SU1520304A1 - Fire grate - Google Patents

Abstract

The invention improves the efficiency and reliability of the grid. In the space between the slopes and the edges of the grates (K) 1 there are water-cooled pipes 7, the upper ones to-ryh are located in a plane lying below the working surface 3 of the lattice at a distance of 0.1 ... 0.2 heights of the bobbing rod 2. Pipes 7 m. Coil-shaped or rectangular. The cooling zone formed by the pipes 7 avoids slagging of the inter-grate space, while cooling the slag first comes from the air flow divided by the pipe 7 in each inter-grid space where the flow goes around the slope and the edge K, as a result of which the K itself is also cooled K. In addition, when a shuruya bar passes, there is no significant removal of the layer of slag cushion and the exposed ribs and K remain immersed in the slag cushion and do not overheat. 4 il.

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The invention relates to a device for burning solid fuels and can be used in boiler units.

The purpose of the invention is to increase efficiency and reliability.

FIG. 1 shows the grate, longitudinal section; in FIG. 2, view A in FIG. 1, a grate with pipes in the form of a coil); in fig. 3 - the same, grille with straight pipes; in fig. 4- node I in FIG. one.

Kolosnikova lattice formed by beams turning on a given

an angle of 2-5 ° with the grate 1 and is equipped with a shuruyvaya strap 2 with a height H (Fig. 1) mounted with the ratchet mounted parallel to the working surface 3 (Fig. 4) and perpendicular to the axis 4 of the turning of the grate 1. In space (Fig. 4) slopes 5 and ribs 6 of the grate 1 installed water-cooled pipes 7 and 8. The upper generators of pipes 7 and 8 are located in a plane lying below the working surface 3 of the lattice at a distance h from it equal to 0.1-0.2 of the height of the bore plate 2. The pipes 7 and 8 can be made in the form of a coil or directly connected to the pipe tori 9.

The space between the ribs 6 and the slopes 5 of the grates 1 is filled with a layer of small-sized shpak 10. The fuel 11 enters the working surface 3 of the grille from the hopper 12 (Fig. 1). Blowing air enters from chamber 13 through the gaps 14 between the grate 1, bending the pshk cover 15 (Fig. 3 and 4). A cooling zone is formed around each of the pipes 7 and 8.

The grate works as follows.

The fuel 11 from the hopper 12 is fed onto the working surface 3 of the grille with the aid of a bobbing bar 2. At the same time, the slag is removed and the layer of fuel 11 is loosened. The blast air from chamber 13 through gaps 14 and slag layer 10 enters the combustion zone of the fuel, with the air separated by pipes 7 and B being directed along the surface of skates 5 (Fig. 4) and the ribs 6 of the grates and cool them and the slag layer 10. At the same time, the layer of the spike 10 is cooled by pipes 7 and 8. The fuel 11 is burned, and the spackle formed during this process drains onto the working surface 3 of the grid. Once in the cooled zone, the slag solidifies with the formation of a crust 15 above the working surface 3 of the grid and is dropped from the working surface 3 of the grid during the next run of the rowing plate 2. A new batch of fuel is fed to the working surface of the grid. In the following, the cycle repeats.

The cooling zone formed by the tube 7 avoids slagging of the inter-grate space. At the same time, the cooling of the slag occurs first from the air flow divided by the water-cooled pipe 7 in each inter-grate gap, where the air flow now bends around the ramp 5 and the edge 6 of the grate.

As a result, the grate 1 is also cooled, which prevents them from overheating.

Claims (1)

The installation of pipes 7 and 8 in the inter-grate space also prevents the layer of slag cushion, the ribs of the grate 1, from being significantly removed when passing through the curling bar 2, with the result that the grate 1 remains immersed in the slag cushion, which protects them from overheating. Invention Formula A grate, containing beam grates installed rotatably at an angle of 2-5 °, and a clamping bar mounted perpendicular to the axis of rotation of the grate and movable parallel to the grating working surface and 0.1 2 bar heights, characterized in that, in order to increase efficiency and reliability, the grill further comprises water cooled pipes located between the grate bars, and the upper tube tubes are located in the plane lying below the working surface the lattice at a distance from it, equal to 0.1-0.2 of the height of the cocking bar. 1520304 Type A and 2 Fig.Z