DE181896C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 181896 CLASS 24 ^. GROUP

Patented in the German Empire on May 7, 1905.

The invention relates to a furnace for steam boilers, heating systems, d. H. that is, one that consumes a large amount of fuel. The essence of the invention consists in the fact that with such a furnace the already known in blast furnaces, tangential air supply from all sides is arranged for the purpose of to bring about a perfect combustion of the fuel, to prevent smoke formation and to achieve a significant saving in fuel.

The air currents that are tangential to one imagined in the center of the fire box Circle into the space, which is arranged above the grate carrying the fuel, meet those from the fuel Soaring unburned gases and fuel particles set them up in a hurry Rotation and cause an intimate mixture of the gases with the air. The rotating or cyclonic movement of the The centrifugal force caused by the gas and air mixture hurls the heavier unburned ones Pieces of fuel face out against the hot walls of the firebox, where they quickly burned will.

The device for the air supply can be designed in different ways. One those that have proven themselves in practice are shown in the drawings.

Fig. I is a vertical longitudinal section according to • I -I in Fig, 2,

Fig. 2 is a horizontal section according to H-II in Fig. I, ".

Fig. 3 is a cross section according to III-III in Fig. Ι seen from the front;

Fig. 4 is a horizontal detail section along IV-IV in Fig. 3;

Fig. 5 is a plan, partial section, 40 of the air supply chamber removed from the oven; and

Figures 6, 7 and 8 are elevations of the front, rear and two side walls thereof.

In the drawing, the furnace according to the invention is, for example, in connection drawn with a steam boiler 1. . The furnace has a right-angled fire box 2, a grate 3, ash case 4, filling channels 5 with doors 6 and 7. A little above the grate 4 is the air chamber 8 in the Walls of the fire box 2 built in. This air chamber consists of several parts 9, 10, 12, 13, 14, 15 (see Fig. 5, 6, 7 and 8), that are connected to each other. The front part of the air chamber 8 consists of two according to parts 12 and 13 curved at the top (Fig. 6) and the rear part from the two parts 14 and 15 (Fig. 7). Nozzles 16 are seated on the inner walls of the air chamber 8. The nozzles one row are offset from that of the other row. Each of the nozzles 16 is tangential to an imaginary circle 17 in the middle of the fire box (Fig. 5) directed so that air currents in through them

go in the tangential direction after the circle 17 (dotted lines Fig. 5). Above the air chamber 8 protrudes from the walls of the fire box individual stones 18. These immediately become glowing and cause the immediate burning of those hurled against them unburned particles of fuel. The outer walls of the air chamber 8 are made of refractory bricks 19 (Fig. 1 and 3) protected from excessive heating. The air chamber 8 is through a valve provided, connected to the nozzle 11 Tube 20 (Figs. 2 and 5) provided with air. A valved pipe 21 can charge the air chamber 8 with hot air. This tube 21 is available with a number of Heating coils 22 in connection, which are under the boiler at the rear and be heated by the exhaust gases from the furnace. The individual parts of the air chamber have slides 23 with handles 24. These slides are used to regulate the amount of air to be supplied to the nozzles 16. Sometimes it is desirable to reduce the amount introduced at the front of the fire box Decrease air. The greater amount of air introduced at the back of the firebox is. then strive to Hold gases in the fire box until they are completely burned. The vortex movement inside the fire box is also regulated in such a way that it escapes too quickly prevents the gases and fuel particles escaping from the fuel. This way the gases will be in the for so long Fire box withheld until all combustibles are consumed and the generated Heat has been fully utilized for steam generation. The one after the chimney Exhausting combustion products escape almost free of smoke and soot.

If the loading doors are opened in the previous combustion systems, so the influx of cold outside air takes place to such an extent that the firebox and boiler wall as well as the tubes are temporarily cooled so that the in the gases contained carbon is deposited as soot, which then later from the combustion products is carried away and causes clouds of black smoke to rise from the chimney. Through the whirling motion the supplied air, the inflow of cold air into the firebox is prevented and consequently such Avoided smoke formation. If necessary, you can still adjust the amount of through the nozzles Select the air supplied so that there is a slight overpressure in the fire box and thus the entry of cold outside air through the open doors is reliably prevented will.

To prevent the steam boiler from being swept by cold air, you can in a known manner the masonry under each of the curved parts 12 and 13 above the grate 3 one. Continue the stretch far into the firebox and in this way Form screens 25, which have the effect that air entering through the doors in the Eddy current of the gas and air mixture is drawn in. These umbrellas are advantageously provided with many small holes 27 through which a sufficient amount the hot gases pass through to keep them at a high temperature and soot build-up to prevent.

Small sample tubes 28 extend through the wall from each side of the air can. They are equipped with valves 29 and are used at any time in any part the chamber to measure the pressure and temperature. The influx of air from the various Parts of the chamber can then be regulated with the aid of the slide 25.

The cross section of the air supply tunnel 11 should be slightly larger than the overall cross section of the nozzles, in such a way that there is always a slight overpressure in the firebox and the air from each nozzle exits with the same pressure.

Claims (2)

Patent Claims: 1. Air supply device for furnaces with high fuel consumption, like boiler furnaces and heating systems, with one surrounding the fire box, Channel serving to receive the combustion air to be supplied, characterized in that the inner walls this channel (8) directed tangentially to an imaginary circle in the fire box Nozzles (16) are provided. 2. Air supply device according to claim ι, characterized in that the air supply channel surrounding the fire box (2) as a closed, composed of several interconnected parts existing chamber (8) is formed, the individual parts of which are provided with slides (23). 1 sheet of drawings.