Connecting structure and connecting method for electric cables

What is claimed is: 1. A connecting structure for electric cables, comprising: a first electric cable including a first core made of a plurality of wires and a first cover covering the first core, wherein a portion of the first core is exposed from an end of the first cover; a second electric cable including a second core made of a plurality of wires and made of a different metal from that of the first core and a second cover covering the second core, wherein a portion of the second core is exposed from an end of the second cover; and a tube which is shrunk in a state where the tube accommodates thereinside the portion of the first core and a portion of the second core which are connected to each other, wherein an inside of the tube being filled with cured hot-melt, the cured hot-melt being located at least between the plurality of wires in the first and second core and between the first and second cover and the first and second core respectively, wherein a hot-melt has a predetermined thickness before being heated such that the cured hot-melt permeates to the gaps between the wires of the first core, between the wires and the first cover, between the wires of the second core, and between the wires and the second cover without excess or insufficient hot-melt, wherein the hot-melt does not permeate a connection portion between the first core and the second core such that the first core and the second core remain electrically connected after the hot-melt has cured wherein the tube comprises an amount of the hot melt therein such that, prior to being shrunk in the state, the thickness of the hot-melt from the inside of the tube to an inside of the hot-melt is greater than a thickness of the tube. 2. A connecting method for electric cables, comprising: connecting a portion of a first core made of a plurality of wires which is exposed from an end of a first cover and a portion of a second core made of a plurality of wires and which is made of a different metal from that of the first core and exposed from an end of a second cover; accommodating the portion of the first core and the portion of the second core together with molten hot-melt inside a tube; and shrinking the tube, wherein an inside of the tube being filled with cured hot-melt, the cured hot-melt being located at least between the plurality of wires in the first and second core and between the first and second cover and the first and second core respectively, wherein a hot-melt has a predetermined thickness before being heated such that the cured hot-melt permeates to the gaps between the wires of the first core, between the wires and the first cover, between the wires of the second core, and between the wires and the second cover without excess or insufficient hot-melt, wherein the hot-melt does not permeate a connection portion between the first core and the second core such that the first core and the second core remain electrically connected after the hot-melt has cured, and wherein the tube comprises an amount of the hot melt therein such that, prior to being shrunk in the state, the thickness of the cured hot-melt from the inside of the tube to an inside of the hot-melt is greater than a thickness of the tube. 3. The connecting method according to claim 2 , wherein the accommodating includes: applying the molten hot-melt on an inner surface of the tube; and accommodating the portion of the first core and the portion of the second core inside the tube with the inner surface thereof being applied with the molten hot-melt. 4. The connecting method according to claim 2 , wherein the accommodating includes: applying the molten hot-melt on the portion of the first core and the portion of the second core; and accommodating the portion of the first core and the portion of the second core, on which the molten hot-melt is applied, inside the tube. 5. The connecting method according to claim 2 , wherein the tube has two distal ends and a middle portion, wherein the middle portion has smaller diameter than a diameter at each distal end. 6. The connecting method according to claim 2 , wherein the tube comprises the amount of the hot melt therein such that, prior to being shrunk in the state, the thickness of the hot-melt from the inside of the tube to the inside of the hot-melt is greater than double thickness of the tube. 7. The connecting method according to claim 2 , wherein the thickness of the cured hot-melt is evenly applied along a length of the inside of the tube from one axial end of the tube to an opposite axial end of the tube.