EP1134495A1 - Central beam cooled with a fluid for combustion grate - Google Patents

Abstract

The middle beam element (15) has channels for the fluid and inlet and outlet supplies for the refrigerant. The middle beam element comprises two parts (1,2) that are arranged one on the top of the other and are connected together to form a channel, through which the refrigerant flows. Preferably, the two parts are bell-shaped and the channel is formed on both sides of the inner part with its surface is parallel to the thermally-loaded outer face.

Description

The invention relates accordingly to a fluid-cooled central beam element the preamble of the first claim and a fluid-cooled Middle bar.

The invention is applicable wherever multi-lane Combustion grates with a central beam are present and measures to reduce wear, downtimes and repair times of the gratings increase the operating costs of the plant.

When using multi-lane combustion grates, a lateral one Separation of each grate run from the neighboring grate run may be required. This Separation allows a different driving style from neighboring Grate tracks if the installation of the grate tracks used for this is mechanically and technically decoupled. For this purpose, components used firmly with the substructure of the incinerator are connected and reach into the furnace. If more as two grate tracks are arranged side by side, these components can also the task of recording changes in length over the Grate track width due to temperature changes can be assigned.

The components used to separate the grate track are subject to high thermal and, depending on whether additional wear elements on the Sides of the movable grate bar or grate beam rows are used, mechanical wear due to abrasion.

The wear problem on the components used is corresponding the currently known state of the art through the use of high-quality cast materials with air cooling or through fluid-cooled Welded steel constructions encountered.

With air-cooled cast elements, however, is due to the increased In many cases, the calorific value of the combustion goods is cooled by air no longer sufficient. In addition, the approach is more real Cooling air due to leaks in the known components on the grate edge undesirable.

Fluid-cooled steel weldments have the disadvantage lack of emergency running properties, so that in the event of a brief interruption the heat dissipation due to damage to the cooling system strong Deformations or destruction of components have been recorded.

It is therefore an object of the invention to overcome the disadvantages of the prior art to eliminate and central beam elements as well as a central beam for to develop multi-lane combustion grates, with good ones Emergency running properties should be available.

This task is carried out by a central beam element according to the characterizing features of the first claim and a Middle beam solved according to the features of the 14th and 15th claim.

Subclaims give advantageous refinements of the invention.

The solution according to the invention is characterized in that the fluid-cooled central beam element for multi-lane combustion grates two superimposed, interconnected, open at the bottom Parts exist that form at least one channel through which a coolant flows, and the full area and parallel to the thermally stressed Outside surfaces.

Parts lying one above the other are advantageously bell-shaped educated. The channel is located on both sides of the inner part. It will thereby achieved that above the inner part an end dividing the space Rib is arranged, which prevents the fluid from one side of the Penetrates into the other side of the room.

It is also advantageous that more between the inner and outer part Ribs are arranged. For example, there can be two on each side Ribs along the central beam element, it being advantageous that Internal part made of cast iron and designed so that the cast ribs are arranged on the inner part. This creates several on top of each other horizontal channels, the full area on the thermally stressed outer surfaces apply and in which the coolant from one side to the other of the central beam element can flow. It is advantageous in one Side of the central beam element to arrange the inflow opening and on the to provide the outflow opening on the other side of the central beam element. The cooling medium can then in on one side of the central beam element this will flow in at the other end of the central beam element pressed into the chamber above, then flows on both sides of the Inner part back to the other side, where the coolants from both Sides pressed together into the next chamber above in which they flow separately again and get to the other side, on which they together in a channel down to the outlet opening flow. The inner part is advantageously made of cast iron, which is good Has emergency running properties. For a cheap attachment too ensure, the inner part can have transverse ribs for holding plates.

The outer part, which is fixed to the inner part and for liquids is impermeable to the inner part, can lead to rust Have cams. It is cheap to manufacture from cast iron. It is beneficial Arrange uncooled wear plates on both sides of the outer part. This can be welded on and ensure that there is wear and tear there are no wall openings in the outer part. So that's a long one Guaranteed duration.

Furthermore, it is advantageous to arrange the outer part on the inner part in such a way that the outlet side from the highest point of the flow Center beam element leads away.

Water or another, higher-boiling coolant can be used as the cooling medium Find use.

Several, fluid-cooled central beam elements lying one behind the other can to be assembled into a fluid-cooled central beam, it it is advantageous to arrange the central beam elements in series.

However, a parallel connection is also conceivable if it is Cooling regime makes sense. Middle part and outer part are separate, made and cast, for example, by casting from cast steel.

The solution according to the invention offers the advantage that a Center beam element and a center beam were developed, which have the disadvantages eliminate the state of the art and good emergency running properties Have fluid cooling. By the execution in the form of a cast part, the central beam element manufacture inexpensively and reliably.

Fig. 1

Schnitt B-B von Fig. 2 durch den erfindungsgemäßen fluidgekühlten Mittelbalken,

Fig. 2

Schnitt A-A von Fig. 1 durch das erfindungsgemäße Mittelbalkenelement.

In the following, the solution according to the invention is explained in more detail using two figures and an exemplary embodiment. The figures show:

Fig. 1

Section BB of FIG. 2 through the fluid-cooled central beam according to the invention,

Fig. 2

Section AA of Fig. 1 through the central beam element according to the invention.

The center bar shown in Fig. 1 consists of individual Central beam elements 15, depending on the length of the central beam can be built one after the other and in the present Embodiment are connected in series. A central beam element 15 consists of two bell-shaped, one-sided open Hollow bodies, from which the inner part 1 and the outer part 2 differ become. Both parts, made of cast iron, are cast individually and then put together. Ribs 3 are on the outer surface of the inner part 1 arranged, after the placement of the outer part 2, the limitation of Form cooling channels (a, b) and the closure of the entire cavity for ensure the absorption of the cooling medium. The ribs 3 of the inner part 1 are arranged so that 4 channels (a, b) are located behind the inflow opening divide on both sides of the inner part 1 and only on the outlet side 5 are brought together again in another second level to be split in opposite directions to again on the inlet side to meet. From there again led in the opposite direction Currents on the top level led to the outlet side 5, where they as a flow into the outlet pipe 7. The outlet pipe 7 is for Carrying air bubbles to the top of the cavity and penetrates the cooling medium on its way to the outlet 8 located below leading, underlying levels of the ribs 3. To accommodate Retaining plates 9, the inner part 1 has cross ribs 10 with cast-in Holes. The holding plates 9 are in the width of the inner contour of the Adjusted inner part 1 so that it positively on the outside Center beam element 15 can absorb acting transverse forces. At it is several ― like several middle beam elements 15 connected in series Fig. 1 shows - advantageously, the cooling liquid one by one Let the center beam element flow to the next.

As FIG. 2 shows, uncooled wear plates 11 are on the outer part 2 attachable between grate covering 12 and the central beam element 15, wherein the central beam element 15 in FIG. 2 is provided with cams 13. The Wear plates 11 are placed on these cams 13 and are with a short weld 14 secured to the central beam element 15.

List of the reference symbols used

1

inner part

2nd

Outer part

3rd

Ribs

4th

Inflow opening

5

Outlet side

6

second level

7

Outlet pipe

8th

Spout

9

Bracket

10th

Cross rib

11

Wear plate

12th

Rust coating

13

cam

14

Weld

15

Middle beam element

16

Channel (a, b)

Claims (15)

Fluid-cooled central beam element for multi-track Combustion grates, consisting of channels for the fluid, feeders and drains for the coolant, in which the central beam element (15) from two superimposed, interconnected, after parts open at the bottom (1, 2) which have at least one channel (a, b) form through which a cooling medium flows. Device according to claim 1, characterized in that the parts (1, 2) lying one above the other are bell-shaped. Apparatus according to claim 1 and 2, characterized in that the channel (a, b) is formed on both sides of the inner part (1) and lies over the entire surface, parallel to the thermally stressed outer surfaces. Device according to one of claims 1 to 3,
characterized in that
On each side of the inner part (1) there are a plurality of channels (a, b) lying one above the other, which lie over the entire surface and parallel to the thermally stressed outer surfaces. Device according to one of claims 1 to 4,
characterized in that
ribs (3) are arranged on the inner part (1) in the direction of the outer part (2). Device according to one of claims 1 to 5,
characterized in that
transverse ribs (10) for holding plates (9) are arranged within the inner part (1). Device according to one of claims 1 to 6,
characterized in that
at least one uncooled wear plate (11) is arranged on the outer part (2). Device according to one of claims 1 to 7,
characterized in that
uncooled wear plates (11) are placed on both sides of the outer part (2) and secured by means of a weld seam. Device according to one of claims 1 to 8,
characterized in that
the outer part (2) between the grate covering (12) and the central beam element (15) has cams (13). Device according to one of claims 1 to 9,
characterized in that the central beam element (15) represents a cast body. Device according to one of claims 1 to 10,
characterized in that
the inflow opening (4) is arranged opposite the outlet side (5). Device according to one of claims 1 to 11,
characterized in that
the outlet side (5) leads away from the highest point of the flow through the central beam element (15). Device according to one of claims 1 to 12,
characterized in that
there are at least three levels for channels (a, b) within the central beam element (15). Fluid-cooled center bar for multi-lane combustion grates, consisting of a plurality of center bar elements (15) lying one behind the other according to claims 1 to 13, characterized by a series connection of the center bar elements (15). Fluid-cooled center bar for multi-lane combustion grates, consisting of a plurality of side-by-side center bar elements (15) according to claims 1 to 14, characterized by a parallel connection of the center bar elements (15).

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