KR102425253B1 - Anti wear structure of water cooled grate - Google Patents

Abstract

The abrasion prevention structure of the water-cooled grate according to the present invention prevents wear on the end of the grate that occurs during the sliding motion between a plurality of grates disposed on the stocker of the incinerator, and has a flat shape so that the waste supplied to the incinerator is supplied. top plate; an end portion extending in one direction from the upper plate and having a shape bent downward along the longitudinal direction; side wall portions bent along a downward direction at both sides of the upper plate; a flow part formed through the upper plate, the end part, and the side wall part, which is a space for allowing the supplied cooling water to flow; a wear block support portion disposed at the lower end of the end portion in a state in which the combustion air hole is formed through; and a wear block separably coupled to the wear block support part, wherein the wear block of the first grate disposed on the upper part of the plurality of grates is disposed at the lower end of the first grate in a sliding manner. In the case of wear due to frictional contact with the upper plate, it may be desirable to separate and replace the wear block.

Description

Anti wear structure of water cooled grate

The present invention relates to a method of preventing life span shortening due to abrasion of the end of the grate that occurs during a relative sliding motion between a movable grate and a fixed grate constituting a plurality of grates disposed on a stocker of an incinerator.

A stocker-type incinerator is operated as a method that is harmless and can reduce the volume and convert waste heat obtained during the incineration process into energy.

In Korea, the stocker type incinerator is generally used in waste treatment. The cooling of the overheated grate during waste combustion using high temperature and high heat is an air cooling type that cools the grate with combustion air, and a water cooling type that cools the grate with cooling water circulation. .

The air-cooled grate has a problem in that it has a large effect on product durability due to the lack of cooling function due to the limitation of the cooling efficiency by combustion air, and the damage (high-temperature corrosion) of the grate is quick. In contrast, the water-cooled grate can maintain a constant surface (image surface) temperature by continuously circulating cooling water, thereby suppressing deterioration in durability and prolonging the life of the product.

A water cooling method in which the superheated grate is cooled by cooling water circulation during waste combustion using high temperature and high heat may be used.

The grate is installed alternately on the movable and fixed ends of the stocker installed inside the combustion chamber and agitates the combustion products through periodic reciprocating movements of the movable end to achieve complete combustion. The grate mounted on the fixed end is called a fixed grate, and the fixed grate and the moving grate are alternately combined in a step shape so that the flow direction of the waste as a whole is downward, and the moving grate becomes a pusher to perform reciprocating motion. Repeat to advance and stir the waste on the stocker downwards,

The lifespan of the existing water-cooled grate is about 5 years, and since it is manufactured by a casting method, there is a structural limitation in the cooling water pipe, there is a problem in economic feasibility. There is a practical limitation that the temperature of the grate surface is unavoidable because the cooling water is cooled or only the lower part of the grate is in contact.

The existing fixed water-cooled grate has a structure in which the grate surface of the grate is cooled by simply circulating the cooling water in a zigzag along the diaphragm installed inside the grate. It has not been able to support the cooling efficiency as needed.

During the movement of the water-cooled grate system, the friction between the end of the moving grate and the upper surface of the fixed grate causes a phenomenon in which the lifespan is shortened. do.

As a document providing technical contents on a water-cooled grate, reference may be made to Patent Registration Nos. 10-2083304 and 10-1373647.

(Patent Document 1) KR10-2083304 B

(Patent Document 2) KR10-1373647 B

The present invention is to solve the above problems in the prior art. In order to prevent wear at the end of the grate that occurs in the process of relative sliding motion between the movable grate and the fixed grate constituting a plurality of grates arranged on the stocker of the incinerator, friction is reduced. It is to provide a method for preventing the shortening of life by forming a separable structure of the lower end of the grate formed so that it can be replaced in case of wear.

The abrasion prevention structure of the water-cooled grate according to the present invention for achieving the above object is to prevent abrasion on the end of the grate that occurs in the course of a sliding motion between a plurality of grates disposed on the stocker of the incinerator. an upper plate having a flat shape so that waste is supplied; an end portion extending in one direction from the upper plate and having a shape bent downward along the longitudinal direction; side wall portions bent along a downward direction at both sides of the upper plate; a flow part formed through the upper plate, the end part, and the side wall part, which is a space for allowing the supplied cooling water to flow; a wear block support portion disposed at the lower end of the end portion in a state in which the combustion air hole is formed through; and a wear block separably coupled to the wear block support part, wherein the wear block of the first grate disposed on the upper part of the plurality of grates is disposed at the lower end of the first grate in a sliding manner. In case of wear due to frictional contact with the upper plate, it may be desirable to separate and replace the wear block.

The wear block support part may include a wear block coupling part to which the wear block is coupled through a coupling means and a combustion air hole that enables the flow of combustion air generated in the waste treatment process through the grate.

It may be preferable that the wear block hardness of the first grate is lower than that of the upper plate of the second grate.

The wear block may be preferably in the form of a roll structure rotatably coupled to the wear block coupling portion.

The wear block may preferably include a roll structure coupling part having a rectangular parallelepiped shape that is statically fixed on the wear block coupling part through a coupling means and a roll structure rotatably coupled on the roll structure coupling part. ..

In the present invention as described above, in order to prevent wear at the end of the grate that occurs during the relative sliding motion between the movable grate and the fixed grate constituting a plurality of grates disposed on the stocker of the incinerator, the lower portion of the end of the grate, where friction is made, is separated. By making the structure possible, it is possible to replace it in case of wear, thereby preventing the shortening of the lifespan.

The present invention prevents a phenomenon in which the lifespan is shortened due to friction between the tip of the movable grate disposed at the top and the upper surface of the fixed grate disposed at the bottom during the movement of the water-cooled grate system. Prevents deterioration of combustion efficiency.

The present invention minimizes the moving gap between the rollers coupled to the roller shaft in a state in which the wear block separably coupled on the lower part of the grate and the roller shaft coupled to the wear block are configured.

The present invention enables immediate replacement when the wear block is severely worn by setting the hardness of the wear block coupled to the movable grate sliding the upper end of the fixed grate lower than the upper surface hardness of the fixed grate.

1 shows an overall coupling state between a movable grate and a fixed grate constituting a plurality of grates according to an embodiment of the present invention.
2 shows a water-cooled grate structure according to an embodiment of the present invention.
3 shows a water-cooled grate structure according to another embodiment of the present invention.
4 shows a structure of a water-cooled grate according to another embodiment of the present invention.
5 shows a structure of a water-cooled grate according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, and only these embodiments allow the disclosure of the present invention to be complete, and the scope of the invention to those of ordinary skill in the art. It is provided for complete disclosure. In the drawings, like reference numerals refer to like elements.

In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, an abrasion prevention structure of a water-cooled grate according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5 .

The present invention provides a structure for preventing abrasion on the end of the grate generated in the course of a sliding motion between a plurality of grates disposed on a stocker of an incinerator, and processing waste while supplying cooling water in the grate In the process, it is a key feature to solve the problem of abrasion of the contact part that may occur between a pair of grates in frictional contact with each other.

As an example of a water-cooled grate system, during operation of the water-cooled grate system, waste components placed on the grate are transferred through a mutual sliding contact process between a movable grate and a fixed grate constituting a plurality of grates.

In the present invention, for example, referring to FIG. 1 , the lifespan is reduced due to friction between the end of the movable grate 100 , which slides from the top, and the upper surface of the fixed grate 200 disposed at the lower end of the movable grate. It causes a shortening phenomenon, and by forming the worn end part of the movable grate in a replaceable separation structure, it is possible to prevent a decrease in combustion efficiency due to the wear of the movable grate end part, and consequently to improve the lifespan of the water-cooled grate. provide a way to

Referring to FIG. 2 , the water-cooled grate 100 according to the present invention extends in one direction from the upper plate 110 and the upper plate 110 having a flat shape so that the waste supplied to the incinerator is supplied. Formed through the end portion 120 having a bent shape, the side wall portion 130 bent from both sides of the upper plate in the downward direction, and the upper plate 110 , the end portion 120 and the side wall portion 130 . The flow part 140, which is a space that enables the flow of the supplied cooling water, the shaft fixing part 150 formed on the opposite side of the end part with respect to the flow part 140, and the combustion air hole 165 are formed therethrough In the state, it includes a wear block support unit 160 disposed at the lower end of the end portion 120 and a wear block 170 detachably coupled to the wear block support unit 160 .

Referring back to FIGS. 1 and 2 , as a movable grate disposed on an upper portion of the plurality of grates 100 and 200 , the wear block of the first grate 100 is a fixed grate disposed at the lower end of the first grate in a sliding manner. When the second grate 200 is worn due to frictional contact with the upper plate, the wear block is separated and replaced.

The end portion 120 is a bent portion formed at the front end of the grate disposed at the top of the pair of grates in frictional contact with each other, and allows the wear block 170 to be coupled to the lower portion thereof.

The side wall part 130 forms the flow part 140 in a state symmetrically formed on both lower ends with respect to the upper plate 110, and based on this, the image surface of the water-cooled grate is rapidly cooled based on this, so that the water-cooled grate. There is an advantage in that the cooling efficiency of the

The side wall portion 130 includes a wall plate 131 extending from an end portion to a shaft fixing portion, a plate groove 132 formed on the lower end of the middle region of the wall plate 131 , and a plate groove 132 based on the wall plate 131 . and a sidewall rib 133 protruding from the outer surface of the wall plate, and an assembly hole 134 penetrating through the sidewall rib 133 . The assembling hole 134 may fasten a bolt and a nut for mutual fastening when a plurality of grates are closely assembled. Accordingly, when the fixed grate and the movable grate are provided in plurality, the fixed grate provided in plurality and the movable grate provided in plurality through the assembling hole may be assembled and combined in a line-up form, respectively.

The flow unit 140 functions as an internal space that enables the circulating flow of the coolant introduced into the water-cooled grate through a pipe (not shown). Meanwhile, the flow unit may additionally form a separate inner wall to divide the flow path of the introduced cooling water into a plurality of flow paths. That is, one or more inner walls may be further installed between the pair of wall plates.

The shaft fixing part 150 is configured in the shape of a receiving groove for fitting the shaft provided in the stocker. The shaft fixing part is formed to surround only a part of the upper side of the shaft, and even if it is fitted, even when the grate and the stocker are coupled through the coupling body coupled to the shaft, when the mall connection body is released, the grate is lifted upward from the shaft. can be uncoupled. One side of the connector is coupled to any one water-cooled grate, and the other side is coupled to the one water-cooled grate and the other water-cooled grate adjacent to each other so as to be interconnected between the adjacent water-cooled grates, but when the one side or the other side is disconnected Any structure in which only the interconnection between the water-cooled grate coupled to one side and the other side is released is possible. A plurality of water-cooled grates are fitted with a shaft provided on the stocker, but since mutual coupling between neighboring grates is maintained by the connector, when the connector is disconnected, it is fitted so as to surround only the upper part of the shaft. It is easy to disengage the fitted grate from the shaft, thereby facilitating individual replacement of the water-cooled grate. On the other hand, it may be possible to directly couple through the shaft fixing parts respectively formed in the plurality of grates on the shaft provided on the stocker.

2, the wear block support unit 160, the wear block coupling unit 161 to which the wear block 170 is coupled through a coupling means, and the flow of combustion air generated in the waste treatment process through the grate It includes a combustion air hole 165 that enables it.

The wear block coupling part 161 is formed with a larger area on the first support block 162 in which the coupling means fastening hole 164 is formed and the upper portion of the first support block so that the combustion air hole 165 is formed. It includes a second support block (163). The combustion air hole is formed between the first support block and the second support block.

The wear block 170 has a rectangular parallelepiped shape that is statically fixed on the wear block coupling portion through a coupling means. That is, the coupling means binds between the block hole 173 and the coupling means fastening hole 164 . The wear block coupling portion is in a state in which the insert coupling groove 172 to which the first support block 162 is insert coupled as a whole is formed.

According to the present invention, abrasion occurs at the end of the movable grate due to friction between the end of the movable grate sliding at the top and the upper surface of the fixed grate disposed at the lower end of the movable grate. It may be preferable to set the hardness of the wear block at the end of the grate to be lower than the hardness of the upper plate of the second grate, which is a pulsating grate. For example, the wear block part of the mobile grate is made of SS400 having a hardness of 150 to 155, while the upper plate part of the fixed grate is made to have a hardness of 200 to 250. make it

Referring to FIG. 3, the wear block support 160 is a wear block coupling part 161 to which the wear block 170 is coupled through a coupling means, and a grate to enable the flow of combustion air generated in the waste treatment process. It includes a combustion air hole (165).

The wear block coupling portion 161 is formed with a wear block chamber 166 in which the wear block 170 is inserted and fixed. The wear block 170 has a roll structure shape rotatably coupled in the wear block chamber 166 . The roll structure coupled to the wear block chamber 166 minimizes the gap with the surroundings, thereby minimizing the gap between the rollers.

4, it is possible that a plurality of wear block chambers are formed on the wear block coupling portion.

Referring to FIG. 5 , the wear block 170 includes a roll structure coupling part 171 and the roll structure coupling part 171 having a rectangular parallelepiped shape that is statically fixed on the wear block coupling part 161 through a coupling means. and a roll structure 176 rotatably coupled thereon.

The present invention provides a separable structure for the lower end of the grate, where friction is made, in order to prevent wear at the end of the grate that occurs during the relative sliding motion between the movable grate and the fixed grate constituting a plurality of grates disposed on the stocker of the incinerator. This prevents shortening of life by enabling replacement in case of wear.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to illustrate, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100,200: water-cooled grate
110: upper plate
120: end
130: side wall
140: moving part
150: shaft fixing part
160: wear block support
170: wear block

Claims (3)

In the structure for preventing abrasion on the end of the grate generated in the course of the sliding motion between the plurality of grates disposed on the stocker of the incinerator,
an upper plate having a flat shape so that the waste supplied to the incinerator is supplied;
an end portion extending in one direction from the upper plate and having a shape bent downward along the longitudinal direction;
side wall portions bent along the lower direction at both sides of the upper plate;
a flow part formed through the upper plate, the end part, and the side wall part, which is a space that enables the flow of the supplied cooling water;
a shaft fixing part formed on the opposite side of the end part based on the flow part;
A wear block support portion disposed at the lower end of the end portion in a state in which the combustion air hole is formed through; and
and a wear block detachably coupled to the wear block support part;
The wear block support part includes a wear block coupling part to which the wear block is coupled through a coupling means and a combustion air hole that enables the flow of combustion air generated in the waste treatment process through the grate,
The side wall portion is a wall plate 131 extending from the end portion to the shaft fixing portion, a plate groove 132 formed on the lower end of the middle region of the wall plate 131, and the plate groove 132 as the reference. A sidewall rib 133 protruding from the outer surface of the wall plate, and an assembly hole 134 that is formed through the sidewall rib 133 to enable mutual fastening when a plurality of grates are closely assembled. ,
The wear block includes a roll structure coupling part having a rectangular parallelepiped shape that is statically fixed on the wear block coupling part through a coupling means and a roll structure rotatably coupled on the roll structure coupling part,
When the wear block of the first grate disposed at the upper portion of the plurality of grates is worn due to frictional contact with the upper plate of the second grate disposed at the lower end of the first grate in a sliding manner, the wear block is separated characterized in that it is replaced by
Wear-resistant structure of water-cooled grate.
The method of claim 1,
The wear block hardness of the first grate is lower than the upper plate hardness of the second grate, the water-cooled grate wear protection structure.
3. The method of claim 2,
The wear block is in the shape of a roll structure rotatably coupled to the wear block coupling portion, the wear protection structure of the water-cooled grate.

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