PL147064B1 - Heater for heating air being drawn into underground mine areas through a mine shaft - Google Patents

Description

The subject of the invention is a portable heater for heating the air sucked in through the shaft to the mine underground, containing a solid fuel furnace housed in a housing and containing pipes flowing from the outside through the exhaust gas, through which the heated air flows through the pipes, and above the pipes has an opening in the housing for The known heaters for heating the air drawn in through the shaft to the mine underground are steam heat exchangers. These are ribbed pipes or exchangers of other shapes, through which water vapor supplied by the boiler room is passed. The said heat exchangers are installed in the mine shaft or in its upper part directly at the shaft's crest, or are installed in the shaft at several depths adjacent to individual extraction levels. The heat exchangers transfer the heat to the air drawn in through the shaft to the mine underground, which prevents icing of the shaft interior, in particular prevents icing of the guides of the hoist cage or skip. The phenomenon of shaft icing occurs in the period of severe frosts on the surface and causes impediment to the movement of vessels moving in the shaft, in extreme cases it prevents their movement completely. Heat exchangers installed in the shaft prevent this, but they turn out to be ineffective when the air temperature is extremely low. It happens rarely and therefore the heat exchangers installed in the shaft are designed for frosts that occur most often in winter, i.e. moderate frosts, which is justified by the costs of installing and operating the exchangers. Therefore, in case of severe frosts, the exchangers turn out to be insufficient and do not prevent the shaft from icing. In addition, many shafts do not have heat exchangers at all, and even in moderate frosts, icing may occur in these shafts. The object of the invention is to install a heater only when necessary and then removed from the area of the shaft. This heater is to be a supplementary device for heating the air sucked in through the shaft, as, due to the rarely occurring very low temperatures, steam heat exchangers are not able to prevent icing, or it is to be installed when there are no permanent air heating devices in the shaft. This object has been achieved by designing a solid fuel heater which, in the housing containing the fuel firebox, constantly has tubes embedded in the walls of the housing such that the inlets and outlets of the tubes are outside the walls of the heater. Moreover, a series of pipes arranged in one plane in the lower part of the casing form a grate on which the solid fuel burns. These pipes also protrude beyond the walls of the heater, and they extend beyond the same walls of the housing as the pipes located above the furnace * The housing has a hole above the pipes for exhaust gas discharge, and in the lower part it has a door for applying fuel, and below it has an opening for removing ashes, this opening serves at the same time for the flow of atmospheric combustion air into the furnace from below. The heaters are positioned in front of the headroom building in a door opening, for example, so that the inlets of the heater pipes are on the side of the atmosphere and their outlets are directed towards the inside of the headroom building. The heater is placed on the ground and after the period of its use it can be moved to any place away from the headroom building. The heaters according to the invention are shown in the drawing, in which Fig. 1 is a vertical section through the building of the headroom, with the heater shown in the view. at the front, Fig. 2 is a section through the heaters, Fig. 3 is a front view of the heater. The headroom building is located above the shaft 10. In the wall 9 of the headroom building there is an opening 8, for example a door opening. A heater 1 is positioned in the opening 8, with the heater 1 standing outside the building and only one wall covering the opening 8. For this reason, the heater preferably has a rectangular, in particular square, cross-section. The heater 1 has a casing consisting of four vertical walls 7 closed from the top, the gable wall 15 with an opening 16 ended with a chimney 5. In the opposite walls 7a and 7b, pipes 2 are embedded, and inlets 11 and outlets 12 of pipes 2 protrude outside the walls 7a and 7b . The pipes 2 are spaced apart from each other so that there are free spaces between them. In the lower part of the heater, the pipes 7a and 7b are inserted into the walls 7a and 7b. The pipes forming the grate 3 are set on one level, and their inlets 13 and 14 outlets are outside the walls 7a and 7b, respectively. In the wall 7 above the grate 3 there is a door 4 used to apply fuel to the grate 3. Below the grate 3 in one of the walls 7 There is an opening 6 for removing the ash and serving as an inlet of air necessary for combustion. The heater 1 is positioned in the opening 8 of the headroom building so that the outlets of 12 pipes 2 and outlets 14 of the grate 3 pipes are from the inside of the headroom building, and the inlets 11 and 13 are from the atmosphere side. The heaters 1 are set in the opening 8 if it occurs the need to heat the air sucked in through the shaft 10. The fuel burned on the grate 3 heats the pipes 2 and the grate 3. Due to the suction action of the shaft 10, the atmospheric air flows through the pipes 2 and the grate pipes 3 into the top of the building and then into the shaft 10. Air this is heated in the pipes 12 and in the grate 3. When the weather warms up, the heaters 1 are removed from the opening 8.147 064 3 Patent claim Heater for heating the air sucked in through the shaft to the mine underground, containing a fuel furnace permanently placed in the casing and containing pipes , through which the heated air flows, as well as an opening for the discharge of exhaust gases to the atmosphere, characterized in that the pipes (2) are embedded in the walls (7a, 7b), so that their the golden (11) and outlets (12) are located outside the walls (7a and 7b) of the heater (1), with the grate (3) of the furnace forming pipes arranged in one plane and placed close to each other, and the inlet (13) and outlet (14) ) each of these pipes is outside the walls (7a, 7b), but the inlets (11) of the pipes (2) and the inlets (13) of the grate pipes (3) are located on one and the same wall (7b) the heater (1), and the outlets (12) and outlets (14) of the grate (3) pipes are on the opposite wall (7a) of the heater housing • foi147 064 fi92147 064 kB-eee- © ^ -0- © -®-®1 - ¦0-0-0-0-0- -0-0- © -®- © © © © © © © © © q | 7l k Ni f PL

Claims (1)

1. Patent claim Heater for heating the air sucked in through the shaft to the mine underground, containing a solid fuel furnace placed in the housing and containing pipes through which the heated air flows, and an opening for discharge of fumes to the atmosphere, characterized by the pipe (2) are embedded in the walls (7a, 7b), so that their inlets (11) and outlets (12) are outside the walls (7a and 7b) of the heater (1), while the grate (3) of the furnace forms pipes arranged in one plane and close to each other, and the inlet (13) and outlet (14) of each of these pipes is outside the walls (7a, 7b), but the inlets (11) of the pipes (2) and the inlets (13) of the grate (3) pipes are located on the one and the same wall (7b) of the heater (1), and the outlets (12) and outlets (14) of the grate pipes (3) are on the opposite wall (7a) of the heater housing • foi147 064 fi92147 064 kB- eee- © ^ -0- © -®-®1- ¦0-0-0-0-0- -0-0- © -®- © © © © © © © © © q | 7l k Ni f PL