SU1062149A1 - Powder-gas mixture metering device - Google Patents

Abstract

A DOSING DEVICE FOR POWDER AND GAS MIXTURE, containing a sealed cylindrical container with a lid, in which the intake organ and a nozzle for the introduction of carrier gas are mounted, characterized in that, in order to improve the accuracy and uniformity of dosing and ensure the regulation of the flow rate of the gas mixture, the intake line, in the process, improve the accuracy and uniformity of dosing and ensure control of the flow rate of the gas mixture, and the flow rate of the gas mixture, and the flow rate of the gas mixture, and the flow rate of the gas mixture is injected. in the container and made in the form of a hollow rod with a piston located with a gap relative to the walls of the container; and is attached to the Krischke capacity.

Description

The invention relates to pneumatic conveying and can be used as a metering device in a number of technological processes in the chemical, construction, food industry, in coke-chemical and metallurgical plants, where dosing is one of the basic operations of the technological process. A poroskogovogaz mixture metering device is known, which contains an airtight cylindrical container with a lid in which the intake organ and a branch pipe are inserted. To enter the transporting gas Cl3 "The disadvantages of this feeder include low accuracy and uniformity of dosing, as well as the lack of controllability over a wide range of powder consumption and component ratios. The aim of the invention is to improve the accuracy and uniformity of dosing and ensure the regulation of the flow rate of the gas mixture. The goal is achieved by the fact that the intake organ is mounted with the possibility of movement in the tank and is made in the form of a hollow rod with porin, which is located with a gap relative to the walls of the tank, with this branch pipe for introducing transport gas is fixed on the tank cover. The drawing shows the dosing device schematically, a general view. The dosing device includes a sealed cylindrical container 1 where the powder 2 is loaded. The KEY 3 3 of the container 1 has an opening with a stuffing box 4 in the center and a nipple 5 for entering the carrier gas. Through the hole with the seal 4 in the tank 1 introduced intake body 6. Intake body b, located in the tank 1, made in the form of a hollow rod with porin 7 installed in the tank with a gap. With this design of the intake, the transporting gas is supplied through the nozzle 5 into the container 1 and then through the gap between the wall and the piston enters under the piston, burning a thin layer of powder there. The powder-gas mixture 8 formed at the same time through the intake body 6 is supplied for further transportation. During operation, the intake organ b with the piston 7 moves at a predetermined speed relative to the container 1 from the extreme upper position, corresponding to the pore full load of the container, to the extreme lower position corresponding to the full capacity development. As shown by experiments conducted on a series of powder materials, with this design of the intake organ, the powder consumption is determined only by the linear speed of the piston and does not depend on the flow of carrier gas in a wide range of component ratios, and the accuracy of setting the powder consumption is determined by the accuracy of the linear movement speed pistons

Claims (1)

A POWDER AND GAS MIXTURE DOSING DEVICE containing a sealed cylindrical container with a lid, in which a sampling body and a nozzle for introducing a transporting gas are mounted, characterized in that, in order to increase the accuracy and uniformity of dispensing and to control the flow rate of the powder-gas mixture, the sampling organ is installed. in the tank and made in the form of a hollow rod with a piston located with a gap relative to the walls of the tank, while the pipe for introducing the transporting gas is closed eplen on top of the silo.