KR890005639Y1 - Cyclone for separating particles from gas - Google Patents

Abstract

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Description

Gas Axial Flow Linear Dust Collector

1 is a front cross-sectional view illustrating the configuration of the present invention.

* Explanation of symbols for main parts of the drawings

4 gas swing body 5 conical body

6: dust ejection hole 7: expansion pipe

8: dust settling chamber 9: gas discharge pipe

The present invention relates to a gas axial flow straight-type dust collector which has a dust centrifuged while the gas is passed horizontally while the dust is discharged in a straight line.

A conventional conventional dust collector is a configuration in which a conical centrifuge is installed vertically (Japanese Patent Application No. 48-84359), and the centrifuged dust is collected by falling down while collecting the dust, and the dedusted gas is reversed. It is to be discharged to the upper part, and the improvement is to connect the dust discharge hole in the lower outer wall of the conical centrifuge tube and connect the lower dust cylinder and the upper gas discharge pipe to the vent pipe (Japanese Office 55-91970). Although this is introduced, such a configuration requires a length required for reversing into an inverted air stream after the conical centrifuge tube descends while being centrifuged to form a long conical structure. As a result, there is a drawback that the gas extraction is not smooth and the vibration damping effect is lowered, and the dust discharge hole is drilled in the conical centrifuge. However, the installation helps to separate and discharge dust, but since the lower dust cylinder and upper gas discharge pipe through the vent pipe, the internal pressure for exhausting the dedusted gas into the reverse air stream is released to the vent pipe, resulting in sluggish formation of the reverse air stream. There was a problem that the separation discharge is not smooth.

The present invention is designed to solve the above problems, using a conventional conical centrifuge but after centrifuging the dust as in the prior art without the reversed discharge of the dedusted gas as a reverse air flow, horizontally discharged in a straight line It is designed to reduce the discharge pressure loss and to provide excellent dust removal efficiency.

Referring to the configuration in detail according to the accompanying drawings, the gas containing the gas inlet 1 enters the gas turning body (4), turning the guide cylinder (2) formed with a wide jaw (3) at the end, In constructing a dust collector which discharges the dust collected after the dust is centrifuged in the conical fuselage 5 after being accelerated, the gas turning cylinder 4 is installed horizontally and extended to the rear of the conical fuselage 5 protruded in front of it. (7) is formed, and the dust ejection hole 6 is provided in the straight line, and the dust settling chamber 8 in which the gas discharge pipe 9 was installed in the straight line immediately after the expansion pipe 7 was formed outside. to be.

The dust collector of the present invention as described above is accelerated in the jaw (3) that has entered the gas turning cylinder (4) through the gas inlet (1) while turning around the guide cylinder (2) in the conical body (5) Further, the dust that has been accelerated by turning and centrifuged is ejected through the dust ejection hole 6 to fall into the dust settling chamber 8, and the dedusted gas continues straight and is discharged to the gas discharge pipe 9.

At this time, the dust ejected from the dust ejection hole 6 of the conical fuselage 5 is isolated by the expansion pipe 7 after the ejection, so that the dust is not engulfed by the flow of the gas exhausted forward, and the exhausted gas is conical during dust separation. After being slightly extruded in the fuselage 5, the gas is discharged straight to the gas discharge pipe 9 so that the gas discharge pressure loss is very small compared to the conventional method, and the damping effect is high.

Claims (1)

In constructing a dust collector such that the impregnated gas entering the gas swing body 4 through the gas inlet 1 is centrifuged in the guide cylinder 2 and the conical body 5, the gas swing body 4 is laterally The dust settling chamber was installed with the conical fuselage (5) installed at the rear, and installed through the dust ejection hole (6), and the expansion pipe (7) was installed immediately afterwards, and the gas discharge pipe (9) was installed in line with the expansion pipe (7). A gas axial flow direct type dust collector formed by forming (8).