DE542240C - Multiple retort underfeed firing - Google Patents

Description

The invention relates to an underfeed firing system consisting of several compartments (retorts) with inclined grate and step grate adjoining the lower part. S The grate plates of the lower part, which are are located on both sides of each retort, are designed in a known manner as nozzle plates. Most of the combustion air is introduced through these nozzle plates.

According to the invention, the nozzle plates of the lower part and also the grate plates of the step grating adjoining this arranged so that they can be moved relative to one another, or the individual nozzle plates or step grate plates are alternately fixed and designed to be movable. This type of movement of the grate plates aims to improve loosening and distributing the fuel to produce coals with poor combustion properties burn that could not be burned on the previously known underfeed firing systems.

The movement of the grate bars is the same with mechanical stair gratings and hollow gratings known, but not with underfeed firing. In these furnaces with retorts the coal is pressed into the retort cavity by pistons or screws and through there and moving auxiliary ram pushed forward and lifted by internals so that it spreads over the nozzle plates. There are Designs known in which only the pushers move in the trough and the nozzle plates are fixed, others in which the trough has no moving parts and the nozzle plates move, finally those with which both the pusher in the trough and the nozzle plates are moved. All of these The common feature is that the versions are stacked in steps Nozzle plates attached to a continuous beam of box or T-shaped design and make the same movement with it, so that a relative movement of the superimposed Plates does not occur. The burn-out grate at the lower end of the trough was also arranged in such a way that for each retort the were attached to a frame Grate plates make the same movement. Relative movements in horizontal surfaces only took place where there was a movement Construction part is connected to a fixed part, usually at the end of the nozzle bar and at the end of the burnout grate.

This type of movement is not enough to keep the coals and coals with strong baking low slag melting point to get the fuel layer so loose that a even burnout can be achieved. It was therefore used in larger furnaces special slag breakers generally connected to the lower end, and it could only coals are burned that do not fall below a certain slag melting point.

In the drawing, the invention is shown in one embodiment, namely illustrated

Fig. Ι a longitudinal section through the center plane of the retort,

Fig. 2 a longitudinal section through the median plane between two retorts, Fig. 3 is a plan view of an array of three retorts.

In all three figures, the letters α designate the crankshaft that drives the grate, b the connecting rod, c the delivery piston, d the cylinder in which the piston slides, e the coal hopper, f the retort throat through which the coal is fed to the retort, g the retort trough, h the movable auxiliary ram, i the movable nozzle plates, k the fixed nozzle plates, I the movable frame, to whose cross connections the plates i are attached, m the movable plates of the burn-out grate (step grate ), η the fixed plates of the burn-out grate, ο the movable frame of the burn-out grate, to whose cross connections the plates m are attached, φ the fixed frame of the burn-out grate, which carries the plates η.

The movement of these parts is derived separately for each as retort from the piston c with the aid of the rocker arm q .

r is the linkage to the auxiliary ram Ji; s is the linkage to the movable frame I; t is the linkage to the movable frame o. In Fig. 3, the position of the plates is indicated in accordance with the schematically drawn position of the crankshaft crankshaft α. In the embodiment shown, it is assumed that the successive plates are alternately fixed and movable.

As a result of the rotation of the crankshaft, the piston α is moved back and forth and with it the auxiliary ram h and the plates I, 0, while the plates k, η are immovable, through the levers q and the rods r, s, t. .

In the same way it can also be achieved that the plates k, η are not fixed, but rather move in opposite directions to the plates I, 0 .

The staircase formed by the nozzle plates i, h can either be designed, as shown, so that the plate extends undivided from one trough to the other and is driven by a piston, or it can be divided into planes parallel to the central plane, and these Adjacent stairs can be moved independently of one another by the pistons on either side.

Claims (2)

Patent claims: ι. Multiple retort underfeed firing with inclined grate and step grate adjoining the underfeed part, characterized in that the nozzle plates (i, k) of the underfeed part serving to supply the combustion air and furthermore the grate plates (m, n) of the stepped grate adjoining this are arranged to be displaceable relative to one another are. 2. underfeed firing according to claim 1, characterized in that the individual Nozzle plates or step grate plates alternately fixed and movable are. 1 sheet of drawings