DE634810C - Grate with longitudinal grate bars that can be moved against each other in this direction - Google Patents

Description

The invention aims at the formation of grates for fuels of varying sizes Characteristics, especially raw lignite, which is mostly extracted from open-cast mining. Lignite varies greatly in structure, grain size and water content. The weather conditions also play a very important role in the promotion, so that one is often forced to put lignite of various shapes on the same grate and burn properties. These changeable properties naturally exercise a considerable influence on the economic utilization of the fuel in the Firing off. Under certain circumstances, one must have very little lignite with a very low gas content Burn calorific value and thus high steam output, as is the case in modern boiler construction requires, achieve.

In order to adapt the grate to this change in the properties of the raw lignite, according to the invention, when using grates known per se with longitudinal grate bars that can be displaced against each other in this direction ^{, the surfaces delimiting the air passage:} the bars are arranged obliquely to the displacement direction. So you can change the free air cross-sections by simply moving the grate bars in a straight line, whereby the total grate area does not experience any change. The shifting of the grate bars can take place during operation. This enables you to adapt the grate to the grain size of the raw lignite. Such a measure can now easily be used for flat gratings and for stair gratings, which are mainly used for raw lignite. In the case of flat grids, the individual grate bars lying next to one another are tapered alternately in opposite directions. The air cross-section is changed by moving a grate bar in its longitudinal direction while the adjacent grate bars are fixed. In the case of stepped gratings, the grate bars are also shifted in the longitudinal direction. Since the grate bars are now stored one above the other, the surfaces of the front ends of the two grate bars lying one above the other are also designed at an angle to the direction of displacement. In this way, nozzles of variable cross-sectional shape are obtained.

The change in the free grate area is known per se, in particular also in the shape that there are surfaces arranged at an angle to the direction of adjustment. at Grids of the latter type are grate plates with conical widening downwards Air passage openings into which correspondingly shaped mandrels in a common Adjusting device can be introduced more or less far.

Such gratings are not suitable for large dimensions xmd especially not for stair gratings.

Various configurations are shown in the drawing. The fixed grate bars 11 form feed forms of this inventive concept together with the movable grate bars 12. -LiP ^{1 in front} of the nozzle 13 through which

Figs. 1 to 3 show a plan grate, bjf £ §p | fe. Air escapes. To this end, the '65 5 the next to each other alternately festliegefl; TSF ⁱ | vJÖ ft # ^r: are surfaces 14 of the grate bars to the pros and movable rods provided · * "'" - ■ - ■ ^{& iÄ £} - ¹ ^ - ⁴ - —-us ~ - »- n * —1« u „„ „„ a: ~

Fig. 4 to 6 the design of the changed ;. " borrowed air cross-section with superimposed grate bars in step gratings, the 7 to 9 a second embodiment of a plan grate and the

Fig. 10 to 12 modifications in the design of the step grate. In the embodiment according to FIGS. 1 to 3, the fixed bars 2 are provided in the plan grate 1, with which the movable grate bars 3 alternate. The side boundaries of the grate bars are inclined to the displacement direction A of the movable grate bars, as can be seen from FIG. 3. The grate bar 3 thus has a tapered shape towards the front free end 4, which rests on a lug 5 of the fixed grate part, and the delimiting edges of the fixed bar run correspondingly obliquely.

The displaceable grate bars are adjusted, for example, from a shaft 6 which carries eccentrics 7 which rest against guide lugs 8 of the adjustable grate bars. When the shaft 6 is rotated, the grate bar 3 is adjusted in the direction of movement A • and the width of the air gap 9 between two grate bars is thereby changed. The cross-section of the grate bars taper downwards in a known manner, as can be seen from FIG. As a result, the air gaps taper upwards and an effect similar to a nozzle occurs. This nozzle-like effect can now be reinforced by providing conical recesses 10 in the side surfaces of the grate bars, which give a tightly closed nozzle shape when they are opposite one another. By moving the grate bars relative to one another, the number of nozzles also changes, of course with a simultaneous reduction in the cross section, as can be seen from FIG. 3. This change in the number and cross-section of the nozzles can be important for certain types of lignite. In any case, it is essential that the air cross-sections can be adjusted during operation by simply turning the shaft 6.

When designing the grating for grate bars lying on top of one another, i.e. for step gratings, as shown in FIGS. 4 to 6 is the. Training basically the same; only the details of the grate are adapted to the changed conditions.

; en ends inclined and also the ■ ^ surfaces 15, which are on the top of the movable Grate bars lie.

The movable grate bars can be adjusted in any way, for example again by shaft 6 and eccentric 7. When moving the movable grate bars in direction ^, so the exit cross-section for the air is reduced.

In the embodiment according to FIG. 7, the sliding grate bars are on the underside 16 provided with recesses 17, which are in a nose 18 on the fixed grate part place. So you can here by lifting the grate bars and moving them also change the gap width. The overlap 19 prevents an impermissible Lifting out the grate bars. Instead of the cover 19 you can also use the adjustable Let the grate bars reach under the nose 23 with the hook 22.

In the case of step gratings, the training can also be carried out in a similar way as in the case of flat gratings take place, d. H. of the grate bars belonging to each stage is alternately the one fixed and the other movably arranged with sloping surfaces like them. at the Plan grate are formed so that by adjusting the grate bars of a stage the passage cross-section for the air is changed in this stage.

This arrangement is shown in FIGS. 10, 11 and 12 shown.

The grate bars 25 are beveled in the front part according to the inclination of the grate, the movable bars 26 on the fixed grate bars thereby that both bars are widened at the ends.

The air slots 27 ″ in turn run obliquely over part or over the whole Grate bar length, and it becomes the inclined slot of two adjacent ones Grate bars also increased or decreased that the movable grate bars moved will.

To adjust the grate bars, the recesses 17 and the lugs 18 are used on the stationary Grate

The setting of the grate bars can be done during operation or during the Standstill take place, for example, by the grate bar by a rod that is in one of the recesses 17 engages, lifted out of the nose 18 and then its setting is changed.

Claims (6)

Patent claims: ι. Grate with lying lengthways, in this one Direction of mutually displaceable grate bars for the use of fuel " Substances of varying composition, in particular raw lignite, characterized by that the surfaces of the grate bars that limit the passage of air are arranged obliquely to the direction of displacement are to change the air cross-sections by moving the grate bars against each other. 2. Plan grate according to claim i, characterized in that a plan grate the grate bars that are fixed next to each other {2) and the movable grate bars (3) taper in the opposite direction and the movable grate bars are provided at their rear end with an adjusting device, for example consists of shaft (6), eccentric (7) and drivers (8). 3. Plan grate according to claims 1 and 2, characterized in that in the inclined side surfaces of the fixed and adjustable grate bars are conical shaped recesses (10) are provided. 4. step grating according to claim i, characterized characterized in that the superposed grate bars at the front end facing surfaces (14, 15) at an angle to the direction of movement and to the longitudinal direction of the grate run, so that by moving the grate bars against each other, the exit cross-section of the surfaces (14, 15) formed nozzles is changed. 5. Grate according to claim ι, characterized in that it is marked, that the sliding grate bars are provided with several recesses (17) at their rear end, in which lugs engage on the fixed grate parts, with the complete excavation the grate bars by overlaps (19) or stops (23) on fixed Grate parts is prevented against which the latter lay the hook-shaped stops (22) of the grate bars. 6. Step grate with fixed and movable ones arranged next to one another Grate bars of a step according to claim 1, characterized in that the displaceable Bars can be adjusted individually or in groups in order to adjust the air gap in one step for large grate widths to be able to adjust differently. For this purpose ι sheet of drawings