RU173068U1 - DEVICE FOR PNEUMATIC TRANSPORTATION IN PISTON MODE OF LARGE-GRAIN AND BULK MATERIALS FROM THE BUNKER - Google Patents

Abstract

The invention relates to devices for pneumatic transportation of materials and can be used in various industries, including metallurgical production for pneumatic transportation in a piston mode of charge coarse-grained and lump materials of wide particle size distribution, mainly for blast furnace loading. The device contains a shutter made with the possibility of installation on the neck of the hopper, a loading unit connected by an inlet to the outlet of the shutter A source of compressed air and the transport duct, the initial portion of which is associated with the boot block. In this case, the device is equipped with aerators installed on the inlet pipe and the initial section of the transport pipeline, and the said shutter is made in the form of a sector shutter with a rotary arcuate shutter installed with a gap relative to the end of the neck of the hopper. The loading unit and aerators are connected to a source of compressed air. Using the utility model makes it possible to increase the reliability of pneumatic conveying of coarse-grained and lumpy materials of wide particle size distribution in a piston mode by ensuring its uninterrupted operation. 2 ill.

Description

The utility model relates to devices for pneumatic transportation of materials and can be used in various industries, including metallurgical production for pneumatic transportation in a piston mode of coarse-grained and lumpy materials of wide particle size distribution, mainly for blast furnace loading.

A device for pneumatic transportation in a piston mode of coarse-grained and lump materials from a hopper, comprising a shutter configured to be mounted on the neck of the hopper, a loading unit connected by an inlet pipe to the outlet part of the shutter, a compressed air source and a transport pipeline, the initial portion of which is connected to the block downloads (RU 2534667 C2, B65G 53/04, 12/10/2014). The specified device is accepted as the closest analogue.

The disadvantage of this known device is the low reliability of its operation for reasons of possible jamming of the shutter by pieces of transported material, as well as jamming of the material in the pipeline.

The technical problem to which the utility model is directed is the creation of a device that ensures uninterrupted transportation of materials with a wide particle size distribution by eliminating jamming of the shutter and material jamming in the inlet pipe and the initial part of the transport pipeline.

The technical result provided by the claimed utility model is to increase the reliability of transportation of coarse-grained and lumpy materials of a wide particle size distribution, supplied as a charge to metallurgical production units.

To solve this technical problem, a device is proposed for pneumatic transportation of coarse-grained and lumpy materials from a hopper in a piston mode, comprising a shutter configured to be mounted on the neck of the hopper, a loading unit connected by an inlet pipe to the outlet of the shutter, a compressed air source and a transport pipeline, the initial a section of which is connected with the loading unit, while the device is equipped with aerators installed on the said inlet pipe and the initial section of the tra Sportna pipe, and said closure is made in the form of a sector with a shutter rotatable arcuate valve installed with a gap relative to the end face of the hopper mouth, wherein the unit load and aerators connected to said source of compressed air.

The utility model is illustrated by drawings.

In FIG. 1 shows a General side view of the claimed device.

In FIG. 2 shows a construction of an aerator mounted on the inlet pipe of the loading unit, in section.

The device for pneumatic transportation contains a shutter 1, configured to be installed on the neck of the hopper 2, a loading unit 17, connected by an inlet pipe 18 to the outlet part 19 of the shutter, a compressed air source (not shown conventionally) and a transport pipeline, the initial section 15 of which is connected with the block loading 17. The shutter 1 is made in the form of a sector shutter with a rotary arcuate shutter 4 mounted on the cheeks 3 with the possibility of opening / closing the outlet neck of the hopper 2 and with a gap "a" relative to the lower end of the neck in the position of its overlap. The shutter 1 is placed in a hermetically sealed housing 5, on which the axis 6 with the cheeks 3 placed on it is pivotally mounted.

Aerators 14 and 9 are installed on the inlet pipe 18 and the initial section 15 of the transport pipeline. The aerator 14, which is built into the wall of the inlet pipe 18, can be made, for example, in the form of a base 20 with a cover 21, between which a perforated insert 22. A pipe 12 installed in the cover 21 is connected to a source of compressed air.

The aerator 9, located in the initial section 15 of the transport pipeline, can be made, for example, in the form of a perforated segment of a hose 8, closed on one side by a plug 7, and the other end through a pipe segment 10 and a flange 11 with a pipe 13 connected to a source of compressed air.

The device operates as follows.

Upon receipt of a command to open the shutter 1, its shutter 4 rotates on the axis 6 and opens the outlet neck of the hopper 2 for gravitational discharge of the charge material through the inlet pipe 18 and the loading unit 17 to the initial section 15 of the transport pipeline, while there is a gap “a” between the end of the neck hopper 2 and shutter 4 prevents jamming of the shutter with pieces of transported material. At the same time, compressed air is supplied to the aerators 14 and 9 to prevent the material from becoming stuck in the pipeline and its reliable formation in the form of a single “piston”. This is especially important when transporting charge materials having a large angle of repose and a high coefficient of internal friction.

After the loading of the initial section 15 of the transport pipeline is completed, the shutter 1 is closed and compressed air is supplied through the nozzle 16 of the loading block 17 to the initial section 15, under the influence of which the charge material moves in the form of a single “piston” formed through the transport pipeline for its discharge into the metallurgical unit, for example in a blast furnace. Next, the download cycle is repeated in a similar manner.

The use of this device allows to increase the reliability of pneumatic transportation in the piston mode of coarse-grained and lumpy materials with a wide particle size distribution due to its uninterrupted operation.

Claims (1)

A device for pneumatic transportation of coarse-grained and lumpy materials from a hopper in a piston mode, comprising a shutter configured to be mounted on the neck of the hopper, a loading unit connected by an inlet to the outlet of the shutter, a compressed air source and a transport pipeline, the initial portion of which is connected to the loading block , characterized in that it is equipped with aerators mounted on said inlet pipe and the initial section of the transport pipeline, and said shutter nen a sector shutter rotatable with the arcuate shutter, installed with a gap relative to the end face of the hopper mouth, wherein the unit load and aerators connected to said source of compressed air.

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