SU548511A1 - The mixing chamber of the screw feeder of the pneumotransport unit - Google Patents

Description

Above the airfield 4 in the immediate vicinity there are two blades 7 rotating in a plane parallel to the plane of the airfield. The blades 7 are in the form of a logarithmic spiral and the radius of the blades is equal to the radius of the body of the mixing chamber. At the end of the blade, there is a portion 8 bent in an arc of a circle, with the concave side facing in the direction of rotation. The blades 7 are attached to the sleeve 9. The sleeve 9 is mounted on the shaft 10 and is fixed by the pin I. The shaft rotates in the support mounted in the housing 12 attached to the nozzle 3 of the mixing chamber. The blades 7 are driven through a V-belt transmission pulley 13.

The aerodisk 4, on the side opposite to the loading nozzle 2, has a window 14 and in this place is attached to the cylindrical body 1 by means of a bar 15 bent along the profile of the window. A window 16 is attached to window 14 to remove material particles from the surface of the air bed. The pipe 16 is in communication with the atmosphere through a sluice gate 17. In the wall of the housing 5 from the side of the pipe 16 there are holes 18.

Mixing camera works as follows.

The material supplied by the screw feeder through the loading nozzle 2 enters the cylindrical body 1 at the airfield 4. Compressed air entering through the air inlet nozzle into the body 5, the passage through the airfoil 4, causes the material above it to become fluidized. The aerosol mixture formed in the upper part of the cylindrical body is directed through the discharge pipe to the installation transport pipeline (not shown).

Foreign material inclusions, the removal of which is not ensured by the upward air flow, remain on the airfoil 4, are captured by rotating blades and

by making the blades in the form of a logarithmic spiral with a bend angle smaller than the braking angle of the material (foreign inclusions), move from the center to the wall of the housing 1, get into the curved parts 8 by the ends of the blades and are transferred to the window 14 to the airfield 4, through which they are dumped the pipe 16 and periodically removed through the sluice gate 17. At the same time, the air passing through the apertures 18 from the housing 5 prevents the main material from entering together with the foreign matter in the sluice gate 17. The speed of rotation of the blades 7 reg depending on the amount of foreign matter in the material. With a small content of inclusions, the rotation of the blades may be periodic.

Claims (1)

1. Auth. St. 260498, class In 65 g 53/08, 1969. ; j Fi &.} Power on 1RG.2