SU1461990A1 - Arrangement for investigating natural draft in mine workings - Google Patents

Abstract

The invention relates to mining. The goal is to improve the accuracy of the determination of natural depression and reduce the labor intensity of research. The device contains a simulator of mine workings in the form of an air duct (c) 7, the parallel branches 8 of which are symmetrically mounted on two vessels 1 and 2 filled with a simulator of rocks. The latter is connected to B 7. The branch x 8 contains a measuring device on the tube 9 in the form of a coil. In vessel 2, the main 4 and additional 5 heaters are evenly distributed along its height. The branches 8 are V-shaped. The ends of the branches of 8 vessels 1 and 2 are interconnected and with the fan. Due to the identity of .tr in any branch 8, at any expenditures passing through B 7, the scope for studying natural thrust expands, and any regulation of the filler t-ry in the vessel also contributes to this. Achieved full imitation / and natural aerodynamic modes of ventilation of mines, 1 Il. S (l

Description

The invention relates to mining, in particular to devices for the study of natural traction arising in mine workings.

The purpose of the invention is to increase the accuracy of determining depression of natural traction and reduce the complexity of research.

The drawing shows the rods for the study of traction.

The device consists of and 2, aggregate 3, simulating rocks. In the vessel 2, the main 4 and additional 5 electric heaters are located evenly along its height. In order to reduce heat transfer, the walls of the vessels 1 and 2 are covered with thermal insulation 6. An air duct 7 is parallelly passed through the filler 3, the branches 8 of which are made V-shaped, in which the measuring tube 9 is formed, forming a coil. In the vessel 2, contact thermometers 10 are installed, which control and regulate the temperature of the filler 3. To control the temperature of the air entering and leaving the device: | thermometers 11 have been updated. To monitor the temperature of the aggregate 3, thermometers 12 are installed in the vessels. There are fittings 13 for connecting to a micromanometer. There is a fitting 14 for connecting a fan and an air conditioner (not shown).

The device operates as follows;

The heaters 4 and 5 are turned on, the operating mode of which is set by contact thermometers 10, in accordance with the task of the study. After the time required to stabilize the mode, the fan is turned on, and air is supplied to the duct 7 with a given flow rate and constant temperature.

The magnitude of thermal depression is measured using a micromanometer connected to the measuring tube 9 in a stationary mode for a given air flow.

$ The temperature of the air entering and leaving the device is monitored by 1 1 thermometers.

ed The temperature control of the thermal regime of vessel aggregates 1 and 2 is carried out with thermometers 12. $ ·.

Due to the identity of temperatures 15 in any branch of the duct at any flow rate of air passing through the duct, the area of natural draft research expands, and any regulation of the temperature of aggregate 3 in the vessel 2 contributes to this as well. A complete simulation of the full-scale aerodynamic regimes of mine ventilation is achieved.

Claims (1)

Claim A device for studying natural draft in mine workings, including a mine simulator 30 in the form of an air duct, the parallel branches of which are symmetrically mounted in two vessels filled with a rock simulator connected to a fan duct, a measuring tube in the form of a coil placed in the duct branches, and a heater located in one of the vessels, characterized in that, in order to improve the accuracy of 40 'determine the depression of natural traction and reduce the complexity of research, the device sn bzheno dor heater additionally installed uniformly adjustment sosu45 and containing main heater and the branch duct are made V-shaped, the ends of each of the vessel branches are connected together and to the fan.