WO2020027700A1

WO2020027700A1 - Device for distributing supplied air across channels of a movable grate.

Info

Publication number: WO2020027700A1
Application number: PCT/RU2019/050119
Authority: WO
Inventors: Александр Петрович СЕМЕНИХИН
Original assignee: Александр Петрович СЕМЕНИХИН
Priority date: 2018-08-02
Filing date: 2019-07-25
Publication date: 2020-02-06

Abstract

The utility model relates to devices for burning a fuel. The technical result of the proposed utility model consists in burning a fuel more efficiently. The technical result is achieved in that a device for distributing supplied air across channels of a movable grate, said device comprising a distribution chamber connected via an air stream to an air supply pipe, is characterized in that it comprises a plate having a shaped aperture, said plate being joined to the distribution chamber and mounted parallel to the direction of movement of the movable grate.

Description

DEVICE FOR DISTRIBUTION OF SUPPLY AIR BY CHANNELS OF MOBILE GARNISH

Description

Technical area:

The utility model relates to devices for burning fuel and can be used for space heating.

BACKGROUND OF THE INVENTION US "3687094 [2]" Waste Incineration Equipment is known, including a hollow rotary drum grate having an external chamber that communicates with the inside of the drum. On the outside, the drum has openings that discharge combustion air into the furnace. Air is supplied through a cap located at the end of the drum.

The disadvantage of this device is the low selectivity of the combustion air in the fuel layer, which leads to low efficiency of the furnace as a whole.

The closest technical solution is the “GAS-FUEL HEATER FOR COMBUSTION FUEL COMBUSTION” SU 1087088 [1], which contains a distribution chamber connected through the air flow to the air supply pipe and an opening from the distribution chamber directed into the channels of the moving grate.

The known solution allows you to direct air only into those channels of the moving grate, on which the fuel burns.

The disadvantage is the lack of efficiency of the device due to the uniform supply of air to different phases of combustion.

The technical result of the proposed utility model is to increase the efficiency of fuel combustion. The technical result is achieved in that the device for distributing the supplied air through the channels of the moving grate, comprising a distribution chamber connected via an air flow to an air supply pipe, is characterized in that it comprises a plate with a figured hole connected to the distribution chamber and installed parallel to the direction of movement of the moving grate ( the hole is located opposite the entrance to the channels of the moving grate).

Description of embodiments:

The moving grate can be made in the form of a drum, and the figured hole of the plate can be made along the arc corresponding to the upper (working) sector of the drum, which will improve the efficiency of the rotating drum grate.

The dimensions of the figured plate can be larger than the size of the distribution chamber, which will increase the contact area with the end part of the drum and reduce the leakage of the supplied air between the figured plate and the elements of the moving grate.

The figured hole may contain a section of the greatest width corresponding to the maximum width of the channel of the moving grate, which will increase the efficiency of the main combustion, since the combustion air supplied through the device will flow freely into the grate channels, on the outer surface of which the fuel is located, and the main (initial) combustion.

The curly hole may comprise a tapering portion adjacent to a portion of the greatest width along the direction of movement of the drum. On the channels of the grate corresponding to the narrowing section, on the outer surface of the moving grate there is a fuel corresponding to the afterburning phase. Reducing the intensity of the air flow in the afterburning phase will allow the afterburning of fuel, without a significant decrease in its temperature with excess air, which will increase the efficiency of afterburning and increase the temperature of the flue gases in general. An increase in flue gas temperature will increase the efficiency of the heat exchanger. After burning fuel, heat is removed from the ash by a stream of air. Reducing the intensity of the air supply in the tapering section of the figured hole will reduce the power of the air pump or fan, which will positively affect the efficiency of the fuel combustion device as a whole.

Brief Description of the Drawings:

The device for distributing the supplied air through the channels of the moving grate is shown in: FIG. 1 (general view), FIG. 2 (end view of the drum), FIG. 3 (sectional fragment along the axis of the drum), where:

1 - air supply pipe;

2 - distribution chamber;

3 - plate with a figured hole;

4 - section of the greatest width;

5 - tapering sector;

6 - end part of the drum;

7 - channels of the moving grate.

The device operates as follows: air is supplied through the air supply pipe 1 to the distribution chamber 2, and through the plate with curly holes 3, it is supplied to the channels of the moving grate open from the end part of the drum 6. The channels corresponding to the most active, initial phase of fuel combustion on the grate. Opposite the tapering sector 5, there are channels corresponding to the phase of burning the fuel and taking heat from the ash. For different types of fuel, the configuration of the sectors of the figured hole can be different, in order to achieve the most optimal combustion mode for a particular type of fuel. The technical result is an increase in the efficiency of fuel combustion, provided by the presence of a figured plate that regulates the intensity of the air flow through the channels of the moving grate, to ensure optimal, in terms of efficiency, the intensity of air supply through the fuel, in accordance with the phase of combustion and heat extraction from ash.

Industrial applicability. The claimed design and technical solution can be successfully applied to devices for burning fuel with a moving grate.

Claims

Formula

1. A device for distributing the supplied air through the channels of the moving grate, comprising a distribution chamber connected through the air flow to the air supply pipe, characterized in that it comprises a plate with a figured hole connected to the distribution chamber and installed parallel to the direction of movement of the moving grate.

2. The device according to claim 1, characterized in that the movable grate is made in the form of a drum, and the curly hole of the plate is made along the arc corresponding to the upper sector of the drum.

3. The device according to claim 1, characterized in that the dimensions of the plate with a figured hole are larger than the dimensions of the distribution chamber.

4. The device according to claim 1, characterized in that the figured hole contains a section of the greatest width corresponding to the maximum channel width of the moving grate.

5. The device according to claim 1, characterized in that the figured hole contains a tapering section adjacent to the section of the greatest width along the direction of movement of the drum.