RU185115U1 - STAFF - Google Patents

Abstract

The utility model relates to devices for burning solid fuel and can be used in the power industry.

The technical result of the proposed utility model is to increase durability and, as a result, reduce material consumption while increasing manufacturability. The technical result is achieved in that the grate containing the inner drum coaxial to the inner drum the outer grate cylinder, the radial ribs between the inner drum and the outer cylindrical grate field, characterized in that the radial ribs and the outer drum of the grate are formed by radially spaced solid lamellas connected to the outer the surface of the cylinder of the inner drum.

Each lamella can be cast, have a sole with a rib, a sole and two serrated visors on both sides of the rib. The lamellas can be connected to the outer surface of the inner drum by welding the sole. The lamellas may have openings in the center of the rib connected by a mounting wire located concentrically to the inner drum. The lamella ribs may have non-through radial fillets (grooves), and on the outer surface of the lamellas, which forms the external grate field, there is a longitudinal beard (protrusion) oriented along the axis of the inner drum.

The claimed design and technical solution can be successfully applied for the manufacture of grates, mainly for continuous fuel cycle furnaces.

Description

The utility model relates to devices for burning solid fuel and can be used in the power industry.

The well-known "Grate grate roller" SU 1198326 [2], containing end support disks with grates fixed therein, made in the form of profiled beams installed along the roll, each beam having ribs on both sides located at different heights and forming with similar ribs neighboring grates labyrinth channels for air passage.

The disadvantage of this device is the low strength, determined by the low strength of heat-resistant beams.

The closest technical solution is the "Boiler" RU PM 106723 [1], which includes a grate, containing an inner drum, an outer grate cylinder coaxial to the inner drum, dividing radial ribs between the inner drum and the outer cylindrical grate field, forming sectors.

The device has increased strength due to the presence of an internal drum, on which radial ribs rest.

The disadvantage is the low durability due to overheating of the elements in contact with open flame and the uneven thermal expansion of the elements located inside the combustion field, which leads to uneven forces inside the structure due to the uneven heating of the structural elements. Low durability leads to increased material consumption. The disadvantage is the low manufacturability.

The technical result of the proposed utility model is to increase durability and, as a result, reduce material consumption while increasing manufacturability.

The technical result is achieved in that the grate containing the inner drum coaxial to the inner drum the outer grate cylinder, the radial ribs between the inner drum and the outer cylindrical grate field, characterized in that the radial ribs and the outer drum of the grate are formed by radially spaced solid lamellas connected to the outer the surface of the cylinder of the inner drum.

Each lamella can be cast, have a sole, with a rib, a sole and two serrated visors on both sides of the rib, the set of external, upper according to the drawing surfaces of the visors forms a cylindrical grate, the adjacent visors form a meandering gap between the edges for feeding the oxidizer into the combustion zone .

The lamellas can be connected to the outer surface of the inner drum by welding the sole, which allows a heat-resistant connection.

The lamellas can have openings in the center of the rib connected by a fixing wire located concentrically to the inner drum, which will further improve the reliability of lamellas fastening.

The lamella ribs can have non-through radial fillets (grooves), and on the outer surface of the lamellas, forming an external grate field, there is a longitudinal beard (protrusion) oriented along the axis of the inner drum. The presence of fillets will improve the ratio of flexural strength to thermal conductivity of the ribs. Long projecting barbs on the grate field will allow better fuel retention.

The grate is shown in: FIG. 1 (cross section), FIG. 2 (longitudinal view in partial section), FIG. 3 (general view of the lamella) where:

1 - cylinder of the inner drum;

2 - supporting disk of the inner drum;

3 - external grate cylindrical field;

4 - the base of the lamella;

5 - lamella rib;

6 - gear peaks;

7 - holes in the center of the lamella ribs;

8 - fixing wire;

9 - a fillet;

10 - a beard;

11 - axis of the inner cylinder and the grate field.

The device operates as follows: the inner drum consists of the cylinder of the inner drum 1 connected to the supporting disks of the inner drum 2. To the outer surface of the cylinder 2 of the inner drum, soles 4 of the lamellas are made, consisting of ribs 5 and gear peaks 6. The plane of symmetry of each rib passes through the axis the inner drum, which is also the axis of the cylinder of the external grate field. In the center of the lamella rib there is a round hole 7 for the fixing wire 8, the fixing wire is arranged concentrically and welded in several places by means of gaskets to the lamellas. Along the ribs are also located radially fillets 9. On the outer surface of the lamella, between the tooth peaks, there is a longitudinal beard 10 parallel to the plane of the ribs of the lamella 5 and parallel to the axis of the inner cylinder and the axis of the outer grate cylinder.

The space between the ribs of the lamellas forms channels into which air is supplied for burning fuel located on the grate, the air passes through zigzag gaps between the serrated visors of the lamellas.

The technical result is an increase in durability and, as a result, a reduction in material consumption is achieved due to better heat removal from the visors directly in contact with the fire, made integral with the rib. Also, the increase in durability is facilitated by the absence of elements located inside the combustion field. The execution of lamellas whole, from a homogeneous material, reduces the unevenness of the thermal expansion of the grate.

Industrial applicability. The claimed design and technical solution can be successfully applied for the manufacture of grates, mainly for continuous fuel cycle furnaces.

Claims (5)

1. A grate containing an inner drum, an outer grate cylindrical field coaxial with the inner drum, radial ribs between the inner drum and the outer cylindrical grate, characterized in that the radial ribs and the outer grate of the grate are formed by radially spaced solid lamellas connected to the outer surface of the cylinder of the inner drum . 2. The grate according to claim 1, characterized in that each lamella is cast, with a sole, a rib and two serrated visors on both sides of the rib. 3. The grate according to claim 2, characterized in that the lamellas are connected to the outer surface of the inner drum by welding the sole. 4. The grate according to claim 1, characterized in that the lamellas have holes in the center of the rib connected by a fixing wire. 5. The grate according to claim 1, characterized in that the lamella ribs have non-through radial fillets, and a longitudinal beard is located on the outer surface of the lamella.

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