UA70653A - Installation to protect workers against overheatininstallation to protect workers against overheating g - Google Patents

Abstract

The installation to protect workers against overheating includes a screen and a pipe with openings. The screen is arranged as a closed chamber with double walls forming the inner channels and heat-insulated from the outer side, floor and ceiling; it has a system for air shower in the chamber and a cold generator installed in the upper part of the chamber, as a pneumatic turbine connected to the outer source of compressed air and a drop collector connected to the air exhaust of the turbine, this has a pallet and opening for the dried air outlet, this is connected to the channels of the walls and the ceiling of the chamber and through those û to the system of air shower; at that the channels of the back wall are connected to the pallet of the drop collector and the channels of the floor only, the last one has in the front part of the chamber openings for controlled discharge of condensate and worked-out air.

Description

Description of the invention

The invention relates to the mining industry, namely to the problem of protecting workers from overheating in 2 underground mining operations. It can mainly be used in ultra-deep mines and mines in which unacceptably high temperatures and air humidity are observed in workings and pits of mining areas.

A well-known installation for improving thermal conditions in underground mining includes a refrigerator, an air cooler, a coolant circulation system, a refrigerant condensation heat removal system (A.N. Shcherban, O.A. Kremnev. Scientific basis for calculating and regulating the thermal regime of 70 deep mines. - K .: Izd-vo ANU, 1960. - Vol. 2. - p. 36).

The disadvantage of the known installation is excessive capital and operating costs, great complexity in connection with the use of refrigerating machines, the difficulty of operating underground refrigerating installations, extremely low efficiency of air conditioning. The proof of this is the fact that in Donbas, where there are more than a thousand hot holes, none of the known installations are working. 12 The closest in technical substance is a device for protecting workers from overheating in ultra-deep mining, which includes a pipe that brings in cooled air and is distinguished by the fact that it has a screen fixed on the production pipe with holes made in it, placed on the sides of the screen . In addition, the screen is covered on the outside with a material with a high reflective property, and on the inside with a material with a high absorption property of thermal radiation (A. p. 359416, M. Cl. E21E1/00, 1972. -Bull. Mo35).

Disadvantages of the closest device in terms of technical essence: - the screen and the pipe create obstacles in the bottom-hole area of the production, where intensive mining operations are carried out; - the need to remove the screen and pipe from the bottomhole zone for the period of blasting and then return them to the bottomhole zone; - the downhole zone is not sealed and warm and humid air from the production enters it, which worsens the climatic conditions in the working zone; "- the known device does not protect workers from thermal radiation from the surface of the hole and the floor of the production; - the known device does not provide comprehensive regulation of the thermal balance of the workers' body, as it does not stimulate their convective and evaporative cooling.

The basis of the invention is the task of improving the installation to protect workers from dangerous overheating, in which, by introducing other structural features, the possibility of comprehensive cooling of the workers' body using convection, radiation and evaporation is ensured, due to which the thermal balance of the workers' body is rapidly (quickly) normalized. the danger of thermal shock and shock is removed, their well-being improves and their working capacity increases. Ha")

The problem is solved by the fact that in the known device for protecting workers from overheating, which includes a screen and a pipe with holes, according to the invention, the screen is made in the form of a closed chamber with double, - forming internal channels and heat-insulated from the outside walls, ceiling and floor , has an air shower system in the chamber and a cold generator installed in the upper part of the chamber in the form of a pneumatic turbine connected to an external source of compressed air, as well as a drip catcher connected to the air "exhaust" of the turbine, which has a tray and an opening for the exit of dried air, which is connected to 740 channels of the walls and ceiling of the chamber, and through them to the air shower system, and the channels of the back wall are connected only to the tray of the drip catcher and the channels of the floor, which has holes in the front of the chamber for regulated release of condensate and exhaust air . In addition, an autonomous source of compressed air is additionally installed in the chamber, which is connected to the turbine and the air shower system with the help of high-pressure nozzles and air flow regulators, and the chamber is equipped with airtight doors and is mounted on a chassis with the possibility of its movement. 7 This is exactly the combination and mutual location of the interconnected elements of the installation: cameras with double av | walls and channels between them, air shower system, pneumatic turbine, drip catcher and tray provides comprehensive protection of workers from overheating, thermal shock and provides full and quick (operational) thermal relaxation of the workers' body. sl 20 Fig. 1 illustrates the scheme of the installation to protect workers from overheating,

The installation for protecting workers from overheating (Fig. 1) includes: chamber 1, an air shower system c" made in the form of a pipe with holes 2, a pneumatic turbine C, a droplet catcher 4, with a tray 5 and an opening 6 for the exit of dried air and other elements. Pneumatic turbine 3, droplet catcher 4 and tray 5 are located in the upper part of chamber 1. 52 Chamber 1 has double walls: side, front - 7, rear - 8, ceiling 9 and floor 10, which are located in. channels 11. The outer surfaces of the chamber have thermal insulation 12. The channels of the side walls, front wall 7 and ceiling 9 are connected to the drip catcher 4 and air duct 13 of the shower system 2. A hermetic door 17 is installed in the front wall 7 of chamber 1. In the channels of the rear wall 8, baffle plates 60418 are installed to direct condensate to the inner wall of the chamber. Moreover, the channels of the rear wall 8 are connected only to the tray 5 of the drip catcher 4, as well as to the channels of the floor 10, which in the front part of the chamber has holes 19 and a cover 20 for their sealing. The pneumatic turbine Z is connected to the pipeline 21 of the external source of compressed air.

The air outlet 22 of the turbine C (exhaust air outlet in the turbine) is connected to the droplet catcher 4. Because in the chamber 1, an autonomous source 23 (for example, a cylinder) of compressed air is installed, which with the help of high-pressure nozzles 24 and 25, regulators 26, 27, 28 from connected to the pneumatic turbine Z and the air duct 13 of the shower system 2. The camera 1 is installed on the chassis 29 with the possibility of its movement. A seat 31 and a compartment 30 for storing self-rescuers and respirators are also installed in chamber 1.

The installation to protect workers from overheating works as follows. The camera installed on the chassis 29 is placed near the working areas of the mine workings, at a safe distance from the cuttings, and the turbine C is connected to the pipe 21 of the external source of compressed air. Compressed air enters the pneumatic turbine Z through high-pressure pipelines 21 or 24. In the turbine, the compressed air expands, performing the useful work of rotating the impeller. According to the first law of thermodynamics, the energy potential of compressed air 7/0 when it passes through a turbine decreases by the amount of work (mechanical energy) removed from the turbine. This mechanical energy is removed from the turbine by a ventilation stream of air or in some other way.

A decrease in the energy potential of the air expanded in the turbine is manifested in a decrease in its pressure, a decrease in temperature, an increase in its relative humidity (up to 10095) and the condensation of part of the water vapor. At the same time, the condensate has a low temperature. The air used in the turbine together with the condensate enters /5 Droplet catcher 4, where the condensate droplets are separated from the air. As a result of this, the air becomes dry and saturated and through hole b enters the air channels 11 of the ceiling 19 and the side walls of the chamber, and the condensate enters the tray 5 of the drip catcher 4. The air passing through the channels 11 cools the inner surfaces of the walls and ceiling (the surfaces that are turned inside the chamber ). At the same time, the air heats up, and its relative humidity decreases significantly (up to 40 - 5095). Thus, warm and dry air (humidity not higher than 5095) enters the shower system 2, which enters the zone 16 through the nozzles 14.

Condensate from the tray 5 of the drip catcher 4 flows under the influence of gravity into the channel of the rear wall 8.

The deflector plates 18 direct the condensate to the inward-facing wall of the chamber, which is cooled by the condensate flowing down it. After that, the condensate enters the channels of the floor 10, cools its walls and flows out through the holes 19.

The auxiliary autonomous source 23 of compressed air is used in special conditions: in the absence of an external source of compressed air, when it is necessary to increase the air flow in the showering system, when using the camera as a temporary storage in emergency situations in mining operations. For these purposes, the chamber also has compartment 30 for storing additional self-rescuers and respirators.

Thus, the cooling of the body of the workers who are in chamber 1 in the rest area 76 takes place with

Complex: - by convection when blowing the body with air with a temperature lower than the temperature of the body surface; o - by evaporation of sweat from the surface of the workers' body when blowing the body with dry air; Ge - by radiative (radiative) heat exchange between the cold inner surfaces of the chamber and the body of the workers (radiative cooling). at

The use of all the main ways of cooling the body of workers in the chamber ensures a rapid reduction of overheating of the body, thermal relaxation of the body (normalization of thermal balance), which removes the danger of heat stroke, contributes to the restoration of high working capacity of workers.

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Fig. 1

Claims (2)

The formula of the invention » 1. Installation for protecting workers from overheating, which includes a screen and a pipe with holes, which is distinguished by the fact that the screen is made in the form of a closed chamber with double, forming internal channels and heat-insulated walls, ceiling and floor from the outside, has an air shower system in the cell 60 | a cold generator is installed in the upper part of the chamber in the form of a pneumatic turbine connected to an external source of compressed air, as well as a drip catcher connected to the air exhaust of the turbine, which has a tray and an opening for the exit of dried air, which is connected to the channels of the walls and ceiling of the chamber, and through them - to the air shower system, and the channels of the back wall are connected only to the tray of the drip catcher and the channels of the floor, which has holes in the front part of the chamber for regulated release of condensate and exhaust air. 2. The installation according to claim 1, which differs in that the chamber is additionally equipped with an autonomous source of compressed air, which is connected to the turbine and the air shower system by means of high-pressure nozzles and air flow regulators, and the chamber is equipped with a sealed door and is installed on the chassis with the possibility of its movement. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 10, 15.10.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. " (ze) IF) (Se) "c) and - - with . and? -I («c) (o) 1 syu» 60 b5