KR20190138364A - fan that is improved suction abilitycyclone typic collector - Google Patents

Abstract

The present invention relates to an air blower, which can mount an inlet pipe extending from an inlet of a rotary rotor to protrude in a rotational axis direction on the rotor so that the inlet pipe can be rotated along with the rotor. Moreover, the inlet pipe can be rotationally inscribed in a partition wall that partitions a first space and a second space. In addition, a plurality of wings are disposed at intervals in the rotational axis direction at an upper end of the inlet pipe.

Description

Fan that is improved suction abilitycyclone typic collector}

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

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

As shown in FIG. 1, the blower is divided into a centrifugal blower in which the air flow is perpendicular to the axial direction, and an axial blower in which the air flow is axial, as the air flows.

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

However, in the centrifugal blower, the inlet is formed adjacent to the negative pressure formed by the rotation of the rotor in a state in which the rotor is rotatably disposed in the casing, and the inlet is connected to the first space so as to flow in the first space. When connected to two spaces, only the air in the first space adjacent to the inlet can be sucked under negative pressure and discharged to the second space, and the air in the first space not adjacent to the inlet cannot be sucked into the second space. There is a problem that it cannot be discharged.

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

The present invention, in order to solve the above problems, a partition for partitioning the first space and the second space is mounted to the rotary car so that the inlet pipe extending from the inlet of the rotary car to protrude in the rotation axis direction with the rotary car The problem can be solved by providing a blower having a plurality of blades at the tip of the inlet pipe to be rotatably inscribed on the wall and spaced in the rotation axis direction at the tip of the inlet pipe.

The present invention provides a positive pressure around the tip circumference of the inlet pipe by a plurality of blades coupled to the rotary car and rotates together with the rotary car by the problem solving means as described above. The tip of the inlet pipe becomes negative pressure, so that the air near the tip circumference of the inlet pipe is moved away from the tip of the inlet pipe by positive pressure, and the vicinity of the tip of the inlet pipe in the rotation axis direction by the negative pressure. Air is moved in a direction proximate to the tip of the inlet pipe, so that the air in the first space connected to the inlet pipe circulates in the first space while being circulated in the first space, and then through the outlet through the outlet. It is to be discharged to, it is possible to significantly improve the suction capacity than the conventional even with the same power of the prior art.

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

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

In Fig. 1, a blower according to an embodiment of the present invention is indicated by reference numeral 100.

1 and 2, the blower 100, like the conventional centrifugal blower, includes a rotary wheel 10.

The rotary wheel 10 may include: a main plate 11 and a shroud 12 spaced apart from each other in a rotation axis direction; And a plurality of vanes 13 interposed between the main plate 11 and the shroud 12 and fixed thereto and arranged at regular intervals in the rotational direction of the rotor 10. .

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

In addition, the suction port 12a extends in the direction perpendicular to the main plate 11 in the rotation axis direction so that the first space S1 and the second space S2 penetrate the partition wall 50 partitioned and divided. One end of the inlet pipe 30 rotatably inscribed via a bearing is rotatably coupled with the shroud 12, or the inlet pipe 30 having a plurality of flow holes formed at one end thereof is the main plate ( 11, the other end is inscribed through the inlet 12a having the same center of rotation as the center of rotation of the shroud 12 while being coupled to the center of the main plate 11 and having the same center as the center of rotation of the main plate 11. 11) extends in the back direction.

The inner end of each of the plurality of vanes 13 converges adjacent to the radially outer side of the suction port 12a, and each of the outer ends thereof is radially outer side of the main plate 11 and the shroud 12. Emitted in the vicinity.

The outer circumferential surface of the other end 30a of the inlet pipe 30 is provided with a plurality of wings 31 at intervals 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. ) And the suction port 12a, the main plate 11, and the shroud 12 pass through each other.

According to the blower 100 configured as described above, the circumference around the other end (30a) of the inlet pipe 30 by a plurality of wings 31 coupled to the rotary wheel 10 and rotates with the rotary wheel 10 Positive pressure is generated and the other end 30a of the inlet pipe 30 in the rotational axis direction becomes negative pressure by the rotation of the rotor wheel 10, and the positive pressure causes the vicinity of the circumference of the other end 30a of the inlet pipe 30. 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) Is moved in a direction close to the other end of the 30a, and eventually, the air in the first space (S1) connected in circulation to the inlet pipe 30 is circulated in the first space (S1) while the inlet pipe (30) Is discharged to the second space (S2) through a), even with the same power as conventional Can.

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

In addition, in the above embodiment, the other end 30a of the inlet pipe 30 is described as being open, but the present invention is not limited thereto, and the other end of the inlet pipe 30 is blocked, and the wing is instead. As shown in FIG. 1, a plurality of through-holes 32 are arranged at intervals with respect to each other in the longitudinal direction and the circumferential direction of the inlet tube 30, in which the inner end of the 31 is fixed. ) May be formed.

When the plurality of through holes 32 are formed in the inlet pipe 30, solids that are heavier than air mixed in the air of the first space S1 are forced by the rotating blades 31. While moving away from the inlet pipe 30 to prevent passage of the plurality of through holes 32, air filtered with solids is passed through the plurality of through holes 32 to the second space S2. Can be moved to.

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

10; Rotor wheel, 30; Inlet tube, 50; Partition wall, 80; Driving means

Claims (3)

A rotation wheel driven by the drive means, the main plate 11 and the shroud 12 spaced apart from each other in the rotation axis direction; And a plurality of vanes 13 interposed between the main plate 11 and the shroud 12 and fixed thereto, and disposed at regular intervals in a rotational direction of the rotor 10. ,
An inlet 12a formed at the center of the shroud 12 having the same center as the center of rotation of the rotary car 10,
An inlet pipe 30 extending in the direction in which the main plate 11 extends in the direction of the rotation axis, is coupled to the inlet 12a of the shroud 12 so as to flow, and rotates together with the shroud 12. ), 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 opened or the other end 30a of the inlet pipe 30 is blocked in the inlet pipe 30, the inner end of the wing 31 is fixed to the site In the state in which the plurality of through holes 32 arranged at intervals 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, A plurality of through-holes 32 are formed in the inlet pipe 30 portion in which the inner end of the wing 31 is fixed, with a gap spaced from each other in the longitudinal direction and the circumferential direction of the inlet pipe 30. Characterized by Blower with improved suction capacity. The method of claim 1,
The inner end of each of the plurality of vanes 13 converges adjacent to the radially outer side of the suction port 12a, and each of the outer ends thereof is radially outer side of the main plate 11 and the shroud 12. Blower with improved suction capacity, characterized in that it is emitted in the vicinity. The method of claim 1,
The drive means 80,
Or a motor 81 having an output shaft 82 fixed to the main plate 11 so that the main plate 11 rotates at the same center as the center of rotation of the rotary car 10 or
Blower with improved suction capacity, characterized in that the negative pressure source connected to the circumference of the rotary wheel (10).

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