KR101318390B1 - Gas flux control apparatus of cog gas burner - Google Patents

Abstract

A COG gas burner gas flow rate regulator is disclosed. COG gas burner gas flow control device according to an embodiment of the present invention, one side of the upper housing connected to the COG pipe, one side of the lower housing is connected to the COG pipe, one side is connected to the upper housing and the other side is connected to the lower housing Gas flow rate control housing that has a relative rotational movement with the upper housing and the lower housing, the gas flow rate control housing is inserted into the hollow portion of the plurality of holes of different sizes are formed, a plurality of holes to control the gas flow rate The gas flow control unit is inserted into the hollow portion of the gas flow control housing, and forms a hole through which gas passes, allowing the gas to pass through, a shaft connected to one side of the gas supply unit, and one side connected to the upper housing, and the other side to the shaft. And a shaft support connected to and supporting the shaft.

Description

COS FLUX CONTROL APPARATUS OF COG GAS BURNER}

The present invention relates to a COG gas burner gas flow control device. More specifically, the present invention relates to a COG gas burner gas flow rate control device that can easily adjust gas flow rate compared to the conventional nozzle piece replacement type and can reduce maintenance costs such as installation, detachment, and maintenance.

In general, the coal charged in the carbonization chamber of the coke oven is coagulated by coagulation for a certain time.

The coke oven facility is composed of a rectangular box structure in which coal is charged and an combustion chamber that alternately burns fuel gas to supply heat required for coal drying. Between the oven and the combustion chamber, partition walls are formed as refractory bricks such as silica brick, and conduct heat of combustion in the combustion chamber through the partition walls, thereby supplying heat to the coal in the coke oven and distilling them.

1 is a view schematically showing a part of a pipe of a conventional COG gas burner gas supply device. Figure 2 is a perspective view of a conventionally used nozzle piece inserted into the COG pipe to adjust the gas flow rate.

1 and 2, the COG gas burner gas supply device 1 supplies gas to a combustion chamber for heating coal charged in a carbonization chamber. The heat source supplied causes the carbonization wall to be indirectly heated to coke the coke. At this time, since each of the low temperature appears different depending on the amount of coal, the moisture of the coal, etc., it is necessary to manage the individual low temperature differently. To this end, the gas flow rate is adjusted and supplied by a nozzle piece 11 installed in a COG (Coke Oven Gas) pipe. However, if it is impossible to pull out the nozzle piece due to sticking and corrosion of the nozzle piece 11 due to an increase in the number of years of operation, there is a problem in that the hole of the nozzle piece is expanded by using a drill when the supply flow rate increases. In addition, when the gas flow rate is reduced, an abnormal method of reducing the gas supply flow rate by inserting a wire is used.

Embodiments of the present invention to provide a COG gas burner gas flow rate control device that can adjust the supply flow rate by easily selecting by turning the gas hole to determine the gas supply amount to the left / right.

According to one aspect of the invention, one side is the upper housing connected to the COG pipe; A lower housing having one side connected to the COG pipe; A gas flow rate control housing having one side connected to the upper housing and the other side connected to the lower housing and performing relative rotational movement with the upper housing and the lower housing; A gas flow rate adjusting unit inserted into a hollow portion of the gas flow rate adjusting housing and having a plurality of holes having different sizes, the plurality of holes determining a gas supply amount; A gas supply unit inserted into a hollow portion of the gas flow rate control housing and forming a hole through which gas passes; A shaft connected to one side of the gas supply part and one side connected to the upper housing and the other side connected to the shaft, the shaft supporting part supporting the shaft, and a bearing between the upper housing and the gas flow control housing; COG gas burner gas flow rate control that is formed between the lower housing and the gas flow rate control housing, the gas flow rate control housing is in a relative rotational movement with the upper housing and the lower housing, and adjusts the amount of gas supplied to the COG pipe An apparatus may be provided.

In this case, the COG gas burner gas flow rate adjusting device is located above the gas flow rate adjusting part, and fixes the gas flow rate adjusting part supported on the gas flow rate adjusting support part formed in the gas flow rate adjusting housing to the gas flow rate adjusting housing. May include more government.

Meanwhile, one hole is formed in the gas supply unit, and the gas supply amount may be determined by overlapping one of the holes of the gas supply unit and a plurality of holes of the gas flow control unit.

On the other hand, the COG gas burner gas flow rate control device may further include a sealing unit for maintaining the airtight between the upper housing and the gas flow rate control housing and between the lower housing and the gas flow rate control housing.

In this case, the sealing portion may be a Teflon lip seal.

Meanwhile, the bearing may be a thrust bearing.

COG gas burner gas flow control device according to an embodiment of the present invention is easy to adjust the gas flow rate compared to the conventional nozzle piece replacement type, it is possible to reduce the maintenance costs such as mounting, detachment and maintenance.

In addition, the gas supply can be easily adjusted, so that the effective temperature management can be performed, thereby increasing the coke yield.

1 is a view schematically showing a part of a pipe of a conventional COG gas burner gas supply device.
Figure 2 is a perspective view of a conventionally used nozzle piece inserted into the COG pipe to adjust the gas flow rate.
Figure 3 is a schematic perspective view of the COG gas burner gas flow control device according to an embodiment of the present invention.
Figure 4 is an exploded perspective view of the COG gas burner gas flow control device according to an embodiment of the present invention.
5 is a cross-sectional view of a COG gas burner gas flow control device according to an embodiment of the present invention.
FIG. 6 is an enlarged cross-sectional view of part A of FIG. 5.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and operations of embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a schematic perspective view of the COG gas burner gas flow control device according to an embodiment of the present invention. Figure 4 is an exploded perspective view of the COG gas burner gas flow control device according to an embodiment of the present invention. 5 is a cross-sectional view of a COG gas burner gas flow control device according to an embodiment of the present invention. FIG. 6 is an enlarged cross-sectional view of part A of FIG. 5.

3 to 6, the COG gas burner gas flow control device 100 according to an embodiment of the present invention is the upper housing 110, shaft support portion 120, fixed portion 130, gas flow rate adjustment unit 140, a gas supply unit 150, a gas flow rate control housing 160, a lower housing 170, and a shaft 180 may be included.

The upper housing 110 has a cylindrical shape having a hollow portion in the center thereof, and one side thereof may be connected to a pipe (not shown) of the COG gas burner gas supply device. The shaft support part 120 may be coupled to the center hollow part of the upper housing 110 by welding or the like.

The shaft support 120 may be coupled to the center of the four thin plates at intervals of 90 degrees. One side of the shaft 180 passes through the center and may be coupled by a bolt. The shaft 180 may rotate about the center of the shaft support 120.

The fixing part 130 may have a cylindrical shape with one side open, and may be inserted into the gas flow adjusting housing 160 to fix the gas flow adjusting part 140 to the gas flow adjusting housing 160. In the COG gas burner gas flow control device according to an embodiment of the present invention, a snap ring may be used. Although a snap ring is used in the COG gas burner gas flow adjusting device according to an embodiment of the present invention, any one may be used as long as the gas flow adjusting unit 140 may be fixed to the gas flow adjusting housing 160.

The gas flow rate controller 140 may have a plurality of holes having different sizes, and determine a gas supply amount supplied to the COG gas burner through the plurality of holes. The gas flow rate adjusting unit 140 may be fixed to the gas flow rate adjusting housing 160 by the fixing unit 130. As the gas flow rate adjusting housing 160 rotates, the gas flow rate adjusting unit 140 also rotates at the same time. can do.

The gas supply unit 150 may be inserted into the gas flow rate control housing 160, and one hole having a predetermined size may be formed. By passing the gas through one hole, the gas supply unit 150 may supply the gas to the gas flow rate adjusting unit 140. The gas supply unit 150 may be positioned below the gas flow adjusting unit 140 and connected to one side of the shaft 180. It is connected to one side of the shaft 180, not coupled to the gas flow rate control housing 160, the gas supply unit 150 may not rotate as the gas flow rate control housing 160 rotates.

The gas flow rate control housing 160 has a cylindrical shape having a hollow portion formed therein, and the fixing portion 130, the gas flow rate adjusting portion 140, and the gas supply part 150 may be inserted therein. The gas flow rate adjusting unit 140 may be fixed to the gas flow rate adjusting housing 160 by the fixing unit 130. Therefore, as the gas flow rate control housing 160 rotates by a force applied from the outside, the gas flow rate control unit 140 fixed thereto may also rotate at the same time.

In addition, the gas flow rate control housing 160 may be provided with a gas flow rate control support 161 to support the gas flow rate control unit 140. The gas flow rate control support part 161 may be formed along the circumference of the gas flow rate control housing 160, and a hollow part may be formed in the gas flow rate control support part 161. The gas supply part 150 may be inserted into the hollow part of the gas flow rate control support part 161.

The sealing unit 190 may close the space between the gas flow rate control housing 160 and the upper housing 110 and the gas flow rate control housing 160 and the lower housing 170 to prevent the flow of fluid. The sealing unit 190 may be formed at least one of the upper and lower portions of the gas flow rate control housing 160, respectively. COG gas burner gas flow control device 100 according to an embodiment of the present invention may use a Teflon lip seal as the sealing portion 190. Teflon lip seal has the properties of low friction self-lubrication of Teflon, and is excellent in wear resistance and chemical resistance. COG gas burner gas flow rate control apparatus 100 according to an embodiment of the present invention used a Teflon lip seal as the sealing portion 190, but the gas flow rate control housing 160 and the upper housing 110 and gas flow rate control housing ( The gas flow rate adjusting housing 160 may be rotated independently of the upper housing 110 and the lower housing 170 while sealing the space between the 160 and the lower housing 170.

In addition, the bearing 195 may enable a relative rotational movement between the gas flow rate control housing 160 and the upper housing 110 and the gas flow rate control housing 160 and the lower housing 170. One or more bearings 195 may be formed on the upper and lower portions of the gas flow control housing 160, respectively. The COG gas burner gas flow control device 100 according to an embodiment of the present invention may use a thrust bearing as the bearing 195.

In addition, by forming a rotation range limiting portion (not shown) it can limit the rotation range of the gas flow rate control housing 160. That is, it can be limited to rotate from 0 degrees to 350 degrees based on the counterclockwise direction. To this end, a groove may be made along the circumference of the gas flow control housing 160 and a groove may not be formed at a portion thereof. In this case, a protrusion may be formed on a portion of the outer circumference of the gas supply unit 150 to be coupled to the groove of the gas flow rate control housing 160. In this way, when a projection on a portion of the outer circumference of the gas supply unit 150 encounters a portion in which the groove is not formed on the circumference of the inner portion of the gas flow control housing 160, the rotation is limited, so that the gas flow control housing 160 The rotation range of may be limited.

The lower housing 170 may have one side connected to the gas flow control housing 160 and the other side connected to the COG pipe (not shown).

The upper housing support part 196 may have a cylindrical shape in which a hollow part is formed and may be inserted into the upper housing 110 to support the upper housing 110. The upper housing support 196 can allow the upper housing 110 to withstand more impact from the outside.

On the other hand, in the COG gas burner gas flow rate control apparatus according to an embodiment of the present invention, when a force is applied from the outside, the gas flow rate control housing 160 may rotate. As the gas flow rate control housing 160 rotates, the gas flow rate control unit 140 may rotate at the same time. As the gas flow adjusting unit 140 rotates, holes of different sizes correspond to the holes on the gas supply unit 150, and accordingly, the gas supply amount may be adjusted according to the size of the hole of the gas flow adjusting unit 140. Can be.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood. The embodiments described above are therefore to be considered in all respects as illustrative and not restrictive.

1: COG gas burner gas supply device 10: COG piping
11: nozzle piece
100: COG gas burner gas flow control device
110: upper housing 120: shaft support
130: fixed part 140: gas flow rate control unit
150: gas supply unit 160: gas flow rate control housing
161: gas flow rate adjustment support 170: lower housing
180: shaft 190: sealing part
195 bearing 196 upper housing support

Claims (6)

COG gas burner gas flow rate adjusting device that controls the amount of gas installed in the COG pipe,
An upper housing having one side connected to the COG pipe;
A lower housing having one side connected to the COG pipe;
A gas flow rate control housing having one side connected to the upper housing and the other side connected to the lower housing and having a relative rotational movement with the upper housing and the lower housing;
A gas flow rate adjusting unit inserted into a hollow portion of the gas flow rate adjusting housing and having a plurality of holes having different sizes, the plurality of holes determining a gas supply amount;
A gas supply unit inserted into a hollow portion of the gas flow rate control housing and forming a hole through which gas passes;
A shaft connected to one side of the gas supply part;
One side is connected to the upper housing and the other side is connected to the shaft includes a shaft support for supporting the shaft,
COG gas burner gas bearing is formed between the upper housing and the gas flow control housing and between the lower housing and the gas flow control housing, the gas flow control housing is a relative rotational movement with the upper housing and the lower housing Flow regulator. The method of claim 1,
The COG gas burner gas flow rate adjusting device,
COG gas burner gas flow rate control further comprising a fixing part which is located above the gas flow rate control unit, the gas flow rate control unit supported on the gas flow rate control support formed in the gas flow rate control housing to the gas flow rate control housing Device. The method of claim 1,
One hole is formed in the gas supply unit,
COG gas burner gas flow rate control device that the gas supply amount is determined by overlapping the hole of the gas supply unit and one of a plurality of holes of the gas flow rate control unit. The method of claim 1,
The COG gas burner gas flow rate adjusting device,
COG gas burner gas flow rate regulating device further comprises a sealing unit for maintaining the airtight between the upper housing and the gas flow rate control housing and between the lower housing and the gas flow rate control housing. 5. The method of claim 4,
The sealing unit is a Teflon lip seal COG gas burner gas flow control device. The method of claim 1,
The bearing is a thrust bearing COG gas burner gas flow control device.

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