SU1190063A1 - Mine air-conditioning unit - Google Patents

Description

The invention relates to the mining industry and can be used for mine ventilation and air conditioning.

The purpose of the invention is to eliminate salt loss and reduce operating costs.

The drawing shows a schematic diagram of the installation.

The installation consists of a chiller 1 with an evaporator 2, a condensation heat removal system 3 with a pump 4, air coolers 5, a secondary coolant circulation system .6, a high pressure heat exchanger 7 with a discharge valve 8, a primary coolant circulation system (brine) including pipelines 9 for supplying cold and returning heated brine, feed tank 10 with pump 11, tank 12 for preparing brine with pump 13, tank 14 with built-in discharge device 15 for operative measurement of the brine density, filled, for example, in the form of a small container (tray) with an inclined bottom in the direction of the brine movement and an end wall for overflow. A densimeter is installed in the tank to monitor density. The container is included in the dissection of the circulation brine system from the side of its entry from the evaporator 2 into the supply tank 10 and is connected to the brine preparation tank 12 with a siphon 16.

The pipelines are equipped with shut-off valves 17-21 and a regulating valve 22. On the pipeline connecting the discharge port 23 of the pump 4 to the discharge port 24 of the pump 11, a plunger 25 is installed.

The installation works as follows.

If it is necessary to repair the cold supply pipelines 9 and the return of the heated brine, located in the mine shaft, stop the operation of the refrigerating machine 1, the circulation systems of the primary and secondary coolant.

Close the gate valve 17 on the discharge pipe of the brine circulation pump 11, open the gate valve 18 connecting the discharge pipe of the pump 4 of the circulation system 3 for condensation heat removal, and close the gate valve 21 of the same system.

Close the shut-off valve 19 of the circulation brine system on its intake side from the evaporator 2 to the supply tank 10 and open the shut-off valve.

a valve 20, thereby including a container 14 in cutting the brine circulation system. Start the pump 4 and replace the brine in the pipelines 9 with water from the cooling tower tank.

When this brine enters the tank

14 through an integrated waste device 15 of an operational measurement of the brine density, with the help of which the brine density is continuously monitored, followed by its overflow into the booster tank. Measurements of brine density in the waste device give accurate data corresponding to the brine density and in the pipelines 9. As soon as the brine density in the waste device 15 begins to fall, this means that almost all the brine

0 entered the tank 14, the pump 4 is turned off so as not to reduce the density of the 9 brine collected from the pipelines. The shut-off valve 18 is closed and the drain valve 8 is opened, water is released into the mine workings out of the pipelines 9 and repaired or replaced. When the water is discharged, to prevent the formation of a vacuum in the pipelines 9, a air valve 25 is provided through which air is leaking. Then the relief valve 8 and

- gate valve 20 closes and opens gate valves 17 and 19, after which the circulation system is ready to be filled with brine. To do this, start the pump 1 1 and fill the pipelines 9 from the supply tank 10 with brine. After

J lowering the brine level in the supply tank below the allowable pump 11 is turned off and the control valve 22 of the siphon 16 is opened, the brine preparation tank 12 is filled, the required brine density is checked and set.

0 Turn on the pump 13 and pump the brine into the supply tank 10. This operation is repeated until all the brine from the tank 14 is pumped into the supply tank 10. The presence of a siphon allows the brine to be completely transferred from the tank to the brine preparation tank, as necessary, without additional pump or other devices.

Claims (1)

) 57) MINING AIR CONDITIONING UNIT, including a refrigeration machine with an evaporator, a condensation heat removal system with a pump, a primary coolant circulation system consisting of cold supply pipes and a return of heated brine and a pump, a secondary coolant circulation system with a heat exchanger, a flow tank, a brine preparation tank with a pump and discharge nozzles of pumps, characterized in that, in order to eliminate salt losses and reduce operating costs, it is equipped with and a tank with a built-in device for quickly measuring the density of the brine and its discharge, a siphon and a plunger, while the tank is connected via a siphon to the primary cold brine pipe at the evaporator and to the brine preparation tank, and the discharge pipe of the primary coolant brine circulation pump is connected to the pump discharge pipe heat dissipation condensation and plunger.