RU2027522C1 - Cyclone - Google Patents

Abstract

FIELD: metallurgy and other industries; cleaning of air. SUBSTANCE: cyclone has main and auxiliary cyclone, one arranged inside the other, and rigidly connected to form gas cleaning chambers. Central inlet branch pipe is arranged concentrically with cyclone axis. Each cyclone has independent gas inlet branch pipe. Cross section of auxiliary cyclone branch pipe is less in size; this branch pipe is arranged at angle relative to gas flow inlet axis greater than angle of arrangement of main cyclone inlet branch pipe. Open end of main cyclone housing is arranged in height between inlet branch pipe of auxiliary cyclone and end face of outlet branch pipe. Hopper for entrapped dust is arranged in lower part of cyclone. EFFECT: reduced hydraulic resistance in chambers at sufficiently effective cleaning of gas increased adaptability to l manufacture. 1 dwg

Description

 The invention relates to a device for cleaning polluted air from dust and can be used in metallurgical and other industries.

 A known cyclone containing a main cyclone with a tangential inlet pipe, a central outlet pipe and a hopper for the captured product, an auxiliary cyclone of a larger diameter with an inlet tangential pipe, while the housing of the auxiliary cyclone is concentric with the main body of the main cyclone and rigidly connected to it, and the open end of the main body the cyclone is located in height between the inlet pipe of the auxiliary cyclone and the end face of the outlet pipe.

 This type of cyclone does not have a sufficiently high degree of purification.

 The aim of the invention is to create a design that would allow for a low hydraulic resistance in the chambers to provide a sufficiently high degree of gas purification.

 The drawing shows the proposed cyclone, General view.

The cyclone contains a housing 1 with an inlet base tangential 2 and a central outlet 3 nozzles, a hopper 4 for trapped dust, concentric chambers 5 and 6, an auxiliary cyclone 7. Housing 8 of the last larger diameter is concentrically located to housing 1 of the main cyclone 9 and is rigidly connected to its cover 10. The tangential inlet nozzle 11 auxiliary cyclone 7 is placed at a large angle (not less than ^about 30) of the inlet pipe 2 of the main cyclone 9, an angle of inclination which is adopted as for known cyclones e.g. type ZN 1 1, 15, 24 ^about . The cross section of the inlet pipe 11 is approximately 30-35% (as recommended for vortex dust collectors) smaller than the cross section of the inlet pipe 2. The end face 12 of the main cyclone body 1 is set to a height h below the inlet pipe 11 and the cover 10 of the auxiliary cyclone 7, but higher by the value of h ₁ end 13 of the outlet pipe 3, the parameters of which are determined by the known dependencies for cyclones. The outlet pipe 3 is rigidly connected to the cover 14 of the main cyclone 9.

 The cyclone works as follows.

Dusty gas enters through the inlet pipe 2 into the chamber 5 of the housing 1 of the main cyclone 9 and, spinning, falls along the inner wall of the housing 1 towards the end face 12. At the same time, gas passes through the inlet pipe 11 with a higher speed and a large inclination angle α (twist) due to the smaller the cross-section of the pipe 11 and its greater slope enters the chamber 6 of the housing 8 of the auxiliary cyclone 7 and, spinning, lowers in section h to the end 12, where the external gas stream captures the gas stream descending along the inner wall of the housing 1, and clamp tsya to the inner wall 8 of the auxiliary cyclone 7, in which the captured product falls into the hopper 4. In this case, during the intensive mixing of gas flows due to their different speeds and spin steps, particularly in the area ₁ h, coagulation of particles occurs and the expansion of the central zone of the purified gas entering through the exhaust pipe 3 to the exhaust, thereby increasing the degree of gas purification, approximately equal to the degree of gas purification in the known vortex dust collectors. The gas supply through the pipe 11 is possible both from an individual draft machine, and when dividing the flow entering the pipes 2 and 11 through a common gas duct.

Claims (1)

 A CYCLONE containing a main cyclone with an inlet tangential nozzle, a central outlet nozzle and a hopper for the captured product and an auxiliary cyclone of a larger diameter with an inlet tangential nozzle, while the housing of the auxiliary cyclone is concentric with the main cyclone body, rigidly connected to it, and the open end of the main cyclone body located in height between the inlet pipe of the auxiliary cyclone and the end face of the output pipe, characterized in that the inlet pipe of the auxiliary cycle has a smaller cross section and is placed at a large angle along the inlet of the gas inlet of the main cyclone.

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