Rechargeable battery

What is claimed is: 1. A rechargeable battery comprising: an electrode assembly comprising a first electrode and a second electrode; a housing having an open side, the housing accommodating the electrode assembly; a cap assembly comprising a cap plate for closing and sealing the open side of the housing and a first terminal extending through the cap plate, the cap plate comprising a coupling groove at a bottom surface thereof, the coupling groove being offset from where the first terminal extends through the cap plate, an inner diameter of the coupling groove increasing along its depth from the bottom surface of the cap plate toward an opposite upper surface of the cap plate; a first current collecting member under the cap assembly and connected to the first electrode and the first terminal; a second current collecting member under the cap assembly and connected to the second electrode; and an insulating case joined with the cap assembly, the insulating case comprising a coupling protrusion inserted into the coupling groove in the cap plate, the insulating case having a closed shape with opposite first edges and opposite second edges and an open portion between the first and second edges, the open portion exposing a portion of a top surface of the electrode assembly through the insulating case, the first and second current collecting members protruding into and being respectively connected to the first and second electrodes in the open portion, wherein a top surface of the insulating case contacts the cap plate and a bottom surface thereof is above the top surface of the electrode assembly, and wherein the insulating case has grooves at portions thereof respectively corresponding to the first and second current collecting members, the grooves being in the first edges, open to the top surface of the insulating case, and extending in a depth direction toward the bottom surface thereof. 2. The rechargeable battery of claim 1 , wherein an end portion of the coupling protrusion is fitted into the coupling groove after it is melted. 3. The rechargeable battery of claim 1 , wherein the insulating case comprises two coupling protrusions, and the two coupling protrusions are at opposite ends of the top surface of the insulating case. 4. The rechargeable battery of claim 1 , wherein the insulating case comprises a plurality of coupling protrusions. 5. The rechargeable battery of claim 1 , wherein the grooves are located to face opposite surfaces of the first current collecting member and opposite surfaces of the second current collecting member, respectively. 6. The rechargeable battery of claim 1 , wherein the first and second edges together form. 7. A method of manufacturing a rechargeable battery, the rechargeable battery comprising an electrode assembly comprising a first electrode and a second electrode, a housing for accommodating the electrode assembly, a cap assembly comprising a cap plate, a first current collecting member, a second current collecting member, a first terminal, and a second terminal, and an insulating case, the method comprising: joining the insulating case and the cap assembly to each other such that a coupling protrusion of the insulating case is inserted into a coupling groove in a bottom surface of the cap plate, the coupling groove being offset from where the first terminal extends through the cap plate, an inner diameter of the coupling groove increasing along its depth from the bottom surface of the cap plate toward an opposite upper surface of the cap plate; inserting the electrode assembly into the housing; welding the first and second electrodes of the electrode assembly to the first and second current collecting members, respectively, through grooves in the insulating case after the joining of the insulating case and the cap assembly, the grooves in the insulating case being open to a top surface thereof and extending in a depth direction toward a bottom surface thereof; and placing the cap assembly with the insulating case joined thereto onto the housing to close and seal the housing. 8. The method of claim 7 , wherein the joining the insulating case and the cap assembly to each other comprises: melting the coupling protrusion on the insulation case; inserting the melted coupling protrusion into the coupling groove in the cap plate of the cap assembly; and hardening the melted coupling protrusion to join the insulating case and the cap assembly to each other. 9. The rechargeable battery of claim 1 , wherein the insulating case has a height between the top surface and the bottom surface thereof, and wherein the grooves in the insulating case have a depth in the depth direction parallel to the height of the insulating case that is less than the height of the insulating case.