JP2000104913A - Stoker block - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance cooling efficiency inexpensively by constituting a stoker of a substantially rectangular body section establishing the longitudinal direction, providing an integrally cast snaking pipe and disposing a part of a cooling pipe to run in the longitudinal direction. SOLUTION: The stoker block 1 is substantially formed into a rectangle having a predetermined longitudinal direction L being defined by an upper wall 23, side walls 29a, 29b, front wall 24 and rear wall 21. Two blocks 22 are mounted on the rear wall 21. A cooling pipe 16 and coupling pieces 30, 43 are arranged in the block 1 to run symmetrically to a plane S of symmetry. A part 16a of the pipe 16 runs freely in a first segment and then it is introduced into a casting toward the front wall 24. The part 16a runs in the longitudinal direction L and continues from a bend 16b to a part 16e. According to the structure, the stoker block can be manufactured at low cost and cooled very efficiently.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a grate block for a waste heat treatment plant, according to the preamble of claim 1.

[0002]

2. Description of the Related Art Publication EP 0 844 438 A2 discloses a grate for a combustion plant having a plurality of grate blocks with cooling passages. This known grate block has a longitudinal direction and has cooling passages running perpendicular to the longitudinal direction of the grate, the cooling passages being arranged in a bent shape,
Cooling of different strength can be provided in the vertical direction.

[0003]

A disadvantage of this known grate block is that different types of grate blocks are required for a grate having a plurality of grate blocks arranged side by side. is there. Further, the grate side walls are difficult to cool. In addition, the form of the bent cooling passage is relatively complicated and therefore expensive.

It is an object of the present invention to form a grate block which is more advantageous with respect to efficiency.

[0005]

This object is achieved by the present invention.
This is achieved by a grate block having the features described in. The subclaims 2 to 8 relate to further advantageous refinements of the grate block.

[0006] The object is, in particular, a grate block having an integrally cast pipe, which consists of an essentially rectangular body which establishes a longitudinal direction and which runs in a bent shape, wherein the pipe part is This is achieved by being arranged laterally in the grate block so as to run in the vertical direction.
The coolant used is a fluid, preferably water,
Flow through the pipes to cool the grate block.

[0007] The arrangement of the pipes running vertically through the grate block and via the lateral parts has the advantage that a large amount of heat can be dissipated via the sides. The advantage of the invention can be seen in the grate having the grate block according to the invention, in that the side walls or lateral boundaries can be cooled in a simple manner. Furthermore, by orienting the pipe in the vertical direction, it is possible to greatly prevent a difference in cooling in the vertical direction of the grate block, which is a factor having an advantage that a large temperature difference does not occur in the vertical direction. Since there is usually only one pipe in the grate block and through which common fluid flows, this means that one part of the laterally running pipe is oriented vertically in the vertical direction of the laterally running pipe. This can result in a large temperature difference with the opposing opposing portion. In a grate block, this results in a temperature difference across the machine and the machine. The grate block according to the invention has the advantage that this result can be compensated for by two grate blocks arranged side by side, with one side having a slightly higher temperature and the other side having a slightly lower temperature. , The temperature difference existing due to heat exchange via adjacent sides is reduced.

According to a particularly advantageous refinement, the pipe is arranged to run symmetrically with respect to the longitudinally extending symmetry plane of the grate block. The advantage of this is that only one embodiment of the grate block is needed to equip the entire grate.

A further advantage of the grate block according to the invention is that relatively low bending of the inserted pipe is required to achieve the required cooling capacity, for which reason the pipe is inexpensive. Can be shaped in any way. Such pipes are prefabricated as semi-finished products, the ready-to-mold pipes are put into the casting mold of the grate block unit, and the grate blocks are cast in a manner known per se.

In the following, some exemplary embodiments of the present invention will be described in more detail with reference to the drawings.

[0011]

FIG. 1 shows a longitudinal section of a grate block 1 in a longitudinal direction L. FIG. The grate block 1 is produced as a casting having an integrally cast pipe 16. The grate block has an upper wall 23,
The same wall forms an effective surface 33. On the left hand side, the upper wall 23
Is connected to the rear wall 21 and the hook 22. On the right hand side, the upper wall 23 connects to the corner 25 and further the front wall 24
And the front wall has a bearing surface 26a at the bottom.
Are formed. Top wall 23, bottom wall 2
1, and the front wall 24 is closed by a side wall 29 at the rear. The pipe 16 has a water connection piece 30 and then rises to the corner between the top wall 23 and the side wall 29, and the section 16a of the pipe 16 runs along the corner in the longitudinal direction L and the corner It reaches 25. Thereafter, the pipe 16 drops to the height of the foot 26 and then runs through the foot 26 perpendicular to the plane of the paper. Pipe 16 is part 16a
, Runs along the corner in the longitudinal direction L over the length L2. The pipe 16 runs along the side wall 29 over a length L5. The grate block 1 has an overall length L4 and the foot has a bearing surface 26a of length L3. Furthermore, an air outlet opening 47 is arranged in the front wall 24.

FIG. 2 shows a further exemplary embodiment of the grate block 1, which is formed in a manner very similar to the example shown in FIG. After the connecting piece 30, the pipe 16 initially runs substantially perpendicular to the longitudinal direction L, and then has a 90 ° bend, again at the corner between the upper wall 23 and the side wall 29 at the portion 16a. Run in the vertical direction L. The portion 16a extends in the longitudinal direction L over a length L2, which is advantageously at least one-fifth or more of the overall length L4 of the grate block 1. The portion 16a extends over about 2/3 of the length L4 in FIG. 1 and extends over about 4/5 of the length L4 in FIG.

FIG. 3 is a bottom view showing a further exemplary embodiment of the grate block 1. The grate block 1 is essentially rectangular in shape, has a defined longitudinal direction L, and has an upper wall 23 as shown in FIG. The front wall is defined by the front wall 24 and the rear is defined by the rear wall 21. Two hooks 2
2 are arranged on the rear wall 21. Grate block 1
It runs in the longitudinal direction L and has a plane of symmetry S perpendicular to the plane of the paper.
The pipe 16 and the connecting pieces 30, 43 are arranged in the grate block 1 so as to run symmetrically with respect to the plane S. The coupling pieces 30, 43 are arranged to protrude beyond the rear wall 21 and are therefore easily accessible. The portion 16a of the pipe 16 runs freely in the first segment and is guided into the casting and towards the front wall 24. The portion 16a runs essentially in the longitudinal direction L, followed by a bent portion 16b, and a further portion 1 running in the longitudinal direction L
6c, and then again to the bent portion 16d, which in turn leads to the portion 16e.

FIG. 4 is a cross-sectional view taken along the line AA, showing a portion 16e running on the corner between the upper wall 23 and the right side wall 29b. Thereafter, the pipe drops into the portion 16f, and leads to the portion 16g running in the foot portion 26 perpendicularly to the longitudinal direction L.

Although the pipe 16 has a slightly bent shape, it runs in the longitudinal direction L for a considerable distance. Since this pipe 16 has relatively few bending points, for this reason it can be manufactured in an efficient cost manner. The side wall 29a, 29b is a portion 1 running in the longitudinal direction L.
6e provides very efficient cooling. Assuming that the cooling water is, for example, in the direction passing through the coupling piece 30, the right-hand side wall 29b is exposed to cooling slightly more strongly than the side wall 29a, but by the time the water reaches the portion 16e of the side wall 29a. This is because it has been warmed up. This usually small temperature difference between the left-hand and right-hand side walls 29a, 29b is partially compensated by the heat conduction of the casting. Since further grate blocks 1 are advantageously arranged on the left and / or right side of the illustrated grate block 1, their side walls 29a, 29b face each other,
As a result, those slight temperature differences are additionally compensated, resulting in a relatively uniform temperature distribution.

FIG. 7 shows the grate element 3 as part of a grate for a plant that heat treats waste such as refuse. A plurality of grate blocks 1 are arranged side by side to form a grate width.

In the exemplary embodiment shown, the grate element 3 has nine rows 4, 5 of grate blocks 1, arranged longitudinally one behind the other, with a fixed row 4 followed by a movable row 5. Are located. All the grate blocks 1 are rotatably mounted at one end thereof around a block holding tube 7. The block holding tube 7 of the fixed grate block 1 is fixed to a fixed bracket 8, while the block holding tube 7 of the movable grate block 1 is fixed to a bracket 9 that is linearly movable in the longitudinal direction L. ing. All movable brackets 9 are fixed to a grate carriage, which is reciprocally movable in the longitudinal direction L and is mounted on the support of the grate element 3 via rollers. This movement in the longitudinal direction L essentially causes the movable row 5 of the grate blocks 1 to move in the L1 direction, during which all the grate blocks additionally additionally have their respective block holding tubes 7. Performs a slight rotation around the center. The side of the transport track formed by the grate block 1 is constituted by a side cover 15 or a side wall 15.

According to the arrangement of the parts 16a, 16e in the grate block 1 according to the invention, the side walls 15 are cooled in a simple manner via the side walls 29a, 29b of the adjacent grate block 1, respectively. Can be.

An essential advantage of the grate block 1 according to the invention is that all cooling requirements are fulfilled in a single embodiment, both for cooling the grate block 1 and for cooling the side lid 15. Is that you can do it.
Furthermore, the coupling pieces 30, 43 are always located at the same point, which substantially simplifies the supply of fluid.

FIG. 5 is a perspective view showing the bottom surface of a further exemplary embodiment of the grate block 1, the reference numbers corresponding to FIGS. 3 and 4. The grate block 1 is also formed symmetrically with respect to the symmetry plane S shown in FIG. FIG. 6 shows the running of a pipe 16 cast integrally in the grate block 1 according to FIG. Water is supplied via the coupling piece 30 and the parts 16a, 16a
b, 16i, 16d, 16k, 16h to 16e, which runs in the longitudinal direction L along the side wall 29b and then runs perpendicular to the longitudinal direction L via the portion 16f. It flows to the section 16g and then to the symmetrical run of the pipe 16 back to the coupling piece 43.

When the pipe 16 is integrally cast into the grate block 1, the pipe 16 runs symmetrically with respect to the plane of symmetry S, but the pipe 16 has the side walls 29a,
The portion 16e running in the vertical direction L at 29b may not be provided. As a result, the cooling of the side walls 29a, 29b will be reduced, but the further advantages of the device according to the invention will be retained.

For cooling the grate block, the surface 3
It is preferable to keep one side as warm as possible to reduce the heat taken from the garbage on 3 and keep the other side cool so that the grate blocks made of cast iron do not suffer from excessive wear due to high temperatures. .

The integrally cast pipe 16 is made of a metal or metal alloy, for example, cast iron. The pipe 16 may be one-piece, or it may comprise a plurality of pieces that are joined to form a fluid passage. It is also possible to integrally cast a plurality of separate pipes 16, for example two pipes 16, into the grate block 1, in which case both pipes each have two connecting pieces 3.
0,43 and are therefore supplied separately with a fluid such as water. These two pipes 16 can be arranged in the grate block 1 so as to run symmetrically with respect to the symmetry plane S, for example.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of a grate block.

FIG. 2 is a perspective view showing a longitudinal section of a further grate block.

FIG. 3a is a bottom view of a further grate block.

FIG. 4 is a cross-sectional view of the grate block taken along the line AA of FIG. 3;

FIG. 5 is a perspective view showing a bottom surface of a further grate block.

FIG. 6 is a perspective view showing a pipe traveling in the grate block shown in FIG. 5;

FIG. 7 is a perspective view showing a grate.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Grate block 16 Pipe 33 Effective surface 29 Side wall 23 Wall 30 Fluid supply connection part 21 Closed part 24 Front part 47 Air outlet opening

Claims (9)

[Claims] 1. A grate block (1) for a waste heat treatment plant, comprising an essentially rectangular body which establishes a longitudinal direction (L) and integrally running in a bent shape. In the case of having a cast pipe (16), it is assumed that the sections (16a, 16e) of the pipe (16) are arranged laterally in the grate block (1) so as to run in the longitudinal direction (L). Grate block featured. 2. The grate block (1) has an overall length (L4) in a longitudinal direction (L), and includes portions (16a, 16a).
Grate block (1) according to claim 1, characterized in that e) extends over at least 1/5 of the overall length (L4). 3. The grate block (1) has an upwardly facing effective surface (33) and is symmetric about a plane (S) extending perpendicular to the effective surface (33) and the longitudinal direction (L). Grate block (1) according to claim 1 or 2, characterized in that a pipe (16) is arranged so as to run. 4. The grate block (1) forms an effective surface (33) and extends in a longitudinal direction (L) and is substantially perpendicular to the effective surface (33).
Grate block (1) according to any one of the preceding claims, characterized in that it has an upper wall (23) whose two sides are connected to b). 5. The side wall (29a, 29b) and the effective surface (3)
The grate block (1) according to claim 4, wherein the wall (23) forming the corner (3) forms a corner, and the portions (16a, 16e) run along the corner. ). 6. The grate block (1) has a front part (24) extending perpendicularly to the longitudinal direction (L), and a part (16g) of the pipe (16) is arranged in the longitudinal direction (L). Grate block (1) according to any of the preceding claims, characterized in that it is arranged in the front part (24) so as to run vertically. 7. The grate block (1) has a closing part (21) extending perpendicular to the longitudinal direction (L),
The pipe (16) has a fluid supply connection (30) and a fluid discharge connection (43), these connections (30, 43).
Grate block (1) according to any of the preceding claims, wherein the grate block (1) is arranged in the region of a closed part (21). 8. The grate block (1) having an air outlet opening (47) extending in a substantially vertical direction (L) at a front part (24) thereof. The grate block (1) according to claim 1. 9. A refuse incineration plant comprising the grate block (1) according to any one of claims 1 to 8.