DE610006C - Fuel filling and spreading device for shaft generators - Google Patents

Description

Fuel filling and spreading device for shaft generators, shaft generators, in which solid fuels are gasified by blowing air only produce then economically satisfactory amounts of heating gases if all parts of the Shaft cross-section are involved in the gasification as evenly as possible. That For this purpose, the fuel bed must be uniformly loose and for the gasification air be evenly permeable.

The condition is easiest to meet with the gasification of sieved, So in the grain size of uniform, non-baking charcoal.

A satisfactorily even distribution of the fine and coarse grain of originally screened or mixed fuels to be gasified and accordingly an economical, high stress in such operations is with the previously known facilities not possible. One sprinkled the fuel with the known, manually operated Scattered cones from the center over the circular cross-section, that's how the rough came about Grain preferably to the edge; and the fine dust heaped up in the central part at.

If, on the other hand, the fuel is fed to avoid segregation through distribution pipes, which also serve as fuel storage, into the generator shaft a, so falls with the unhindered and unregulated sliding of the fuel The filling layer in the distribution pipes is too strong, especially with a larger proportion of fine grain, which trickles deep into the fuel fill.

The feed movement of the distribution pipes must therefore be kept very small and the fuel bed becomes uneven even with such fuel supply permeable and unsuitable for high throughputs of the generator.

To achieve a perfectly even distribution of the various Grain sizes in the finest scatter is determined according to the in Figs. I to q. shown Invention concept of the fuel in a manner known per se not in the distribution pipes, but only stored irr. external storage container and from this the generator shaft b measured by a cell wheel c. The reservoir can against the generator by a shut-off device, for example by a rotary valve d, while the time of refilling of the container can be locked. In the drawn When open, the rotary valve still has the shape of the lower end of the cellular wheel to serve.

Transversely to the axis of the cellular wheel and below it are now m a single feed boom tube e several litter and feed trays; f, g, which over their entire length (or only in the lower part can be divided into several sliding surfaces h, i, k, L, m, n or twisted in a screw-like manner and their lower ends can be concentrically superimposed circles or circular ring surfaces above the Brush the fuel surface in the generator shaft.

The upper ends of the guide shelves can be pulled out or rotated, so that it is possible to move the leading edges in the direction of the axis of the bucket wheel to relocate. It can instead the upper ends also the whole Guide floors be rotatably mounted. Now the storage container a with the extension tubes rotated by the drive o, the cell wheel rotates not only with this one around the generator center axis, but driven by the impeller p or a other suitable drive device, also still about its own horizontal axis. The support rollers g take over the centering during the rotation of the filling device. at the rotary motion of the cellular wheel causes the fuel from the storage container to enter the mixture, as stored in it, enters the cell wheel and falls over it Edges as you continue to rotate. depending on the setting of the upper movable Leitwandenden f, g is the falling fuel over larger or smaller partial lengths of the cellular wheel fed to the individual guide floors and sliding surfaces, slips this off and sprinkled over the area of the circular ring of the Shaft cross-section. By adjusting the! Upper movable sliding surface edges, in the exemplary embodiment by lever r and connecting rods from the outside at any time can take place in the company, you have it in your hand, either the peripheral surfaces or to sprinkle the core of the fuel surface more heavily. In regulated operations You can choose a setting in which the fuel is added at each point just corresponds to your sinking as a result of the gassing. The 'inevitable metering and supply of fuel to each part of the fuel surface ensures one perfectly uniform thin scattering. The strength of each revolution of the filling device applied layer of fresh fuel depends on the ratio of the cellular inlet to the shaft cross-section. It can be freely selected through appropriate dimensioning will. the thinner the spread, the better the distribution of the fuel even if it is in an uneven grain composition in the storage container has arrived. The accumulation of coarse or fine grain at individual points in the shaft cross-section is completely excluded, as is an unintentional heavy pouring.

Should be gassed faster, so that a stronger fuel supply is required, the number of revolutions of the cellular wheel must be increased, which is shown in simply by increasing the number of revolutions of the entire filling device with the help the drive device s happens. So there will be more stray layers in the. Time unit abandoned than with weaker operation. From the grain size or The filling quantity in no way depends on the grain ratio in the fuel.

Claims (1)

PATENT CLAIMS: x. Fuel filling and spreading device for shaft generators, preferably for the gasification of fuels in mixed grain size: with metering of the same through a 7ell sluice known per se and introduction of the metered fuel into the generator shaft on free slopes on sliding floors, chutes or falling floors, characterized in that several such floors are arranged radially one behind the other and that their inlet and outlet ends are approximately at the same height below each other, namely the inlet ends close to the cell sluice, the outlet ends on the other hand above the partial area of the manhole ring assigned to them for sprinkling, the lower ends not being the fuel bed itself touch. z. Fuel filling and spreading device according to claim r, characterized in that the lower ends of the falling floors are divided in width to further improve and secure the fuel mixing and the partial widths are shifted against each other or that the floors are twisted at the bottom like a screw. 3. fuel filling and spreading device according to claim x and 2, characterized in that the slide ioder crash bays are completely movable or only at their upper end or carry pivotable flaps on their upper edge, so that by setting the upper Movable lintel or rattle edges on the respectively desired partial length of the cell lock, a regulation of the amount of fuel flowing into the individual lintel floors can take place. q .. fuel filling and spreading device according to claim x to 3, characterized in that a round slide is switched on between the cell lock and fuel storage, with which the memory can be shut off after the generator and the lower closure of the cell lock in the open state forms.