DE193453C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVU 93453 CLASS 241 GROUP

The known mechanical grate feeders in which the Fuel by means of controlled delivery pistons or the like. Uninterrupted under the glowing Coal layer is pushed, called underfeed firing, have the disadvantage that the grate and air supply bodies wear out rapidly under the influence of heat and often have to be changed what

ίο results in operational disruptions. The premature Burning of these parts is the type of air supply that has been used since then hard to avoid. If the furnace is set up in such a way that air can enter

! 5 into the combustion chamber only through the am At the edge of the coal trough seated air nozzles takes place, the fresh air flows directly towards the middle of the grate, without effective cooling on the side support and Exercise grate plates.

If grate bars are used instead of plates, the opposite occurs in that the air flows through the thinner, looser and therefore the slightest resistance

^A 5 stand offering coal layers creates a path and mostly escapes through the lateral grate gaps into the furnace, while in the middle of the grate around the nozzle mouths, i.e. at the point of lively degassing and the greatest air requirement, there is only a weak air flow, also under Danger of damaging backflushing of the flue gases. In both cases, therefore, in 45

Inadequate cooling results in excessive heating of the area with the glowing coal in Contact with standing rust material, which makes it more durable is significantly impaired. This deficiency is eliminated by the in The purpose of the new air distribution device shown in the drawing.

. Fig. Ι is the front view in cross section and Fig. 2 is the plan of the new facility.

This consists of the feed trough a, the air supply bodies b, the grate plates c, the distribution walls d, the automatic valves f, the air inlet chamber g and the adjustable inlet slide h. The air space under the grate is divided into several chambers Z ₁ , i ₂ and Z ₃ by the distribution walls d , of which Z _{1 has} the largest and Z ₂ or Z ₃ the smallest passage cross-section for the air. Furthermore, while Z _{1 is} connected to the wind line directly or via a manually adjustable slide, Z ₂ and Z _{3 are} connected to the same by means of automatic valves or flaps.

The weight of the valves and the resulting opening resistance is chosen so that they only after the overpressure of the air flow has reached a certain level has reached open.

The firing is now with a lower grate load and correspondingly lower Air compression mainly only from the

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middle air chamber fed, while the valves f are only slightly raised at this pressure. With increasing load over the middle of the grate, the air pressure increases, corresponding to the greater resistance of the carbon layer. The valves then come into operation, releasing the flow cross-section proportionally to the increasing overpressure. The ones from the side

ίο Air currents originating from chambers are through the high-lying distribution walls forced the grate plates on the way to the combustion chamber across the entire width to be painted, whereby an effective cooling of the same is achieved.

Figure 3 illustrates the new air distribution device for the embodiment the underfeed firing with side grate bars and air intake all over Grate width.

There are α the feed trough, b the air inlet nozzles, c the grids, d the air distribution walls, f the automatic valves, g the air inlet chamber and h the inlet slide.

The subdivision of the compressed air flow is made as above so that only as much additional air flows in through the valves f as is required for the respective grate cover or the specific resistance of the carbon layer, which depends on the composition and nature of the fuel, while the main need for combustion air is covered by the middle chamber. If the resistance increases in the middle of the coal layer, which is located from the middle to the right and left on the grate surface in a natural embankment, then the air pressure is higher, so that the opened valves let plenty of air through. The individual air flows are directed through the raised distribution walls directly to the furnace, which prevents the air flow flowing through the air supply nozzles from being deflected to the side or the rebound of the flue gases and, at the same time, extensive cooling of the grate bodies is brought about. In addition to an increase in operational safety, the division of the air flow also results in an even combustion process that extends over the entire width of the grate, thereby bringing the conditions for complete and smoke-free combustion closer.

Fig. 4 shows the use of flaps instead of valves as closing elements for the same purpose.

Claims (1)

Patent-An saying: Device for distributing the air under the grate of underfeed firing, characterized in that the space under the grate is divided into chambers (I ₁ i ₂ i _z ) , of which the middle one (I ₁ ) located under the charging trough has an adjustable slide is connected to the wind pipe, while the other chambers (i ₂ ij with automatic valves or flaps ff) are provided. ' 1 sheet of drawings.