals of each other in the longitudinal direction and the circumferential direction of the inlet pipe 30 in the inlet pipe 30 where the inner end of the wing 31 is fixed. Characterized by Blower with improved suction capacity. According to claim 1,
The inner end of each of the plurality of wings 13 converges adjacent to the radially outer side of the suction port 12a, and their outer ends are radially outer side of the main plate 11 and the shroud 12. A blower with improved suction capacity, which is characterized by being emitted nearby. According to claim 1,
The driving means 80,
It is a motor 81 having the same center as the rotation center of the rotating vehicle 10 and having an output shaft 82 fixed to the main plate 11 so that the main plate 11 rotates, or
A blower with improved suction capability, characterized in that it is a negative pressure source connected to the circumference of the rotating vehicle (10).

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