SU1346540A1 - Aerodynamic chute for conveying granular material of different particle sizes - Google Patents

Abstract

This invention relates to pneumatic conveying of bulk materials. The purpose of the invention is to increase productivity. The aerodynamic chute contains a gas distribution grid 5, which, from the side of the receiving container 3, is made in the form of a grid 7 tilted in the direction of this capacity. The tank at the junction with the gas distribution grid is equipped with a rotary valve 8. At the same time, the surface of the transport channel 1 above the grid 7 and the receiving tank 3 is curved and has a sickle shaped 9 in a longitudinal vertical section in the direction of the grid. The outlet of the gas 6 is mounted on the grid with its bottom side. 1 il. (L / / Gas on J pnevmo-transport Gas with Jacm. 9 .. /, (U - /. -.,., I .-.,.. С .., /.,. -. (F, J Y U &. With Oi SL N O wX XV - o o Gas exhaust Vygr1 / zka mat Yer ala

Description

This invention relates to a pneumatic conveying system, namely to air chutes for transporting a polydisperse material.

The purpose of the invention is to increase productivity.

The drawing shows the aerodynamic chute, a general view.

Airgel contains a transport channel 1 connected to the feed neck

In the transport channel 1, a part of the finely dispersed material, which is located in the gas flow, is dropped by the flow onto the sickle-shaped wall 9 of the transport channel 1 and slides along it into the material loading unit. The remaining part of the material in the gas flow is delayed by the passage of gas through a layer of dense transportable material 11, which crawls to the discharge unit.

Noah 2 and receiving tank 3, gas distribution-Yu (on an inclined grid 7). The height of the layer is the dense channel 4, located under the transport of transported material 11 by the oral channel 1 and communicated with it: through the regulating valve 8. the gas distribution grid 5, the branch pipe The exhaust gas is removed through the patron 3 for gas removal. Side 6 for removal gas under the grid- Gas distribution grid 5 with the cost 7. of the receiving tank is made in the form

Claims (2)

Invention Formula grid 7 and tilted in the direction of the receiving tank 3, which at the point of connection with the gas distribution grid 5 is equipped with a rotary valve 8 to partially block its inlet. The surface of the transport channel 1 above the grid 7 and the receiving tank 3 is made curved with the formation in the longitudinal vertical section of the sickle shape 9, Aerodynamic chute for transporting a granular polydisperse material containing a transport channel connected to the feed neck and receiving tank, a gas distribution channel located under the transport channel and communicated with it through the gas distribution section of the inverted concave part to the side grid and branch pipe for tap ki 7. gas, characterized in that, in order to increase productivity, the gas distribution grid on the side of the receiving tank is made in the form of a grid filled to the side of this tank, which is in place. connections to the gas distribution sieve are supplied to the gas distribution channel 4, which is equipped with a rotary valve to partially block its inlet, the surface of the transport channel above the grid and receiving tank is curvilinear to form a fine fraction of polydisperse material. a sickle facing the concave part of the material 10 with the protective layer 10 and is carried away around the grid, and the gas outlet pipe with exhaust gas behind above the layer, it is confined on the grid from the bottom of it. Nozzle 6 for the removal of gas is mounted on the grid 7 from the bottom of it. The wind chute runs sleduproid through the gas distribution grid 5, it transports the polydispersed material that comes from the loading neck 2. During transportation In the transport channel 1, a part of the finely dispersed material, which is located in the gas flow, is dropped by the flow onto the sickle-shaped wall 9 of the transport channel 1 and slides along it into the material loading unit. The remaining part of the material in the gas flow is delayed by the passage of gas through a layer of dense transportable material 11, which crawls to the discharge unit. (on an inclined grid 7). The height of the layer of dense transportable material 11 is set by the adjusting flap 8. The exhaust gas is removed through the side flue 6 to discharge the gas under the net 7. An aerodynamic chute for transporting granular polydisperse material containing a transport channel connected to the feed neck and receiving tank, a gas distribution channel located under the transport channel and communicated with it through the gas distribution system.