KR200329933Y1 - cooling apparatus of a flame detector - Google Patents

Abstract

The disclosed design relates to a combustion flame detector cooling device, which is provided with a cooling device that blocks rapid heat transfer between a combustion flame detector and a combustor to prevent the high temperature heat conducted from a casing portion of a combustor body from being conducted to the combustion flame detector. will be.

To this end, the present invention provides a heat conduction blocker having a passage through which coolant flows at the rear end of the union portion of the combustion flame detector connected to the combustor, and through the union portion at the main casing part of the combustor by the coolant flowing through the heat conduction blocker. By providing a combustion flame detector cooling device configured to block high temperature heat conducted to the combustion flame detector, it is possible to protect the combustion flame detector from high heat, thereby eliminating the cause that the combustion flame detector causes malfunction and failure by heat. Therefore, it is possible to prevent explosion and large fire accidents due to unburned gas or overheating.

Description

Cooling apparatus of a flame detector

The present invention relates to a flame detector of a combustor used in a combustor of a gas turbine, a cogeneration plant, other boilers or other combustion systems, and more particularly, a high temperature conducted from a main casing of a combustor to a combustion flame detector through a flange and a union part. The present invention relates to a combustion flame detector cooling device capable of preventing a failure of a combustion flame detector, which is a metallic component, by quickly blocking heat to protect a combustion flame detector.

In general, the combustion flame detector is used to detect whether combustion is normally performed from the initial ignition in combustion in the combustor and the furnace by supplying fuel such as gas or other heavy oil, and the combustion flame detector is used to detect combustion. It detects and provides various information that occurs in the combustor furnace which is not directly human, that is, information such as unburned or superheated diffusion combustion in the furnace, and provides the manager with the explosion and fire in the combustor and the furnace. To prevent the back in advance. Therefore, the combustion flame detector should be installed close to the combustor or burner to detect the combustion flame in order to ensure its accuracy.

However, since a general combustor is operated at a considerable high heat state, when such a high heat is transmitted to a combustion flame detector by thermal conduction between metals, it is difficult for the combustion flame detector to overheat and to operate normally, and the combustion flame detector is directly connected to the combustion chamber. Since the combustion flame is collected from the reflecting plate of the head through the holes, the change intensity is finally detected by the light emitting diodes. Therefore, these devices generate frequent malfunctions due to the high temperature of the combustor.

On the other hand, gas, heavy oil, and other fuels are combusted by supplying gas, heavy oil, and other fuels to the gas turbine of the LNG combined cycle power plant, the boiler of the combined heat power plant, and other similar facilities. If you do not take proper measures by continuously monitoring the combustion state in this way, in other words, if the fuel is supplied while the combustion in the furnace is not caused by misfire or combustion for some reason, a large accident such as an explosion may occur. Diffusion combustion due to overheating creates the risk of large fires.

Therefore, in all power plant boilers or other similar combustion installations, the combustion flame in the combustor is an important monitoring target from the initial ignition to combustion.

Referring specifically to the process of the steel mill LNG power plant directly related to the present invention with reference to Figure 1, LNG supplied from the gas supply source is pressurized to a constant pressure in the LNG constant pressure facility, the gas turbine through the filter and LNG supply line 101 As the combustion is supplied to the combustor 103 of the 102 to produce power in the gas turbine generator, the combustion exhaust heat of the combustor passes through the heat recovery boiler via the bypass stack 105 through the exhaust duct 104 Steam of the drums 106, 107 and 108 of the heat recovery boiler is heated to produce steam.

The steam produced by the heat recovery boiler rotates the steam turbine 109 to produce power again, and in order to increase the efficiency of the steam turbine, seawater is introduced into the condenser 112 and drawn out 111 to draw vacuum. Form.

In the combustor 103 of the gas turbine 102, a combustion flame detector 202 is provided with a combustor 201 to accurately detect the combustion flame 206 that is combusted toward the exhaust gas exhaust duct 205 as shown in FIG. 2. It is installed in close contact with the casing of the main body and is connected to the outside through the signal transmission line 203.

In addition, the combustion flame detector is installed by connecting the flange 202a to the casing portion of the combustor main body 201 as shown in FIG. 3, and after the union portion 202b is installed on the flange 202a, the combustion occurs. The glass part 202c corresponding to the main part of the flame detector is provided, and the sensor part 202d and the signal transmission part 202e are provided in this order.

However, according to the conventional technique, after the flange 202a is installed in the main body of the combustor 201 at the time of detecting the combustion flame, the main head portion of the combustion flame detector is installed and inserted therein to detect the combustion flame through the hole. However, since a high heat of about 1300 degrees is generated as the gas is burned in the furnace, the high heat is rapidly diffused into the metal of the combustor 201, and the temperature of the metal inside and outside of the combustor is also rapidly rising with heat conduction.

Therefore, the combustion flame detector attached to the casing part of the combustor main body also increases in temperature due to heat conduction, thereby deteriorating the photoelectric lamp or reflector of the glass part 202c or the sensor part 202d, which directly detects the internal flame of the combustor, Since the reflector is detached and cannot focus on the combustion flame, and the light emitting diode which detects the light collected in the light emitting reflector malfunctions or malfunctions, it is impossible to detect the combustion flame fundamentally. There were various problems such as fear of a large fire accident.

The present invention is to solve the above problems, the present invention is to install a cooling device to block the rapid heat transfer between the combustion flame detector and the combustor to conduct high temperature heat conducted in the casing of the combustor body to the combustion flame detector By preventing the combustion flame detector from causing the malfunction and failure due to heat, the combustion flame detector cooling device is provided to prevent the unburned gas, the explosion caused by overheating and the large fire accident in advance. Has its purpose.

1 is a schematic diagram of a general LNG combined cycle process

2 is a schematic view of a gas turbine combustor on the LNG combined cycle process of FIG.

3 is a perspective view of a combustion flame detector according to the prior art

4 is a perspective view of a combustion flame detector cooling apparatus according to an embodiment of the present invention

5 is a cross-sectional view of the cylindrical body of the combustion flame detector cooling device of FIG.

6 is a plan view of a cylindrical body of the combustion flame detector cooling device of FIG.

7 is a perspective view of a cylindrical body of the combustion flame detector cooling device of FIG.

<Explanation of symbols for the main parts of the drawings>

202a: Flange 202b: Union

202c: glass part 202d: sensor part

202e: signal transmission unit 500: heat conduction blocking device

500a: center hole 500b: space between joint surfaces

501: cooling water inlet 502: cooling water outlet

503: cooling line 601: inner and outer body

In order to achieve the above object, in one embodiment of the present invention, by installing a heat conduction blocker provided with a passage through which the coolant flows in the rear end of the union portion of the combustion flame detector connected to the combustor by the coolant flowing through the heat conduction blocker By providing a combustion flame detector cooling device configured to block high temperature heat conducted to the combustion flame detector through the union portion in the main casing portion of the combustor, it is possible to protect the combustion flame detector from high heat.

In one embodiment of the present invention, the heat conduction shielding device, the same metal to the cylindrical body in a double bond to form a double bond surface, but forming a space between the double bond surface, the space between the bond surface The coolant inlet and the coolant outlet may be formed to supply the coolant, and the coolant introduced into the coolant inlet may pass out between the double joint surfaces and exit to the coolant outlet. A cooling line extending from the cooling water outlet is formed in the sensor unit, which is a main head of the combustion flame detector, and the extended cooling line is wound around the body of the sensor several times so that the cooling water exiting the cooling water outlet is again the body of the sensor unit. May be configured to secondary cool.

The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention with reference to the accompanying drawings in detail as follows.

4 is a perspective view of a combustion flame detector cooling device according to an embodiment of the present invention, the present invention is a coolant inlet 501 between the glass portion 202c of the combustion flame detector and the union portion 202b connected to the combustor; A heat conduction blocker 500 having a passage through which the coolant flows through the outlet 502 and the cooling line 503 is installed, and a flange is provided at the casing of the combustor body by the coolant flowing through the heat conduction blocker 500. 202a and union 202b are configured to block high temperature heat that is rapidly conducted to the combustion flame detector, thereby protecting the combustion flame detector from high heat.

5 to 7 are cross-sectional views, a plan view and a perspective view of a cylindrical body of the combustion flame detector cooling apparatus of FIG. 4, wherein the thermal conductivity blocking device 500 includes a hole 500a at the center of the body for flame detection. A space 500b having a cylindrical inner and outer body 601 and a double bond surface is formed by double bonding the same metal to the cylindrical body, and the coolant flows between the double bond surfaces. And a coolant inlet 501 and a coolant outlet 502 so that the coolant can be supplied to the space 500b between the joining surfaces, and the coolant introduced into the coolant inlet passes between the double joining surfaces. Configure to exit the outlet.

In addition, the heat conduction blocker 500 forms a cooling line 503 extending from the cooling water outlet 502 as shown in Figure 4 wherein the extended cooling line 503 is the main head portion of the flame flame detector By enclosing the body of the phosphor sensor unit 202d several times, it is optionally configured to secondaryly cool the body of the sensor unit 202d by riding the extended cooling line 503 that exits the coolant outlet 502. do.

If described in detail the operation of the present invention and the resulting effects according to the configuration as described above.

Combustion flame detector cooling apparatus according to the present invention is to block the heat conduction from the casing portion of the main body of the combustor as a whole, by joining the same metal to the cylindrical body in a double, the space (500b) between the double joining surface is created The cooling water is supplied through the cooling water inlet 501 leading to the space 500b to allow the space between the double joint surfaces to flow, and then to the cooling water outlet 502.

Next, the cooling water exiting the cooling water outlet 502 is designed to perform secondary cooling on the sensor unit 202d by winding the sensor unit 202d several times in the cooling line 503 extending therefrom. The effect can be doubled.

That is, as can be seen in the internal structure of the cylindrical body of the heat conduction shield shown in FIGS. 5 to 7, the coolant inlet 501 is provided so that the coolant flows into the space 500b between the specially bonded metals in double. Therefore, when the coolant is introduced through the coolant inlet 501, the coolant introduced therein flows around the space 500b and the cooling line 503 of the double joint surface and then exits through the coolant outlet 502. do.

Therefore, the combustion flame detector cooling device according to the present invention is installed at the rear end of the union part 202b of the flange 202a, which is the rear end of the casing part of the combustor body, and then detects the combustion flame as shown in FIG. It is possible to protect the combustion flame detector by blocking the heat conducting from the main casing part of the combustor main body, and the cooling effect in the sensor part which is the main head part of the combustion flame detector by extending the cooling line. Can be increased.

As a result, the combustion flame detector to which the present invention is applied has a significant drop in its conduction heat. Therefore, before the present invention was applied, the combustion flame detector had a lifespan of about 6 months. It can be used as.

According to the present invention, a combustion flame that monitors the combustion state when a gas turbine, a cogeneration plant boiler, and other similar combustion facilities are combusted by supplying gas, heavy oil, or other fuel to the combustion apparatus. As the detector blocks the high heat conducted from the combustor, the combustion flame detector can function properly, which reduces the risk of accidents such as large explosions or fires, and also extends the life of expensive combustion flame detectors and can be used semi-permanently. You can get the benefit of doing so.

Claims (3)

A heat conduction blocker is provided at the rear end of the union portion of the combustion flame detector connected to the combustor, and a coolant flows through the heat conduction blocker to be conducted from the main casing of the combustor to the combustion flame detector. Combustion flame detector cooling device characterized in that configured to block high temperature heat. According to claim 1, wherein the heat conduction blocking device, By joining the same metal to the cylindrical body in double to form a double joint surface, forming a space between the double joint surface, and forming a coolant inlet and a coolant outlet to supply the coolant to the space between the joint surface And a cooling water introduced into the cooling water inlet so as to pass through the double junction surface and exit the cooling water outlet. The method of claim 2, wherein the thermal conductivity blocking device, A cooling line extending from the cooling water outlet is formed in the sensor unit, which is a main head of the combustion flame detector, and the extended cooling line is wound around the body of the sensor unit several times, so that the cooling water exiting the cooling water outlet is again connected to the sensor unit. Combustion flame detector cooling device, characterized in that configured to cool the body secondary.