Crossfire tube, combustor including the same, and gas turbine including the same

What is claimed is: 1. A crossfire tube for passing a flame from a combustor chamber of a first combustor to a combustor chamber of a second combustor adjacent to the first combustor, the crossfire tube comprising: a first insertion pipe configured to connect an inner liner and an outer liner of a liner of the first combustor, the inner liner defining the combustor chamber and the outer liner surrounding the inner liner; a second insertion pipe configured to connect an inner liner and an outer liner of a liner of the second combustor; a connection pipe disposed between the first combustor and the second combustor and connected to the first insertion pipe and the second insertion pipe at respective ends thereof so that the combustion chamber of the first combustor communicates with the combustion chamber of the second combustor via the connection pipe; and a coupling ring disposed between the first insertion pipe and the connection pipe to connect the first insertion pipe and the connection pipe, wherein the first insertion pipe includes an insertion flange protruding from an outer surface of a connection pipe-side end thereof in a radial direction, the connection pipe includes a connection flange protruding from an outer surface of an insertion pipe-side end thereof in the radial direction, the connection pipe-side end and the insertion pipe-side end facing each other, the outer liner includes an outer flange protruding from an outer surface thereof in the radial direction, in which an end of the outer flange, which is near the insertion flange, is bent outward in the radial direction of the first insertion pipe, and the coupling ring includes a circumferential groove into which the end of the outer flange, the insertion flange, and the connection flange are fitted. 2. The crossfire tube according to claim 1 , wherein the first insertion pipe extends to pass through the outer liner and the inner liner of the first combustor in a thickness direction to communicate with the combustor chamber of the first combustor. 3. The crossfire tube according to claim 2 , wherein the inner liner includes an annulus protrusion protruding from an outer surface thereof, and the first insertion pipe includes an annulus insertion groove into which the annulus protrusion is fitted. 4. A combustor comprising: a nozzle configured to inject fuel; a liner including an inner liner defining a combustion chamber in which the fuel injected from the nozzle is ignited and an outer liner surrounding the inner liner; a transition piece connected to the liner; and a crossfire tube disposed in the liner to pass a flame generated in the combustion chamber to a combustion chamber of an adjacent combustor, wherein the crossfire tube includes an insertion pipe configured to connect the inner liner and the outer liner and a connection pipe connected to an outer end of the insertion pipe and configured to enable the combustion chamber of the combustor to communicate with the combustion chamber of the adjacent combustor, and a coupling ring disposed between the insertion pipe and the connection pipe to connect the insertion pipe and the connection pipe, wherein the insertion pipe includes an insertion flange protruding from an outer surface of a connection pipe-side end thereof in a radial direction, the connection pipe includes a connection flange protruding from an outer surface of an insertion pipe-side end thereof in the radial direction, the outer liner includes an outer flange protruding from an outer surface thereof in the radial direction, in whish an end of the outer flange, which is near the insertion flange, is bent outward in the radial direction, and the coupling ring includes a circumferential groove into which the end of the outer flange, the insertion flange, and the connection flange are fitted. 5. The combustor according to claim 4 , wherein the insertion pipe is installed to pass through the outer liner and the inner liner in a thickness direction to communicate with the combustion chamber of the combustor. 6. The combustor according to claim 5 , wherein the inner liner includes an annulus protrusion protruding from an outer surface, and the insertion pipe includes an annulus insertion groove into which the annulus protrusion is fitted. 7. A gas turbine comprising: a compressor configured to compress air externally introduced; a combustor configured to mix the compressed air with fuel and to burn the air and fuel mixture; and a turbine configured to pass combustion gas generated by the combustor, wherein the combustor comprises: a nozzle configured to inject the fuel; a liner including an inner liner defining a combustion chamber in which the fuel injected from the nozzle is ignited and an outer liner surrounding the inner liner; a transition piece connected to the liner; and a crossfire tube disposed in the liner to pass a flame generated in the combustion chamber of the combustor to a combustion chamber of an adjacent combustor, and wherein the crossfire tube includes an insertion pipe configured to connect the inner liner and the outer liner and a connection pipe connected to an outer end of the insertion pipe and configured to enable the combustion chamber of the combustor to communicate with the combustion chamber of the adjacent combustor, and a coupling ring disposed between the insertion pipe and the connection pipe to connect the insertion pipe and the connection pipe, wherein the coupling ring has a circumferential groove formed in an inner surface thereof, and wherein the insertion pipe includes an insertion flange protruding from an outer surface of a connection pipe-side end thereof in a radial direction, the connection pipe includes a connection flange protruding from an outer surface of an insertion pipe-side end thereof in the radial direction, the outer liner includes an outer flange protruding from an outer surface thereof in the radial direction, in which an end of the outer flange, which is near the insertion flange, is bent outward in the radial direction, and, the coupling ring includes a circumferential groove into which the end of the outer flange, the insertion flange and the connection flange are fitted. 8. The gas turbine according to claim 7 , wherein the insertion pipe is inserted into the liner from an outside to pass through the outer liner and the inner liner in a thickness direction to communicate with the combustion chamber of the combustor. 9. The gas turbine according to claim 8 , wherein the inner liner includes an annulus protrusion protruding from an outer surface thereof, and the insertion pipe includes an annulus insertion groove into which the annulus protrusion is fitted, the annulus insertion groove being formed on an outer surface of an inner liner-side end of the insertion pipe.