DE309726C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

There is a known device used in sectional boilers with lower burn-up in that the glowing gases are discharged into channels close to the grate. Most of them of the known designs, the embers flow through the chimney, following Smoke channels of the articulated boiler, in that they give off heat there.

A complete combustion cannot, however, be achieved with such an arrangement can be achieved, on the one hand because in the narrow smoke ducts for free flame development

. necessary space is missing, on the other hand because the water filling the limbs the walls of the Cools channels deep below the level of heat required for a perfect fire.

Other designs seek to advance on this, in so far as the one below The ember gases discharged do not immediately enter narrow smoke ducts, but rather through guide ducts into one above the filling shaft into which the carbonization gases rising from the filling shaft reach draw. The mixture of glowing and smoldering gases then flows off through smoke channels. But even here a complete combustion cannot take place because of the guide channels . · .-:.: Much too high, namely near the ceiling of the above the filling chute

flow in, cool down there without they have the space they need for complete combustion.

In the main types of articulated boilers described with lower burn-up, the The fire is only sustained by the amount of air that is created by the free grate surface between the Fuel arrives.

But there are also boiler firing systems which the fire is supplied with partly cold and partly preheated additional air. The additional air 40 ■ but, if it is to have a favorable effect, it must not simply enter the room where the perfect combustion should take place, but the arrangement must be so made that the additional air is first mixed with embers and flue gases and preheated and the preheated mixture is combined with the sulfur gases, and in a room so large that it can be completely burned in free flame development is achieved.

The known articulated boilers in which additional air is used do not meet these conditions. '·.

The present invention aims that to eliminate the above deficiency by adding pure, preheated additional air to the , Grate enters the side of the feed chute arranged channels and there with the embers and further up with the off

a higher layer of the fuel flowing out of the carbonization gases mixed and this mixture through slots that make up the entire upper part of the channels with the feed chute connect, is fed to the free space above the burn-off of the hopper.

The gas mixture generated in this way in the mixing chamber draws accordingly, the Follow chimney drafts, go up and step

ίο through long slots in the partition wall between the feed chute and the mixing chamber in the free space above the fuel column in

. the feed chute, through the entire length of the slot opening, regardless of how high the fuel is piled along the height of the slot or how deep the fuel surface is may have decreased due to the burn.

In the space provided for the free development of flames, five get into the space different types of gas, namely two immediately ascending, the whole column of fuel Crossing gas types: fresh air and some of the carbonization gases, furthermore three off Already intimately mixed types of gas coming into the mixing chambers: by swiping past Additional air preheated along the grate, smoke gases and the part of the carbonization gases that is one The layer of fuel originates from a higher position than the one which initially arises in the fire.

As a result, an almost perfect column is already created immediately above the fuel column Combustion achieved, a further combustion of the gases following the chimney draft during the heat transfer to the limb walls no longer takes place.

In the case of the present device, too, it can be closed off more or less completely the inlet openings for the additional air in a known manner for coal firing used boiler can be immediately converted into a coke boiler, its efficiency is in no way inferior to a normal coke boiler.

In the drawing, a sectional boiler according to the present invention is shown, namely there is illustrated the front view of two middle link halves. As can be seen are arranged on both sides of the hopper 1, the mixing chambers 2, which of the Heating gas flues 3 are separated by the ribs 4. The height of the ribs 4 is such dimensioned so that the two ribs of two abutting members touch each other and seal the mixing chambers 2 against the heating gas flues 3. The ribs are 4 so high that the flue gases are completely burned off. at a high> Place the filling chute from this into the hot gas flues; «

The filling chute is in connection with the mixing chambers almost over the entire height, but this connection, as can be seen from the following, is not always the same. The separation ■ of the hopper from the mixing chambers takes place namely by the ribs 5 and 6, the latter of which are so high that they touch just like the ribs 4 of two adjacent members * Above and below the ribs 6, however, there is a ' free connection 7 and 8 between the filling shaft and the mixing chambers. The ribs 6 are arranged according to the height of the filling chute in such a way that the heating gases coming directly from the grate can enter the mixing chambers through the recess 7, which are mainly the product of perfect combustion. The height of the connection 8, on the other hand, is chosen so that in this case most of the carbonization gases produced there can pass from the filling shaft into the mixing chambers. These carbonization gases come from the fuel layer located close above the combustion zone, which is partially gasified by the heating gases rising in the filling shaft. These carbonization gases are richer in carbon than the heating gases emerging from the recess 7 and have a considerable content of. Carbon dioxide and other unburned gases. The direction of the preheated withdrawing gases is indicated in the drawing by arrows I and II.

The additional air occurs in the direction of arrow III from below and to the side of the The grate enters through the additional air duct 9 and immediately meets the completely burned ones Heating gases with which it can mix immediately. To the mixing too favor, the ribs 6 are arcuate, so that this below the actual Mixing chambers have an enlarged cross-section that reduces the passage speed is created in rooms 10, in which the additional air with the completely burned Can mix gases before it comes into contact with the carbonization gases with which it then mixes in the mixing chambers 2.

The ribs 5 above the free connection 8 have a lower height than the ribs 4 and 6, so that between them one extends over their entire length. Slot remains, which is usually measured to be about 2 to 3 cm wide. Allow the slots formed in this way (in the direction of arrow V) the entry of the gases in the mixing chambers into the Filling shaft directly above the respective fuel column, while on the other hand these slots are so narrow that larger pieces of fuel cannot enter the mixing chambers through them can fall.

That way hi the upper room of the filling shaft ι occurred mixture of the heating gases with the carbonization gases and the additional air meets there with the carbonization gases rising directly from the fuel column, is able to mix with these in the large free space, since the withdrawal of the ' Gases is located at a high point in free space, and the mixture can

ίο achieve complete combustion because there is sufficient space in this room for the free development of flames. What to take with you Brande sinks the fuel column more and more together, so that the flame space is enlarged accordingly. The completely burned gases then enter the heating gas flues 3 in the direction of arrow IV, in which they give off their heat to the water chambers.

Claims (1)

Patent claim: Articulated boiler, its side fire trains to a free space above the hopper lead, characterized in that the lower end with additional air supply (9) provided lateral fire puffs (2) below through openings (7 ^ 8) and on the whole upper part through slits between the separation ribs (5) with the Filling chute (1) are connected in such a way that the lower parts of the; Fire trains (2) forming mixture 'of glowing gases and additional air with the above the feed chute in the Feüerzüge (2) entering smoldering gases mixes and this Then put the mixture through the slits at the ribs (5) back into the hopper the free space enters, ί For this purpose ι sheet of drawings.