DE3301783A1 - Sidewall plates - Google Patents

Abstract

The invention relates to a stepped grate structure, especially a stepped pivoting grate, which is provided with suspended sidewall plates having articulated, pivoting grate bars and stationary sidewall plates, on both sides of the grate arrangement. According to the invention, provision is made for the sidewall plates (36) to be cooled with air on the rear side, this air being heated and thereafter being blown in as combustion air both below the grate bars and above the grate bars. <IMAGE>

Description

The invention relates to a step grating training, ins-

special one step swivel grate, with articulated pivoting Grate bars and fixed side wall bars and hanging side wall panels both sides of the grate assembly. Such grates are with steep and flat sections educated. The elements of the flat section and the steep section can be pivoted and transport the material through the furnace in stages.

Hanging side wall panels are used to cool the masonry of the side walls known, the entire surface of the front side is cooled by using an air curtain overblown over the entire surface. The plates are perforated on the outside. Behind the plates there are air boxes.

It is blown out via crescent-shaped formations on the periphery of the panels. In this way, relatively cold air got onto the bed of embers, to the side. As a result of the only lateral injection, there was also the strongest cooling to be expected, so that there are very different temperatures across the chamber cross-section hired. Caking was avoided. This also avoids that Due to the caking, the masonry breaks out in fragments when the caking begin to glow or break out with the masonry. An air preheating occurred only to a limited extent.

The invention is based on the object, if possible, via the combustion chamber to be able to control the amount and temperature of the blown air and thus also to achieve control of the furnace as a whole.

It would also be advantageous if the Air would be heated.

Surprisingly, this task is now solved by a rearward one Cooling of the side wall panels by means of the whole for the combustion process required air on the grate, this then heated air below the Grate bars or is blown in laterally over the grate bars.

The air is expediently preheated here.

Air-conducting parallel channels are preferably on the back of the Side wall panels provided.

A separate, especially funnel-like air supply is interesting selectively for each side wall panel.

According to a preferred embodiment, they are top-down Cooling fins arranged within each parallel channel.

The ducts can be on the air supply side through a to the side wall plate parallel plate be limited.

The plates used are made of Sicromal steel.

So it is blown from above through parallel channels that are formed behind the panels. The direction of flow is clearly downwards and this results in an intensive preheating of pleasure in the canals.

By dividing it into the different zones it is possible to be selective bring about completely different temperature or flow conditions, what It should be interesting who to take special measures on the individual grate levels are, for example, more heated air for the pre-drying of relatively humid Fuels.

Another advantage is that the burn-off process corresponds to the grate in zones can be assigned.

In the prior art, air heating or expansion was the Combustion air has not yet been possible for the post office.

Exemplary embodiments of the invention should now be referenced will be explained in more detail on the accompanying drawings. These show in FIG. 1 a longitudinal section through a stepped swivel grate; Fig. 2 is a longitudinal cross-section B-B in Figure 1; and FIG. 3 shows a section along the line A-A in FIG.

Fig. 1 shows the step swivel grate known per se with the swivel grate (Rods) 22 and the fixed side wall rods 26. In the area laterally over the Rusting, i.e.

in the areas of greatest temperature, for example, are made of Sicromal existing plates 36 arranged. These have a shape according to the arrangement above the grate and are arranged as equally as possible. The plates follow in hers Arrangement of the step formation of the grate. The side panel according to the The representation can be enlarged or reduced.

With reference now to FIG. 2, the 'a section along the line B-B in As shown in Fig. 1, the suspension of the side wall panels 36 will be described in detail. A double T-beam is supported by insulation 32 in the masonry. At this solid is an air box structure, which consists essentially of the side wall plate 36, the transverse plate 38 and the end plate 46. The side wall plate carries the air supply side downward vertical ribs. The elements 36/38 together with the Ribs air gaps or channels 16 in which the down going Air heats up. The air flow is indicated by arrows. The air supply 48 practically consists of an expanding tube 48; then goes into a box 34 and is deflected by this in the form formed by the plates 36/38 Box out by flowing from top to bottom. It is distributed over this various channels, one of which is shown in section. U-frame and U-irons 5p are screwed together as shown. The plate itself, in turn, is screwed on via an angle 52. The angle doesn't quite bump on the cooling fin, but can bump into it. Due to the plate suspension 28 (screwed U-iron) there is no heat load on the load-bearing parts.

After flowing through the channels, the air exits and overflows the grate support shaft 20 and enters the furnace from the area under the grate bars 22.

But it is also possible to exit the air at about 18 to let, this is an area that can be controlled to target the Combustion is supported. The air passage generally takes place before the Grate bearing frame 24. The air gap 16 can be changed in each air zone. This then allows you to adjust the air speed and / or temperature as required vary.

3 shows how easily the channel-forming plates 36 can be exchanged and the air supply 48 can be seen more precisely. For elements 14 it is about the cooling fins, at 54 the air gap is indicated, 30, to one Leg of this angle 30.

You can see how easily each hammer is applied separately can be.

The first air outlet is under the grate.

The invention is not limited to the embodiment shown. A wide variety of shapes and designs for air ducting in areas behind the Side wall panels are possible, so in principle any type of air duct for air preheaters as far as they are used on side wall panels. In principle, any construction sheath flow cooling, as used for water, are used.

Changes and modifications are within the scope of the invention.

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Claims (7)

Sidewall panels claims 1.J step grating, in particular Step swivel grate with articulated pivoting grate bars and fixed ones Side wall bars with hanging side wall panels on both sides of the grate arrangement, G e -k e n n n e c h n e t through rear cooling of the side wall panels (36) by means of air, which air is warmed up and then both as combustion air is blown in below the grate bars and above the grate bars. 2. Step grating according to claim 1, g e -k e n n z e i c h n e t by preheating the combustion air. 3. Step grating according to one of the preceding claims, characterized by forming air-conducting parallel channels (36) .. on the back of the Sidewall panels (36). 4. Step grating according to one of the preceding claims, gekennzeichn'et by cooling ribs (14) of each parallel channel that go from top to bottom. 5. step grating according to one of the preceding claims, characterized characterized in that the ducts on the air supply side through ice to the side wall plate (36) parallel plate (38) are limited. 6. step grating according to one of the preceding claims, characterized characterized in that the side wall panels are arranged in a step-like manner laterally over the grates are. 7. Step grating according to one of the preceding claims, characterized by supplying the air through a widening tube (48) into a distribution chamber (56), from which the distribution of the individual channels behind the plates (36) he follows.