SU765149A1 - Air-dynamic dosing closure for handling loose materials - Google Patents

Description

one

The invention relates to pneumatic discharging devices and can be used by the EG of metallurgy, chemical, food and other industries for dosing the supply of bulk materials.

A continuous dispenser is known, comprising a housing with a convex aperture, a porous partition, an air chamber located under it. And a JT | .

The disadvantages of such a metering device are considerable difficulty, and sometimes the impossibility of keeping certain types and fractions of plastics in suspension, the complexity of design, the need to supply a significant amount of gas, dust removal in the area of the outlet.

Also known aerodynamic gate dispenser bulk materials, comprising a housing with a discharge pipe, a nozzle for feeding compressed gas into the housing and a feeder 2 located under the discharge pipe.

The drawbacks of such a metering device are low metering accuracy; material and precipitation in the zone you

the course of the material from the discharge pipe.

The purpose of the invention is to improve the accuracy of dosing and reduce dust emission when unloading material.

This is achieved by the fact that the dispenser is provided with a baffle installed inside the housing so that between it and one of the side walls of the housing there is a venting channel, and the housing has a horizontal wall connected to the inlet of the discharge nipple connected to the other. the side wall of the hull, diametrically but opposite to the bump stop, with the bump stop mounted above the horizontal wall at such a distance that the angle formed by the plane of the horizontal wall and the surface of the slope

20 material, less than the angle of repose of the material. The nozzle is built into the side wall mentioned diametrically opposite the bump stop, above the horizontal wall, parallel to the wall

25 slides, and the distance from its cut to the edge of the inlet of the discharge nipple is equal to the length of the circulation zone when the minimum amount of gas is supplied through the nozzle, and outside

thirty .

shell installed cleaning device, communicated with the vapor pipe.

In addition, the vapor channel and the inner surface of the discharge pipe are in the form of a flat confuser. In this case, the baffle may have in the longitudinal section a shape or a polyhedron, or a circle, or an ellipsoid, elongated along the longitudinal axis of the exhaust duct.

The drawing shows schematically the derodznamichesky batcher of bulk materials, a general view.

The dispenser includes a housing 1, a bump stop 2 installed so that the angle about formed by the horizontal wall 3 of the housing 1 with the surface of the slope of the bulk material, the tangent of the bump stop 2 and the wall edge 3 is less than the angle of repose of the material, which prevents spontaneous release of material. On the contrary, the holes and height h, formed by the lower part of the baffle 2 and the wall 3 of the housing 1, through which the material enters the inlet b of the discharge pipe 4, the nozzle 5 is installed in the side wall of the housing 1. The cannon enters the housing 1 and is connected to the cleaning device 61. At the entrance to the gas supply duct, an ejection nozzle 7 is installed in the wall of the housing 1. A belt conveyor 8 is installed under the discharge nipple.

The distance from the cutoff of the nozzle 5 to the edge of the inlet b of the discharge port 4 is equal to the length of the circulation zone when the minimum amount of gas is supplied through the nozzle. The vapor channel in and the inner surface of the discharge pipe 4 are in the form of a flat confuser.

The baffle in the longitudinal section can have the shape of either a polyhedron such as a triangle, or the shape of a circle, or an ellipsoid stretched along the longitudinal axis of the channel.

Aerodynamic gate dispenser, bulk materials works as follows.

Through a nozzle 5, the amount of gas corresponding to a predetermined material flow rate is supplied to the housing 1. In this case, a circulation zone is formed in front of the nozzle 5, which provides the flow of bulk material through the opening a to the inlet opening b and then to the belt conveyor 8. An increase in the amount of gas supplied causes an increase in material consumption, and the gas supply is turned off. Dust-laden gas from the zone of the aperture and the discharge pipe 4 enters the exhaust pipe and into the cleaning device 6. By accelerating the gas flow during movement

A negative pressure is created in the narrowing part of the gas exhaust duct, which facilitates the ejection of the dusty gas from the lower part of the discharge port 4.

In the case of the release of highly dusty materials or, if necessary, the elimination of dust emissions for other reasons (toxicity of dust, etc.), compressed air is supplied through the ejecting nozzle 7, which allows a significant increase in dust removal in the lower part of the discharge nozzle 4.

Claims (5)

1. An aerodynamic gate-dozy bulk materials containing a housing with a discharge pipe, a nozzle for feeding compressed gas into the housing and a feeder located under the discharge pipe, characterized in that, in order to improve metering accuracy and reduce dust emission during material unloading, it is equipped with a screening device installed inside the body so that between it and one of the side walls of the body there is a vapor channel formed, and the body has a horizontal wall connected to the inlet opening of the discharge nipple with the other side wall of the housing diametrically opposed to the bump stop, the bump stopper being installed above the horizontal wall at such a distance that the angle formed by the plane of the horizontal wall and the slope surface of the material is less than the angle of repose of the material, while the nozzle opposite to the bump stop the side wall above the horizontal wall parallel to the latter and the distance from its cut to the edge of the inlet of the discharge pipe is equal to the length of the circulation zone nph supplying a minimum amount of gas through a nozzle, and a cleaning device, which is connected to the gas outlet channel, is installed outside the casing. 2. Shut-off valve according to claim 1, characterized in that the venting channel and the inner surface of the discharge pipe have the shape of a flat confuser. 3. Locking dispenser on PP-. 1 and 2, characterized in that the baffle has a polyhedron shape in longitudinal section. 4. Locking dispenser on PP. 1 and 2, characterized in that the baffle has a circle shape in longitudinal section. 5. Locking dispenser according to claims 1 and 2, characterized in that the bump has a longitudinal section the shape of an ellipsoid extending along the longitudinal axis of the exhaust duct. Sources of information taken into account in the examination certificate of the USSR 01 G 11/08, 1973. Certificate CCGP 65 G 65/30, 1976