SU1761948A1 - Device for dry dust catching in thermal drilling - Google Patents

Abstract

Usage: mining industry to increase the efficiency of cleaning high-temperature gases from dust during thermal drilling. SUMMARY OF THE INVENTION: The device has a vortex apparatus with inlet and outlet nozzles, a fan, a dust-receiving umbrella, a dust collection bin and a cylindrical cyclone with an inlet and outlet nozzles. The outlet of the cylindrical cyclone is combined with the inlet of the vortex apparatus, and its inlet is in communication with the cavity of the dust-receiving umbrella. The diameter of the outlet of a cylindrical cyclone is 0.6-0.8 of the diameter of its body. An additional dust collection bin is hermetically attached to the bottom of the cylindrical cyclone. 1 hp f-ly, 1 ill.

Description

The invention relates to mining, in particular to dust collection during thermal drilling, and can be used in other areas where a high degree of purification of high-temperature gases from dispersed hydrophobic dust is required.

A dust removal unit is known, in the casing of which the reflectors and confusors are hollow and filled with liquid, and the internal cavities of the reflectors are in communication with the irrigation nozzles. Such a design increases the degree of gas purification, but does not reduce its temperature, which reduces the durability of the device.

The closest to the invention of the essentially solvable problem is a device for dry dust removal during thermal drilling, which includes the body of the vortex apparatus, the inlet and the outlet

nozzles and a dust collection bin, which is equipped with a fan with atmospheric air inlets, the inlet and outlet nozzles are located along the axis of the housing, and the atmospheric air inlets are installed tangentially - one in the upper part of the housing, and the other can be provided with an annular chamber at the level of input of the tangential nozzle. The tangential entry of atmospheric air creates a tangentially rotating curtain of cold air along the walls of the body, increasing its durability.

A disadvantage of this device is the primary swirling of the high-temperature gas-dust flow by supplying atmospheric air to the inlet branch pipe, which entails an increase in the total flow rate.

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gas through the device, hence its size and metal.

The purpose of the invention is to increase the efficiency of the device and reduce its metal consumption by reducing the air-dust load on the vortex apparatus.

The goal is achieved by the fact that a device for dry dust removal during thermal drilling, comprising a housing of a vortex apparatus, the inlet and outlet of which are placed along its vertical axis, a fan with a tangential nozzle for supplying atmospheric air to the upper part of the housing, a dust-receiving umbrella and a collection bunker dust, equipped with a cylindrical cyclone, the outlet of which is combined with the inlet of the housing of the vortex apparatus, while the inlet of the cylindrical cyclone communicates with the cavity n The diameter of the outlet tube of the cylindrical cyclone is 0.6-0.8 of the diameter of its body, in addition, it is equipped with an additional dust collection hopper, tightly attached to the bottom of the cylindrical cyclone body.

The device is shown schematically in the drawing.

A fan 2 with a tangential nozzle 3 is installed on the dust-receiving umbrella 1 for supplying atmospheric air to the upper part 4 of the vortex unit 5. The vortex device 5 is equipped with a nozzle 6 for transporting the collected dust by gravity to the dust collection hopper 7. Inlet 8 of the cyclone cyclone 9 communicated with the cavity of the dust-receiving umbrella 1, an additional dust collection bin 11 is tightly attached to the lower part of the body 10 of the cylindrical cyclone 9, the outlet nozzle 12 of the cylindrical cyclone 9 is aligned with the inlet 13 to the orbit of the vortex apparatus 5 and is placed on the same axis with the outlet of the housing 14 of the vortex apparatus 5.

A device for dry dust removal during thermal drilling works as follows.

An air-dust stream with polydisperse dust from the cavity of the dust-receiving umbrella 1 flows through the inlet pipe 8 into a cylindrical cyclone 9, in which the flow is unwound due to tangential entry and large fractions of dust are deposited along the walls of the cyclone 9 into an additional dust collection bin 11, hermetically attached to the lower part of the body 10 of the cylindrical cyclone 9. The swirling air-dust flow with fine dust through the outlet 12, combined with the inlet 13, enters the housing of the vortex apparatus 5. Here it is It acts with atmospheric air from the fan 2, the tangential tangential pipe 3 tangentially twisted in the upper part 4 of the housing of the vortex apparatus 5, receives an additional acceleration of rotation and is cooled. This reduces the viscosity and carrying capacity of the flow, contributes to the condensation of moisture on dust particles and facilitates their separation by centrifugal forces from the high-temperature flow to the walls of the vortex apparatus 5. Separated fine dust through the nozzle 6 enters the dust collection bin 7, and the cleaned air through the outlet 14 is vented to the atmosphere.

Output diameter ratio

0 nozzle and the case of a cylindrical cyclone 1: (0.6-0.8) were determined experimentally: outside of this ratio, the trapping ability decreases 1.5-2 times. Pre-cleaning of the air-dust flow from large dust particles increases the trapping ability of the vortex apparatus by 15-20%, and the exclusion of the supply of atmospheric air to the inlet of the vortex apparatus reduces the total dust-air load on the vortex apparatus and reduces the metal intensity of the device. In addition, a major shortage of vortex devices is eliminated - clogging of the primary injection of dispersed

5 material when working on variable modes, turning them into a conventional cyclone with the same technological characteristics.

Thus, the combination of output

0 pipe of a cylindrical cyclone with an inlet pipe of the housing of the vortex apparatus increases the trapping ability and reliability of the device for dry dust collection during thermal drilling,

5 reduces its metal intensity, thereby increasing its technological and environmental characteristics.

Claims (2)

1. Device for dry dust removal during thermal drilling, including the housing of the vortex apparatus, the inlet and outlet of which are located along its vertical axis. a fan with a tangential nozzle for supplying atmospheric air to the upper part of the housing, a dust receiving umbrella and a dust collection bin, characterized in that in order to increase the efficiency of the device and reduce its metal intensity by reducing the air-dust load on the vortex apparatus, it is equipped with a cylindrical cyclone, the outlet is connected to the inlet of the housing of the vortex apparatus, the inlet of the cylindrical cyclone communicates with the cavity of the dust-receiving umbrella, and the diameter of the outlet of the cylindrical cyclone is 0.6-0.8 of the diameter of its body. 2. The device according to claim 1, characterized in that it is provided with an additional dust collection bin, tightly attached to the lower part of the cylindrical cyclone body.