KR102485539B1 - Grate - Google Patents

Abstract

The present invention relates to an incinerator grate, and more specifically, to an incinerator grate, wherein an air hole is formed on the main body of a grate to allow the flow of air in a vertical direction. The grate is made of alloy, including, based on wt%: 0.40-1.00% of C; 1.00-1.50% of Si; 0.70-1.20% of Mn; 8.00-11.00% of Ni; 25.00-30.00% of Cr; 0.15-0.30% of Nb; and 0.15-0.30% of Ti. Therefore, the air passing through the air hole comes in direct contact with the main body of the grate, which is operated at the upper side of the grate, for cooling, to decrease the entire temperature of the grate, thereby improving durability of the product. In addition, wear resistance of the alloy constituting the grate may be improved, thereby extending the service life of the grate.

Description

Grate for incinerator {Grate}

The present invention relates to a grate for an incinerator, and more particularly, air holes are formed on the main body of the grate to allow air flow in the vertical direction, and the grate contains C: 0.40 to 1.00% by weight, Si: 1.00 to 1.50 By weight%, Mn: 0.70 to 1.20% by weight, Ni: 8.00 to 11.00% by weight, Cr: 25.00 to 30.00% by weight, Nb: 0.15 to 0.30% by weight, Ti: 0.15 to 0.30% by weight. By forming an alloy containing, The air passing through the air hole directly contacts and cools the main body of the grate operating on the upper side of the grate, lowering the overall temperature of the grate, thereby improving the durability of the product, and the wear resistance of the alloy constituting the grate It relates to a grate for an incinerator configured to be improved so that the life of the grate can be extended.

1 and 2 are views showing a conventional grate. FIG. 1 schematically shows the inside of an incinerator in which a conventional grate is installed, and FIG. 2 illustrates a state in which a conventional grate is installed.

Generally, incinerators are used to incinerate industrial and environmental waste.

Inside the incinerator 1, a support means 2 is formed to support the industrial and environmental wastes introduced into the incinerator 1. This support means 2 is formed by arranging a plurality of grates 5, The means 2 is formed in a multi-layered manner as shown in FIG.

The grate 5 installed in multiple stages can be divided into a movable grate 5a and a fixed grate 5b. The odd-numbered grate is moved forward and backward periodically by a transport means 10 (not shown) to incinerate the grate. It is a movable grate (5a) configured to push the garbage injected into the front, and a fixed grate (5b) configured to maintain a fixed state of the grate of even-numbered floors.

Support means (2) consists of a plurality of movable grate (5a) or fixed grate (5b) arranged to form one layer of support means (2), the shaft (3) is inserted into one side of the grate (5) and coupled, odd number Supports 4 connected to the transfer means 10 are coupled to both ends of the shaft 3 inserted into the moving grate 5a installed on the floor.

The conventional grate 5 described above is composed of a main body 6 having a horizontal upper surface 7, and a shovel 8 for inserting the shaft 3 is provided on one side of the main body 6. and, on the other side, a head portion 9 for pushing garbage forward during forward operation is formed.

In the conventional incinerator configured as described above, when garbage is introduced through an inlet not shown, it falls on the supporting means 2 (left side in the drawing) formed at the top, and in that state, by heat applied from the burner installed inside the incinerator 1 get rid of

When the garbage that has fallen on the uppermost supporting means 2 is ignited once, the garbage is burned by itself due to the volatile substances contained in the garbage, and after a certain time elapses, the odd-numbered floors are moved by an unshown transportation means As the grate 5a moves forward, industrial and environmental waste is pushed downstairs, and by the driving of the moving grates 5a installed in several layers, the waste is continuously moved to the lower floor and burned.

When a series of processes as described above are repeated, the garbage, which is burned by itself and almost only ash remains, is discharged through a discharge port (not shown) formed at one end of the incinerator 1 through the supporting means 2 on the lowest layer. will be.

However, since the prior art does not have a cooling hole capable of efficiently cooling the grate, it is exposed to a high-temperature environment and is used. As a result, the grate is overheated and the life span is shortened. Since it is formed vertically, when the movable grate moves forward and pushes the garbage, the high-temperature, high-load garbage hits the head of the movable grate as it is, and the load is transmitted, which weakens the durability of the head and shortens its lifespan. Since the supporting shovel is formed to cover the entire shaft, the shaft is driven while being in full contact with the shoud during forward and backward movement of the moving grate, so the wear of the shovel and shaft is accelerated, which causes a shortened lifespan. was happening

Therefore, the present invention for solving the above problems forms an air hole allowing air flow in the vertical direction on the main body of the grate, and the grate contains C: 0.40 to 1.00% by weight, Si: 1.00 to 1.50% by weight, By forming an alloy containing Mn: 0.70 to 1.20 wt%, Ni: 8.00 to 11.00 wt%, Cr: 25.00 to 30.00 wt%, Nb: 0.15 to 0.30 wt%, and Ti: 0.15 to 0.30 wt%, air holes are formed. The air passing through directly contacts and cools the main body of the grate operating on the upper side of the grate, thereby lowering the overall temperature of the grate, thereby improving the durability of the product and improving the wear resistance of the alloy constituting the grate. It is an object of the present invention to provide a grate for an incinerator configured to extend the life of the grate.

The present invention for achieving the above object

In the incinerator grate, which includes a movable grate 5a and a fixed grate 5b arranged and installed so as to be sequentially stacked inside the incinerator 1,

An air hole 100 is formed in the main body 6 of the movable grate 5a and the fixed grate 5b to allow air flow in the vertical direction, but the air hole 100 is formed on the top of the grate. It is characterized in that it is formed close to the shovel 8 so that it can be hidden by existing within the operating range of

The grate contains C: 0.40 to 1.00 wt%, Si: 1.00 to 1.50 wt%, Mn: 0.70 to 1.20 wt%, Ni: 8.00 to 11.00 wt%, Cr: 25.00 to 30.00 wt%, Nb: 0.15 to 0.30 wt%, It is characterized in that it is formed of an alloy containing Ti: 0.15 to 0.30% by weight, the balance being Fe and unavoidable impurities.

According to the present invention, the air passing through the air hole is directly contacted and cooled by the main body of the grate operating on the upper side of the grate, thereby lowering the overall temperature of the grate, thereby improving the durability of the product. It is possible to extend the life of the grate by improving the abrasion resistance of the alloy, and by forming the first head and the second head at the head of the grate with a step, the load is distributed when the grate pushes the garbage, thereby extending the life of the head part. can be extended, and the effect of reducing the shaft slip phenomenon can be expected by forming a shaft contact portion protruding in contact with the shaft in a three-point contact method on the inner surface of the shaft into which the shaft is fitted.

1 is a view illustrating a state in which a conventional grate is installed in an incinerator.
2 is a view illustrating a stacked installation state of a conventional grate.
3 is a view showing the grate of the present invention.
4 and 5 are views showing an embodiment in which the grate of the present invention is installed.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings FIGS. 3 to 5.

In the description of the present invention, the same components as those in the prior art are marked with the same symbols to avoid redundant description.

According to the drawing, the present invention

In the incinerator grate, which includes a movable grate 5a and a fixed grate 5b arranged and installed so as to be sequentially stacked inside the incinerator 1,

An air hole 100 is formed in the main body 6 of the movable grate 5a and the fixed grate 5b to allow air flow in the vertical direction, but the air hole 100 is formed on the top of the grate. It is characterized in that it is formed close to the shovel 8 so that it can be hidden by existing within the operating range of

The grate contains C: 0.40 to 1.00 wt%, Si: 1.00 to 1.50 wt%, Mn: 0.70 to 1.20 wt%, Ni: 8.00 to 11.00 wt%, Cr: 25.00 to 30.00 wt%, Nb: 0.15 to 0.30 wt%, It is characterized in that it is formed of an alloy containing Ti: 0.15 to 0.30% by weight, the balance being Fe and unavoidable impurities.

In addition, it is characterized in that the shaft contact portion 81, which is in three-point contact with the shaft 3, is formed to protrude from the inner and upper surfaces of the shovel 8, respectively.

In addition, the head portion 9 formed at the front end of the main body 6 is separated into a first stage head 91 and a second stage head 92, but the second stage head 92 is placed below the first stage head 91. ) is characterized in that it is formed so that it protrudes forward stepwise.

Figure 3a is a perspective view showing the grate of the present invention, Figure 3b is a side view showing the grate of the present invention, Figure 3c is a bottom view showing the grate of the present invention, Figures 4 and 5 are the grate of the present invention in a stacked arrangement This is an example of the installed state.

The greatest feature of the present invention is that air holes 100 are formed in the main body 6 of the movable grate 5a and the fixed grate 5b constituting the grate 5 to allow air to flow in the vertical direction.

In addition, it is preferable that the formation position of the air hole 100 is formed close to the shudder 8 so that it exists within the operation range of the grate stacked on top and can be covered.

Inside the incinerator 1, air is supplied from the lower side to the upper side of the incinerator 1 by a fan (not shown), and the air supplied in this way promotes the incineration of waste.

As shown in FIGS. 4 and 5, the moving grate 5a and the fixed grate 5b are sequentially arranged, and the moving grate 5a slides forward and backward on the fixed grate 5b to remove waste to be incinerated. It operates to push forward. At this time, the air hole 100 formed in the fixed grate 5b exists within the operating range of the moving grate 5a on the upper side, so that the air passing through the air hole 100 always moves upward It is designed to cool the main body of the grate 5a, and since the air hole 100 is covered by the moving grate 5a on the upper side, garbage to be incinerated does not fall downward through the air hole 100. do.

Also, the air hole 100 formed in the movable grate 5a passes through the air hole 100 of the movable grate 5a because it does not deviate from the upper fixed grate 5b even when the movable grate 5a operates forward and backward. It is possible to effectively cool the fixed grate 5b while directly contacting the upper fixed grate 5b.

Reference numeral 61 denotes cooling fins formed on the lower surface of the main body 6, and the air passing through the air hole 100 directly contacts the cooling fins 61 while radiating heat from the cooling fins 61. It is to facilitate the cooling of the grate to be carried out smoothly.

Due to the cooling operation by the air hole 100, the temperature of the grate is not excessively increased, so that the effect of extending the life of the grate can be expected while suppressing the occurrence of cracks in the grate.

On the other hand, in the present invention, the shaft contact portion 81 in three-point contact with the shaft 3 is formed to protrude from the inner and upper surfaces of the shovel 8, respectively.

As shown in the drawing, when the shaft contact portion 81 is formed by protruding the inner surface and the upper surface of the shovel 8, the shaft 3 and the shaft contact portion 81 are in contact with each other in a three-point contact method, and the entire shaft 3 It is possible to reduce wear, and by this effect, the shaft slip phenomenon is significantly reduced.

That is, in the prior art, since the shaft 3 and the shovel 8 are in contact with each other in a surface contact method, the shaft and the shovel are excessively contacted during the operation of the grate and easily worn, and for this reason, the gap between the shaft and the shovel is reduced. There was a problem that the shaft slip phenomenon occurred while occurring, but since the shaft and the shaft are contacted in a three-point contact method as in the present invention, it is possible to reduce the wear rate of the shaft 3, thereby reducing the shaft slip phenomenon. .

And, in the present invention, the head portion 9 formed at the front end of the main body 6 is separated into a first stage head 91 and a second stage head 92, but two stages below the first stage head 91. The head 92 is formed so as to protrude forward in steps.

When the head unit 9 is formed by protruding the first stage head 91 stepwise downward with the second stage head 92 on the upper side, the first stage head 5a pushes the garbage forward while moving the grate 5a forward. (91) first pushes the trash while contacting the trash first, and then the second-stage head 92 secondarily contacts the trash and pushes the trash. ) and the second stage head 92, so that the wear rate of the head portion 9 can be reduced.

Meanwhile, the grate of the present invention contains C: 0.40 to 1.00 wt%, Si: 1.00 to 1.50 wt%, Mn: 0.70 to 1.20 wt%, Ni: 8.00 to 11.00 wt%, Cr: 25.00 to 30.00 wt%, Nb: 0.15 ~ 0.30% by weight, Ti: 0.15 ~ 0.30% by weight, the balance is formed of an alloy consisting of Fe and unavoidable impurities.

In the above composition, C (carbon) is an effective element for improving high-temperature strength and creep resistance required as heat-resistant steel, Si (silicon) forms an oxide film on the metal surface to improve high-temperature corrosion resistance, and Mn (Manganese) increases the toughness of steel and prevents red heat embrittlement, Ni (nickel) is an element very effective in corrosion resistance and heat resistance, so the effect of preventing deterioration of the grate at high temperature can be expected, and Cr (chrome) is a high-temperature strength It improves corrosion resistance by forming an oxide film on the metal surface while increasing it, Nb (niobium) increases the strength of steel, and Ti (titanium) increases the surface strength of steel.

By manufacturing the grate with an alloy having such a composition, it is possible to provide a grate with improved abrasion resistance, improved heat resistance, and high-temperature deterioration corrosion inhibiting function of the grate.

1: incinerator, 2: supporting means,
3: axis, 4: support,
5: grate, 5a: moving grate,
5b: fixed grate, 6: main body,
8: Shoud, 9: Head,
61: cooling fin, 81: shaft contact,
91: 1st stage head, 92: 2nd stage head,
100: air hole,

Claims (3)

In the incinerator grate, which includes a moving grate 5a and a fixed grate 5b arranged and installed so as to be sequentially stacked inside the incinerator 1,
An air hole 100 is formed in the main body 6 of the movable grate 5a and the fixed grate 5b to allow air flow in the vertical direction, but the position of the air hole 100 is a grate stacked on top. Characterized in that it is formed close to the shovel 8 so that it can be hidden by existing within the operating range of
The grate contains C: 0.40 to 1.00 wt%, Si: 1.00 to 1.50 wt%, Mn: 0.70 to 1.20 wt%, Ni: 8.00 to 11.00 wt%, Cr: 25.00 to 30.00 wt%, Nb: 0.15 to 0.30 wt%, An incinerator grate characterized by being formed of an alloy containing Ti: 0.15 to 0.30% by weight, the balance being Fe and unavoidable impurities.
According to claim 1,
An incinerator grate characterized in that the shaft contact portion (81), which is in three-point contact with the shaft (3), is formed to protrude from the inner and upper surfaces of the shovel (8), respectively.
According to claim 1,
The head part 9 formed at the front end of the main body 6 is separated into a first stage head 91 and a second stage head 92, but the second stage head 92 is located below the first stage head 91. A grate for an incinerator, characterized in that it is formed so as to protrude forward in a stepped manner.

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