SU992904A1 - Power fire box - Google Patents

Description

(54) MECHANICAL FOOT

one

11 the invention relates to power engineering and can be used in low-power thermal units for slinging solid fuels.

A well-known mechanical furnace containing a fuel bunker, a combustion chamber with a grate, the sub-lattice duct of which is connected to the air duct to the blower fan, ashpit and shuruyuschey tl3 bar.

The disadvantages of this furnace are high consumption of blast air due to poor ignition conditions of the fuel, as well as significant losses with chemical and mechanical underburning.

Also known is a mechanical furnace containing a fuel bunker, a combustion chamber with a grate, the sublattice ducts of which are connected to the air duct, an ashpit with arch), and the rear part of the grate is inserted into the ashpit, and shuruyu slat 2.

The disadvantage of this furnace is a large excess of blast air.

Also known is a mechanical furnace containing a tpolian bunker, a chamber

Combustion with the grate, the sublattice ducts of which are connected to the blower valve by the air ducts, and an ashpit made with a vault, the grate with the rear part introduced into the ashpit, and above its front part are placed the height limiter of the Q layer of the fuel and the level C31.

The disadvantage of this furnace is low efficiency due to the high flow rate of the blast air.

The purpose of the invention is to increase the efficiency of the furnace by recycling part of the blast air and gases.

This goal is achieved by the fact that the height limiter of the fuel layer is provided with a gas intake between the arch of the ashpit cavity and the grid, with a gap relative to the latter an additional transverse partition is installed, and the ash chamber and the gas intake are communicated with an additional 25 ducts c. fan suction nozzle.

In addition, the ducts are equipped with butterfly valves.

Claims (3)

In this case, the transverse partition is made water-cooled. Moreover, the transverse partition is filled with refractory material. In addition, the transverse partition is movably mounted to adjust the gap between it and the grate. The drawing shows the proposed mechanical heating, longitudinal section. The furnace contains a fuel bunker 1, a combustion chamber 2 with a grate 3, sub-grid ducts 4 of which are connected by ducts 5 to a blower fan 6, and an ash pit 7, made with arch 8; moreover, the rear part grill 3 is inserted into the ashpit cavity 7, and above its front part there is a stopper 9 for the height of the fuel layer and a screw strip 10. The stopper 9 for the height of the fuel layer is provided with a gas intake 11, between the arch 8 of the ash cavity 7 and the grill 3 with a gap relative to the last the transverse partition 12 is additionally installed, and the ashpit cavity 7 and the gas intake 11 are connected by additional ducts 13 to the suction inlet 14 of the ventilators. The ducts 13 can be equipped with butterfly valves 15. The transverse partition 12 can be made of water-cooling or refractory material and mounted for movement to adjust the gap between it and the grate 3. The mechanical furnace works as follows Solid fuel from the fuel bunker 1 is fed on the grate 3 and moves it into the combustion chamber 2, where, when blowing air into the sublattice, the box 4 starts to burn on the surface of the grate 3. Distribution the fuel on the grill 3 is carried out by the next strip 10. The height of the fuel layer is set by the stopper 9, the Combustion Products rush into the upper part of the combustion chamber 2 The most oxygenated part of the gases and air from the restrictor 9 is the height of the fuel layer and the passage through the fan b, re-enters the furnace. The amount of suction gases is regulated behind the bucket 15. From the combustion zone, the fuel is moved to the back of the grid 3, where slag burning occurs. Gases are sucked out of the ashpit cavity 7 through the duct 13 and are returned to the furnace, the passage of the fan 6. The amount of sucked gases is regulated by the valve 15. The partitioning 12, due to the possibility of adjusting the gap between it and the recoil 3, ensures sufficient sealing of the ashpit 7 from the combustion chamber 2. Due to this, more air can be supplied to cavity 7, which leads to a better slag burning. Execution of a water-cooled partition or of a refractory material affects its service life. Thus, the invention makes it possible to increase the efficiency of the operation of the furnace by ensuring the recycling of part of the blast air and gases. Claims 1. Mechanical furnace, containing a fuel-bunker, a combustion chamber with an exhaust grille, the under-grate duct of which is connected by ducts to a blower fan, and an ash chamber made with its own. the house, with the rear part of the grille wound up in the ashpit cavity, and above its front part there is a stopper for the height of the fuel layer 1 and a screw strip, so that, in order to increase the efficiency of the furnace by providing recirculation of the part of the blast air and gases, the height limiter of the fuel layer is provided with a gas intake, a transverse partition is additionally installed between the arch of the ash pit and the grille with a gap relative to the latter, and the ash pan and gas intake are additionally reported ducts with a suction inlet of the fan. -2 The firebox according to claim 1, in accordance with the fact that the ducts are equipped with butterfly valves. 3. Top popp. 1, characterized in that the transverse partition is made water-cooled. 4. The furnace according to claim 1, in accordance with the fact that the transverse partition is made of refractory material. 5. A furnace according to claim 1, characterized in that the transverse partition is mounted for movement to adjust the gap between it and the grate. .Sources of information, taken in vn.ymani zspertise, 1. Knorre GF. Furnace processes. M., Tosenergoizdat, 1959, p. 371. 2. Dummer A. B. Mechanic; 1y furnaces. M., Gosenergoizdat, 1963, p. 80 3. Sanitary and technical equipment. Collection of work NIIsantekhniki, No. 53. M., NIsantekhniki, 1979, p. 1219.