Secondary battery pack based on mechanical connection manner

What is claimed is: 1. A battery pack constructed in a structure in which a plurality of secondary battery cells are electrically connected to one another via a connection member while the secondary battery cells are mounted in a receiving part of a pack case having no partition, wherein the connection member is located between adjacent secondary battery cells arranged in a longitudinal direction or in both the longitudinal direction and a lateral direction, the connection member is connected, in a mechanical coupling manner, to a lower electrode terminal of a front secondary battery cell in the longitudinal direction or to an upper electrode terminal of a rear secondary battery cell in the longitudinal direction, and the connection member is elastically pressed while the connection member is located between the adjacent secondary battery cells, an outermost perimeter of the connection member fits within an outermost perimeter of the secondary battery cell, and the connection member includes a coupling part coupled to a gas discharge port formed at a cathode terminal of one of the front or rear secondary battery cells, the cathode terminal being one of the upper electrode terminal or the lower electrode terminal, the coupling part being formed within the outermost perimeter of the connection member such that the coupling part extends inside said gas discharge port to provide an electrical connection and a mechanical coupling. 2. The battery pack according to claim 1 , wherein the connection member is connected to one of the upper electrode terminal or the lower electrode terminal in a mechanical coupling manner and is connected to the other of the upper electrode terminal or lower electrode terminal in a physical contact manner. 3. The battery pack according to claim 2 , wherein the connection member is connected to the cathode terminal of the one of the upper electrode terminal or the lower electrode terminal in the mechanical coupling manner and is connected to an anode terminal of the other of the upper electrode terminal or the lower electrode terminal in the physical contact manner. 4. The battery pack according to claim 1 , wherein the coupling part elastically protrudes from a main body of the connection member. 5. The battery pack according to claim 1 , wherein the connection member includes one or more auxiliary connection parts connected to the electrode terminal(s) of one or both front and rear secondary battery cells while being elastically pressed at region(s) where the one or more auxiliary connection parts are connected in a physical contact manner. 6. The battery pack according to claim 1 , wherein the secondary battery cells are cylindrical battery cells. 7. A laptop computer including a battery pack according to claim 1 as a power source. 8. A connection member for electrically connecting a plurality of secondary battery cells, wherein the connection member is configured to be located between adjacent secondary battery cells arranged in a longitudinal direction or in both the longitudinal direction and a lateral direction, the connection member is configured to be connected, in a mechanical coupling manner, to a lower electrode terminal of a front secondary battery cell in the longitudinal direction or to an upper electrode terminal of a rear secondary battery cell in the longitudinal direction, and the connection member is configured to be elastically pressed while the connection member is located between the adjacent secondary battery cells, an outermost perimeter of the connection member fits within an outermost perimeter of the secondary battery cell, and the connection member includes a coupling part configured to be coupled to a gas discharge port formed at a cathode terminal of one of the front or rear secondary battery cells, the cathode terminal being one of the upper electrode terminal or the lower electrode terminal, the coupling part being formed within the outermost perimeter of the connection member such that the coupling part is configured to extend inside said gas discharge port to provide an electrical connection and a mechanical coupling. 9. The connection member according to claim 8 , wherein the connection member comprises a terminal connection unit for connecting the adjacent secondary battery cells arranged in the longitudinal direction in series to each other, the terminal connection unit comprising: (a) an outer circumferential connection part configured to correspond to the external shape of the upper electrode terminal of the rear secondary battery cell, the outer circumferential connection part contacting the upper electrode terminal of the rear secondary battery cell at a region adjacent to the outer circumference of the upper electrode terminal of the rear secondary battery, the outer circumferential connection part having a predetermined width; (b) upward protruding parts tapered upward from the outer circumferential connection part toward a central axis of the terminal connection unit for elastically supporting the front secondary battery cell; and (c) protruding coupling parts connected to the respective upward protruding parts in a bridge structure, the protruding coupling parts protruding such that the protruding coupling parts can be elastically coupled to a predetermined region of the front secondary battery cell. 10. The connection member according to claim 9 , wherein the terminal connection unit further comprises: a plurality of auxiliary connection parts tapered downward or upward from the inside of the outer circumferential connection part. 11. The connection member according to claim 8 , wherein the connection member comprises a terminal connection unit for connecting the adjacent secondary battery cells arranged in the longitudinal direction in series to each other, the terminal connection unit comprising: (a) an outer circumferential connection part configured to correspond to the external shape of the upper electrode terminal of the rear secondary battery cell, the outer circumferential connection part contacting the upper electrode terminal of the rear secondary battery cell at a region adjacent to the outer circumference of the upper electrode terminal, the outer circumferential connection part having a predetermined width; (b) upward protruding parts tapered upward from the outer circumferential connection part toward a central axis of the terminal connection unit for elastically supporting the front secondary battery cell; and (c) protruding coupling parts protruding from the respective upward protruding parts to a predetermined height such that the protruding coupling parts can be coupled to the lower electrode terminal of the front secondary battery cell. 12. The connection member according to claim 11 , wherein the terminal connection unit further comprises: a central connection part disposed on the central axis of the terminal connection unit such that the central connection part is depressed to a predetermined depth from the protruding coupling parts, the central connection part contacting the lower electrode terminal of the front secondary battery cell. 13. The connection member according to claim 12 , wherein the protruding coupling parts are constructed in a structure in which two or more bridges connecting the upward protruding parts and the central connection part are arranged in a symmetrical fashion. 14. The connection member according to any one of claims 9 and 11 , wherein two or more terminal connection units are connected to each other to simultaneously achieve the connection in series between the adjacent secondary battery cells arranged in the long