KR20140047396A - Suction device - Google Patents

Abstract

Provided is a suction device comprising: a tubular guide line having an inlet and an outlet to introduce and discharge a fluid; a plurality of guide wings formed in the circumferential direction of the inside of the guide line and spaced apart from each other to generate an eddy to the fluid flowing into the guide line through the inlet; and a guide wire of which both longitudinal ends are connected to the inside of the guide line to cross the inside of the guide line in order to diffuse the fluid moving inside the guide line. The suction device generates an eddy by the guide wings in the state where the fluid introduced into the guide line through the inlet moves through the guide line, and diffuses the fluid by the guide wire so as to increase flow efficiency of the fluid through the guide line.

Description

Suction device

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a suction device, and more particularly, to a suction device that forms a vortex to improve suction efficiency.

In general, the exhaust system sucks only the portion where the pollutant is generated, not the whole space in the place where the pollutant is discharged. Referring to FIG. 1, a conventional exhaust system includes a suction pipe 10 connected to a suction pipe 10, and dust or contaminated air is introduced into the suction pipe 10 through a suction force generated from the suction fan 10 20).

However, in the conventional exhaust device, the suction force for removing the contaminants decreases sharply in the longitudinal direction of the suction pipe 20, which is not efficient in removing contaminants generated from the suction fan 10 There is a problem.

An object of the present invention is to provide a suction device that improves the flow efficiency of a fluid.

The present invention is a tubular guide line having an inlet and outlet so that fluid flows in and out, a plurality of coupling is formed to be spaced apart from each other in the inner circumferential direction of the guide line, the inlet moves through the inlet to the inside of the guide line Guide vanes for generating a vortex in the fluid, the suction is provided with a guide wire for both longitudinally coupled to the inside of the guide line so as to cross the inside of the guide line, to diffuse the fluid moving inside the guide line Provide the device.

In addition, the guide vane extends in the longitudinal direction of the guide line, and the guide vane may be inclined with respect to the longitudinal direction of the guide line as a central axis.

The length of the guide vane may be 2 to 2.5 times larger than the inner diameter of the guide line.

The tip of the guide vane may be formed at a position distant from the inlet of the guide line by a distance corresponding to the inner diameter of the guide line or a distance larger than the inner diameter of the guide line.

The guide wires may be spaced apart from each other in the longitudinal direction of the guide lines.

The apparatus further includes a suction generating unit for generating a suction force such that the fluid outside the guide line flows through the inlet of the guide line while rotating the impeller while the impeller is rotatably mounted inside the guide line .

The suction device according to the present invention is characterized in that a vortex is generated by the guide vanes in a state in which the fluids introduced into the guide line move through the guide line and the guide wire moves the fluid through the guide line Thereby increasing the efficiency.

1 is a schematic structural view showing a conventional exhaust system.
2 is a structural cross-sectional view of an inhalation device according to an embodiment of the present invention.
3 is a perspective perspective view of the guide line shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 2 is a structural cross-sectional view of a suction apparatus according to an embodiment of the present invention, and FIG. 3 is a perspective view of a guide line shown in FIG. 2 and 3, the suction device includes a guide line 100, a guide vane 300, and a guide wire 400.

The guide line 100 is a tubular member that guides the fluid introduced into the guide line 100 to the discharge position. The inlet 110 and the outlet 120 are formed at both ends of the guide line 100 in the longitudinal direction to allow the fluid to flow in and out. It goes without saying that a tubular connecting member (not shown) may be connected to the inlet 110 or the outlet 120.

The extension plate 130 may be connected to one end in the longitudinal direction of the guide line 100, that is, in one embodiment, to extend outwardly at an end of the guide line 100 where the inlet 110 is formed. That is, the extension plate 130 is coupled to the outside of the inlet 110 of the guide line 100 so as to surround the outside of the guide line 100, so that the fluid outside the guide line 100 flows into the inlet (110).

The guide line 100 is provided with a suction generating part 200 for generating a suction force so that fluid outside the guide line 100 can be easily introduced into the guide line 100 through the inlet 110 of the guide line 100 can do. The suction generator 200 includes an impeller 210 and a motor 220.

The impeller 210 is rotatably installed inside the inlet 110 of the guide line 100. Here, the impeller 210 may be fixedly connected to the guide line 100 while being disposed inside the inlet 110 of the guide line 100 by a plurality of support legs 211 .

The motor 220 generates a driving force to rotate the impeller 210. The driving shaft of the motor 220 is connected to the shaft end of the impeller 210 to rotate the impeller 210. Here, the connection structure for driving the driving shaft of the motor 220 and the axial ends of the impeller 210 may have a direct coupling structure using a known coupler, a coupling structure using a gear, a belt, and a pulley.

The guide vane 300 increases the suction movement efficiency while generating a vortex in the fluid flowing after being introduced into the guide line 210 through the inlet 110. Here, the guide vane 300 is coupled to the inner side of the guide line 100 so as to extend in the longitudinal direction of the guide line 100. At this time, the guide vanes 300 are coupled to each other so as to be spaced apart from each other in the inner circumferential direction of the guide line 100. The guide vane 300 is disposed to be inclined with respect to the longitudinal direction of the guide line 100 as a central axis so as to increase the vortex generation efficiency of the fluid moving inside the guide line 210.

The length L of the guide vane 300 may be 2 to 2.5 times larger than the inner diameter D of the guide line 100. At this time, if the length of the guide vane 300 is less than twice the inner diameter of the guide line 100, the vortex generation efficiency of the fluid is lowered. On the contrary, when the guide vane 300 is formed to have a length greater than 2.5 times the inner diameter of the guide line 100, there is a problem in that noise is increased during movement of the fluid.

The tip end of the guide vane 300, that is, the end adjacent to the inlet 110 of the guide line 100 is connected to the inlet 110 of the guide line 100 by the inner diameter of the guide line 100, D ', or at a position spaced apart from the guide line 100 by a distance larger than the inner diameter size D of the guide line 100, It is possible to prevent the inflow of the fluid when the inflow of the fluid into the line 100 is prevented.

The guide wire 400 increases the movement efficiency while diffusing the fluid moving inside the guide line 100. The guide wire 400 is coupled to the inside of the guide line 100, more preferably both ends of the guide wire 400 in the longitudinal direction are coupled to the inside of the guide line 100, do. Here, it is a matter of course that a plurality of guide wires 400 may be coupled to each other so as to be spaced apart from each other in the longitudinal direction of the guide line 100.

As described above, the suction device of the embodiment is configured such that the fluids introduced into the guide line 100 through the inlet 110 move into the guide vanes 300 while the fluids flow into the guide line 100 The guide wire 400 causes the fluid to be diffused and moved while increasing the efficiency of the fluid movement through the guide line 100.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: guide line 110: inlet
120: exhaust port 200:
210: impeller 220: motor
300: guide wing 400: guide wire

Claims (6)

A tubular guide line having an inlet and an outlet to allow fluid to flow in and out;
A plurality of guide wings coupled to each other in a circumferential direction of the inner side of the guide line to generate a vortex in the fluid flowing inwardly through the inlet through the inlet; And
Both ends of the longitudinal direction is coupled to the inside of the guide line so as to cross the inside of the guide line, the suction device including a guide wire for diffusing the fluid moving inside the guide line. The method according to claim 1,
Wherein the guide vane extends in the longitudinal direction of the guide line,
Wherein the guide vane is arranged to be inclined with respect to a longitudinal direction of the guide line as a central axis. The method according to claim 1 or 2,
And the length of the guide vane is 2 to 2.5 times larger than the inner diameter of the guide line. The method according to claim 1 or 2,
Wherein the leading end of the guide vane is formed at a position spaced apart from the inlet of the guide line by a distance corresponding to the inner diameter of the guide line or a distance larger than the inner diameter of the guide line. The method according to claim 1,
Wherein the plurality of guide wires are spaced apart from each other in the longitudinal direction of the guide lines. The method according to claim 1,
And a suction generating unit for generating a suction force so that fluid outside the guide line flows through the inlet of the guide line while rotating the impeller while the impeller is rotatably mounted inside the guide line, .

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