KR860000088Y1 - Material of granular and powder dischaging apparatus(circular type) - Google Patents

Abstract

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Description

Rotary Powder Discharge Device

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

2 is a cross-sectional view taken along the line B-B in FIG.

3 is an enlarged cross-sectional view of the present invention air blowing pipe.

4 is an enlarged view of part C of FIG.

5 is a cross-sectional view of a conventional rotary powder discharge device.

6 is a cross-sectional view taken along the line A-A of FIG.

The present invention relates to a rotary powder discharge device for continuously discharging a predetermined amount of powder such as pulverized coal, cement, wheat flour, limestone.

Conventional rotary powder discharging apparatus of this type has a rotary blade (1) having a plurality of spaces circumferentially partitioned in the passage of the powder as shown in Figs. The rotating shaft 2 of (1) passes through the side cover 4 of the stator 3 and protrudes outwards, and slightly between the stator side cover 4 and the side wall 5 of the rotor blade 1. At the same time, the rotation of the rotor blades 1 is prevented from occurring and at the same time, a shaft sealing device 6 is installed to seal between the stator side cover 4 and the rotor shaft 2 of the rotor blades. As the blade 1 rotates, the powder is discharged downward.

However, in such a conventional rotary powder discharging device, when the powder under pressure is discharged, powder is mixed between the rotary blade 1 and the stator side cover 4, which hinders the rotation of the rotary blade 1. At the same time, abrasion was severe and the shaft sealing device 6 had a problem of invading the powder and shortening the life of the grand packing bearing, etc. Meanwhile, when the powder was discharged by the rotary blade 1, the moisture of the powder Since the powder is compressed by the content and the internal pressure, the powder compressed in the inner space of the rotary blade 1 is compressed by the rotary blade 1 without spontaneously falling down even though the rotary blade 1 rotates to the discharge side. As it is, idling occurs irregularly.

In this way, if the supply of powder is non-uniformly discontinuously, pulsation occurs in the transport pipe, and this phenomenon is unsuitable when blowing the powder into a high pressure atmosphere such as a furnace.

In order to solve this problem, the present invention prevents the intrusion of powder between the rotor blade and the stator to prevent the pinching of the powder and the abrasion of the seal material, and at the same time prevent the residue of the powder attached to the rotor blade. In order to ensure stable discharge of the powder, an air chamber is installed between the rotor blade and the stator side cover to maintain the pressure of the chamber higher than the valve internal pressure so that the powder does not intrude between the rotor blade and the stator side cover. By blowing air from the lower part of the rotor blade to the rotor blade, the powder remaining on the rotor blade can be forcedly dropped.

When explaining the embodiment based on the accompanying drawings as follows.

As shown in FIG. 1, FIG. 2, and FIG. 3, the stator side cover 10 is fixed to the stator 9 with a tightening bolt, and an air chamber 12 is installed inside the stator side cover 10. The ring-shaped seal member 13 is disposed at the boundary between the stator 9 and the rotor blade 7 in the air chamber 12, and the ring member 13 and the inner surface of the stator side cover 10 are disposed between the seal member 13 and the stator side cover 10. The seal material presser 14 is rotated by placing the upper seal material presser 14 and a pressing device 15 having a spring mounted at several positions of the stator side cover 10. 7) so that the air in the air chamber 12 does not flow into the valve so as to be pressed on the side, and the air chamber 12 communicates with the air inlet pipe 16 passing through the stator side cover 10 to the air chamber 12. While maintaining the pressure of (12) higher than the pressure in the valve, while passing through the rotary blade (7) in the lower portion of the air chamber (12) The air inlet pipe 18 having the slits 19 formed on the lower side of the rotary blade 7 so as to be parallel to the rotary shaft 8 of the rotary blade 7 is installed at the same time. The high pressure air in the air chamber 12 in contact with the air outlet port 17 passes through the air outlet port 17 and the air inlet pipe 18 and is blown upward by the slits 19 toward the rotary blade 7. The pressure in the air chamber 12 is to be controlled by the pressure regulator 20 is configured to control the air flow of the air outlet (17). 21 is the shaft sealing part of the rotary blade 7 and the rotating shaft 8, 22 is a packing, 23 is a bearing, 24 is a hopper, and 25 is a conveyance pipe.

The present invention is a rotary powder discharge device having such a configuration, when the powder in the hopper 24 is rotated by the rotary blades 7 and discharged to the transport pipe 25, the air powder 12 is introduced into the air chamber 12 through the air injection pipe 16. While supplying air and controlling the amount of air discharged by the pressure regulator 20, the pressure in the air chamber 12 is kept higher than the pressure in the valve (not shown) to which the rotary blade 7 is rotated. The powder is discharged in the direction of the arrow in FIG. 2, so that the pressure in the air chamber 12 between the rotor blade 7 and the stator side cover 10 is higher than the pressure in the valve. ) Is discharged below the rotary blade (7) by the rotation of the rotary blade (7) without breaking into.

In the present invention, the powder conveyed by the rotary blade 7 may be compressed by internal pressure and adhered to the rotary blade 7 or remain attached to the rotary blade 7 by moisture content. Since air intake pipe 18 is installed at the lower part, air is blown from the slits 19 of the air intake pipe 8 toward the space of the rotary blade 7 so that it remains attached to the rotary blade 7. The powder is forced to fall.

Thus, the present invention is the air injected through the air inlet pipe 16, because the pressure in the air chamber 12 is high, flows into the air inlet pipe 18 and contained the powder contained in the rotary blade 7 above the slits 19. By blowing the air, the powder is confined to a fog state and at the same time, it promotes the fall of the powder, thereby preventing the powder from idling in the state contained in the rotary blade (7) to suppress the pulsation phenomenon.

As described above, in the rotary powder discharge device of the present invention, since the powder does not penetrate between the rotary blades 7 and the stator 9 (powder flakes), the rotation of the rotary blades 7 smoothly and simultaneously Is prevented from remaining attached to the rotary blade 7 to enable continuous and uniform discharge, thereby controlling the amount of powder discharged by controlling the number of revolutions of the rotary blade 7 and powder in the conventional transport pipe 25. There is an excellent effect that can completely prevent the pulsation phenomenon caused by the concentrated drop intermittently.

Claims (1)

The rotating shaft 2 of the rotary blade 1 penetrates through the side cover 4 of the stator 3 and protrudes to the outside, and between the stator side cover 4 and the side wall 5 of the rotary wing 1. In the known rotary powder discharging device in which the shaft sealing device 6 is sealed between the stator side cover 4 and the rotary shaft 2 of the rotary blade 1 with a space therebetween, the rotary blade 7 and An air chamber 12 is formed between the stator side cover 10, and a seal device 13 and 14 is provided at the boundary between the stator 9 and the rotor blade 7, and air is placed above the air chamber 12. The inlet 16 is configured to communicate with the outside, and at the same time, the pressure control device 20 and the outlet 17 are formed in the lower part, and the outlet 17 has an air inlet pipe 18 in which the slits 19 are formed. To be rolled out at the bottom of the rotary blade (7) to maintain the internal pressure of the air chamber 12 higher than the valve internal pressure and at the same time to inject air from the bottom of the rotary blade (7) Rotating the powder discharge apparatus is characterized in that to.