RU2056908C1 - Hose filter - Google Patents

Abstract

FIELD: gasses purification. SUBSTANCE: moving along screw-type line gas is passing through hose, exhaust pipe into collector of pure gas. Screw with threading is located in center of hose. Regeneration of filter hose is exercised by spray blowing through, using disk, that is rotating along screw under action of reactive thrust, that is developed by gas flying out of nozzles of the disk. Disk nozzles are made at an angle of up to 90 to its radius in plane, that is perpendicular to disk axis. In the case upper row of nozzles is directed to the side, that is opposite to lower row. EFFECT: increased quality of gasses purification. 2 cl, 3 dwg

Description

 The invention relates to the purification of gases from dust by filtering and can be used in chemical, petrochemical and other industries.

 A bag filter is known from the prior art, comprising a housing with gas inlet and outlet nozzles, a hopper, fabric hoses with a plate in the lower part and axially mounted upper and lower blowing nozzles with diffusers under them, the upper nozzle with a compressed air supply system.

 Closest to the invention is a dust collector comprising a housing with dusty and purified gas chambers, gas supply and exhaust nozzles, filter sleeves fixed to the bag grate, rotary impellers mounted on the axles for rotation and regenerative elements located in the sleeves connected to the axles of the wheels, dust collector equipped with a horizontal partition, a gas outlet pipe is installed between the horizontal partition and the grill, the impellers are located in the recesses, regenerating eleme you are in the form of frames and the wheel axles are arranged in the clean gas chamber.

 The disadvantage of these filters is the insufficient degree of gas purification.

 The technical result of the invention increases the efficiency of gas purification from dust.

 The goal is achieved by the fact that the filter is equipped with cylindrical pipes placed coaxially on the outside of each sleeve, the upper part of which is connected to the upper part of the housing and the lower to the hopper, while the regeneration device is made in the form of a screw mounted along the axis of each sleeve with a disk made with the upper and lower rows of nozzles connected to flexible hoses, while the nozzles of the rows are directed in different directions.

 Figure 1 shows a bag filter; figure 2 one filter sleeve, section; figure 3 section aa in figure 2.

The bag filter contains a housing 1 with dirty 2 and clean 3 gas manifolds, tensioned on the frames 4 of the sleeve 5. Each sleeve 5 is installed in a cylindrical pipe 6. Gas enters the pipe 6 through a swirl 7 made in the form of curved blades. Moving along a helix, gas passes through sleeve 5, exhaust pipe 8 into the clean gas manifold 3 and exits the apparatus. In the center of the sleeve 5 there is a screw 9 with a thread fixed in the housing 1 and on the end wall of the frame 4. A ring is made at the bottom of the sleeve 10. The sleeves in the filter are replaced through hatches 11. The sleeve 5 is put on the frame 4 and secured at the top with a clamp 12. The bottom of the ring 10 of the sleeve is pressed by a round cover 13 to the frame 4, and the cover 13 is attached to the housing 1 and is turned by a nut turning on the screw 9. The cover 13 has holes 14 for dust to pass into the hopper 15. The filter sleeve is regenerated by blasting with a disk 16. The disk 16 has threaded hole 17, s with the help of which he moves on the screw 9 under the action of jet propulsion developed by the gas escaping from the nozzles 18. Compressed gas is supplied through flexible hoses 19, through a ring-shaped cover 20, sandwiched between bearings 21, through channels 22 to nozzles 18. To reduce gas leakage between the cover 20 and gas channels 22, there are seals 23. The nozzles of the disk 16 are made at an angle of up to 90 ^about to the radius in the plane perpendicular to the axis of the disk, with the upper row of nozzles directed in the direction opposite to the lower row.

 Bag filter works as follows.

 Dirty air is supplied through the pipe of the manifold 2. Through the swirl 7, gas is supplied to the pipe 6 of the filter. In the swirl, the gas acquires a rotational motion. Moving so, it passes through the filter sleeve 5 and is directed through the exhaust pipe 8 to the clean gas manifold 3. Filtering occurs when the disk 16 is lowered to the lower position. Part of the dust under the action of centrifugal forces, moving along the pipe 6, passes through the holes in the cover 13 and settles in the hopper 15. Part of the dust gets stuck in the filter sleeve. The regeneration of the filter begins when compressed gas is supplied through the hose 19; the gas flies out of the nozzles at a high speed, the disk 16 starts to rotate in the opposite direction, and a gas stream when driving moves dust off the filter sleeve. The disk 16 moves along the thread of the screw 9 up, then down, cleaning the sleeve. So all the sleeves are cleaned. To replace the sleeve 5, open the hatches 11, unscrew the nut holding the cover 13. Then remove the cover 13 and the sleeve, put on a new sleeve 5 and clamp the clamp 12 at the top. The ring 10 is pressed from the bottom by the cover 13 to the frame 4. The sleeve is ready for operation. And so is the rest of the sleeves.

Claims (2)

 1. HOSE FILTER, comprising a housing with gas inlet and outlet manifolds, a dust collection bin, filtering sleeves with a swirl and a regeneration device arranged rotatably inside the sleeve, characterized in that the filter is provided with cylindrical pipes placed coaxially on the outside of each sleeve , the upper part of which is connected to the upper part of the housing, and the lower one - to the hopper, while the regeneration device is made in the form of a screw mounted along the axis of each sleeve with a disk made with the upper and lower their rows of nozzles connected to a flexible hose. 2. The filter according to claim 1, characterized in that the nozzles are located at an angle of up to 90 ^o to the radius in a plane perpendicular to the axis of the disk, while the nozzles of the upper and lower rows are directed in opposite directions.

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