RU14267U1 - SEMIEMECHANIC HEATER - Google Patents

Abstract

1. Semi-mechanical furnace containing a grate, a vault, an automatic fuel supply device and means for supplying primary air, characterized in that the grate is made in the form of a bowl expanding upward, connected to its lower part with a fuel supply device, and the arch is made tapering upward and provided secondary air nozzles. 2. The semi-mechanical firebox according to claim 1, characterized in that the arch is made of composite cylindrical and conical metal surfaces, clad from the side of the furnace space with refractory material, for example fireclay brick. Semi-mechanical furnace according to claims 1 and 2, characterized in that the cylindrical surface of the arch is equipped with tangential blast nozzles, and the conical one has radial blast nozzles. 4. The semi-mechanical furnace according to claim 3, characterized in that the cylindrical and conical surfaces of the arch contain two rows of nozzles, while the nozzles of each row are installed in a horizontal plane. The semi-mechanical firebox according to claim 3, characterized in that the nozzles of the cylindrical part of the arch are made at an angle of 45-80 degrees to its normal, and the nozzles of the conical part of the arch are made under the angle of ± 5.6. The semi-mechanical furnace according to claim 1, characterized in that the fuel supply device comprises a fuel level sensor and a screw feeder connected in series.

Description

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IPC: F 23V 7/00

HALF MEMBER

The utility model relates to the heat supply of technical equipment and buildings for community use.

Known floor mechar1nogesaya firebox (Certificate of the Russian Federation No. 2633, UI, CL F 23 V 7/00, 1996), including a grate, arch, automatic fuel supply and means for supply. At the same time, the grate is made concave in the shape of a half | Ш1indra, the arch is made in the form of a rectangular parasponder, the nozzles are connected to the furnace cavity through the air ducts installed in the cone and closed from the side of the combustion chamber with crushed crumb, and a screw miter is installed above the surface of the grate, forming under the firebox.

The disadvantages of the known construction and furnace are insufficient reliability due to the need to install a movable 111uruy element in the fuel combustion zone.

The task of creating a utility model is to develop a semi-mechanical firebox, the design of which allows to increase its reliability.

The task is achieved by the fact that in the floor of a mechanical firebox containing a grate, a vault, an automatic fuel supply device and means for supplying primary air according to a utility model, the grate is made in the form of a chatti expanding upwardly connected to the topzhtea supply device in its lower part, and the arch is made narrowed upwards and equipped with nozzles for tangential and normal secondary air supply

Ofuterovashtgh from the furnace furnace side with refractory material, for example chamotte brick. The fuel supply device is made screw and connected to the control with a fuel level sensor in the furnace.

The introduction of these leaflets allows us to exclude rapidly burning elements of the mechanical and mechanical components (oiki and, TQM itself, to increase its reliability without compromising on quality).

The figure shows the design of the Iolumshanic subtle.

The semi-mechanical firebox contains a grate 1, arch 2, an automatic fuel supply device 3 and means (nozzles) for supplying primary 4 and secondary 5 and 6 air. The grate I is made in the form of expanding upward chatsgi connected in its lower part to the fuel supply device 3. Arch 2 is made integral of a cylindrical 7 and tapering up purse 8 surfaces, internally lined with refractory material 9, for example with a mock-pit brick. Cylindrical 7 part, vault 2 is equipped with two horizontal rows of nozzles 10 for tangential feed (node angle 45-80 to the normal to the cylinder), and conical 8 part - two rows of horizontal nozzles 11 for radial (under the ground ± 5 to the normal sootvezhnuyuschuyu minded conical section part of the arch) subliminal air supply oi pipe 5 and 6, respectively. The fuel supply device 3 comprises a pushechny feeder 12 connected at the control input to a fuel level sensor 13 in the furnace.

In the absence of fuel, the insufficient fuel level in the most of the grate I, the lever 14 of the sensor 1 is lowered down. The contacts of the sensor 13 are closed and the power level is lowered on the grate 1 is fed to the input of the screw feeder 12. The shchnitsky 12 is turned on and the fuel enters the bottom of .When the level ronjinea of the upper edges of the grid-iron 1 is narrowed, the lever 14 of the sensor t is pressed / pushed and the contacts of the latter open. At

this screw feeder 2 is turned off and the fuel supply to the grate 1 is stopped. Simultaneously with loading fuel into the grate pan 1 from below, it is realized (primary air supply) and fuel is ignited on it. In the process of burning fuel in the bowl of the grate, at first temperature, destructive organic matter occurs. In this case, exothermic oxidative reactions with the formation of carbon dioxide and endothermic reducing reactions with the formation of hydrogen and carbon monoxide occur in the lower layers of the fuel layer. In the middle layers of the topcoat layer, mainly endothermic reduction reactions occur. The resulting mixture of gases enters the gasification zone in the region of the cylindrical part 7 of the vault 2. Here, due to the tangential blast of the oil 10, the burning gases are twisted. At the same time, due to the narrowing of the passage opening, as well as due to the radial blast of the nozzles 10 of the conical part 8 of the roof 2, the premature exit of burning gases and their afterburning are delayed. In this case, combustion in the furnace occurs at a temperature of 900-1200 ° С. As the fuel burns out in the grate bowl I, the sensor 13 starts, the feeder 12 of the device 3 is turned on and the burnt fuel is loaded. The process is then repeated.

The current sample of 11О ums; kanichesk (Н1 of the junior was made and tested at the Spetsmontazh NPO and gave positive results.

Claims (6)

1. Semi-mechanical furnace containing a grate, a vault, an automatic fuel supply device and means for supplying primary air, characterized in that the grate is made in the form of a bowl expanding upward, connected to its lower part with a fuel supply device, and the arch is made tapering upward and provided secondary air nozzles.  2. Semi-mechanical furnace according to claim 1, characterized in that the arch is made of composite cylindrical and conical metal surfaces, clad from the side of the furnace space with refractory material, such as fireclay brick.  3. Semi-mechanical furnace according to claims 1 and 2, characterized in that the cylindrical surface of the arch is equipped with tangential blast nozzles, and the conical one has radial blast nozzles.  4. Semi-mechanical furnace according to claim 3, characterized in that the cylindrical and conical surfaces of the arch contain two rows of nozzles, while the nozzles of each row are installed in a horizontal plane. 5. Semi-mechanical furnace according to claim 3, characterized in that the nozzles of the cylindrical part of the arch are made at an angle of 45-80 ^o to its normal, and the nozzles of the conical part of the arch are made under the angle of ± 5 ^o . 6. Semi-mechanical furnace according to claim 1, characterized in that the fuel supply device comprises a fuel level sensor and a screw feeder connected in series.