Power switching module for battery module assembly

The invention claimed is: 1. A battery module assembly comprising: a hexahedral stack arrangement of a plurality of rectangular battery modules, each battery module having a case and a plurality of battery cells or unit modules connected in series to each other inside the case, the battery modules being stacked by two or more in a longitudinal direction thereof and by two or more in a transverse direction perpendicular to the longitudinal direction thereof such that the cases of the battery modules adjacent to each other in the longitudinal direction and in the transverse direction are in direct contact with each other, and outer edges of the hexahedral stack are located at the perimeter of the hexahedral stack; a frame member fixing the outer edges of the hexahedral stack, the frame member having six sides defined by outer edges corresponding to the outer edges of the hexahedral stack such that the six sides of the hexahedral stack correspond to the six sides of the frame member, each side of the frame member providing an opening in the corresponding side of the frame member such that the corresponding side of the hexahedral stack is exposed therethrough; and mounting frames each having coupling parts, through which the battery module assembly is mounted to an external device, formed at opposite ends thereof is provided at a part of the frame member to fix edges of one side of the hexahedral stack, the frame member being located between the hexahedral stack and the mounting frames, wherein the mounting frames comprise two plate-shaped members configured to have a structure in which the plate-shaped members are bent so that the coupling parts of the plate-shaped members protrude outward from the mounting frame away from the hexahedral stack mounted in the frame member in a state in which ends of the plate-shaped members are coupled to the frame member such that one of the six sides of the battery module assembly is securely coupled to the external device. 2. The battery module assembly according to claim 1 , wherein the hexahedral stack is configured to have a structure in which two rectangular battery modules are arranged in the transverse direction so that the rectangular battery modules are opposite to each other, and one or more rectangular battery modules are arranged in the longitudinal direction with respect to the respective rectangular battery modules. 3. The battery module assembly according to claim 1 , wherein each of the rectangular battery modules has a greater height than a width thereof, and the hexahedral stack has a rectangular parallelepiped structure. 4. The battery module assembly according to claim 1 , wherein each of the unit modules is configured to have a structure in which plate-shaped battery cells, each of which has electrode terminals formed at the upper end and the lower end thereof, are connected in series to each other, and each of the unit modules comprises two or more battery cells, in which connection parts between the electrode terminals are bent so that the battery cells are stacked, and a cell cover coupled to outer sides of the battery cells excluding regions of the electrode terminals so as to cover the outer sides of the battery cells. 5. The battery module assembly according to claim 1 , wherein input and output terminals of the rectangular battery modules are oriented so that the input and output terminals of the rectangular battery modules are directed toward one side of the hexahedral stack. 6. The battery module assembly according to claim 5 , wherein a power switching module (PSM) and a battery management system (BMS) are mounted to one side of the hexahedral stack. 7. The battery module assembly according to claim 5 , wherein the battery cells or the unit modules in each of the rectangular battery modules are arranged in parallel to a pair of opposite sides of the hexahedral stack, and hermetically sealing members are mounted to the opposite sides. 8. The battery module assembly according to claim 7 , wherein each of the hermetically sealing members is bent so that a coolant flow channel is formed at the inner side of each of the hermetically sealing members facing a corresponding one of the rectangular battery modules. 9. The battery module assembly according to claim 7 , wherein each of the hermetically sealing members is formed of an insulating material. 10. The battery module assembly according to claim 1 , wherein the frame member is configured to have a structure in which all frames to fix twelve edges of the hexahedral stack are integrally formed or in which frames to fix at least four edges of the hexahedral stack constituting one side of the hexahedral stack are integrally formed. 11. The battery module assembly according to claim 10 , wherein the frame member is configured to have a structure in which frames to fix every four edges of the hexahedral stack located at a pair of sides opposite to each other are integrally formed, and the remaining individual frames are coupled to the integrally formed frames. 12. The battery module assembly according to claim 11 , wherein hermetically sealing members are mounted to the integrally formed frames. 13. The battery module assembly according to claim 11 , wherein the individual frames are used by twos so that upper-row rectangular battery modules of the plurality of rectangular battery modules are fixed as a set, lower-row rectangular battery modules of the plurality of rectangular battery modules are also fixed as another set, and the two integrally formed frames are coupled to the individual frames. 14. The battery module assembly according to claim 1 , wherein the PSM and the BMS are configured to have a structure in which safety elements and control elements are disposed at a plate fastened to a part of the frame member to fix edges of one side of the hexahedral stack. 15. A middle or large-sized battery pack comprising the battery module assembly according to claim 1 . 16. The middle or large-sized battery pack according to claim 15 , wherein the battery pack is used as a power source for electric vehicles or hybrid electric vehicles. 17. A battery module assembly comprising: a hexahedral stack arrangement of a plurality of rectangular battery modules, each battery module having a case and a plurality of battery cells or unit modules connected in series to each other inside the case, the battery modules being stacked by two or more in a longitudinal direction thereof and by two or more in a transverse direction perpendicular to the longitudinal direction thereof such that the cases of the battery modules adjacent to each other in the longitudinal direction and in the transverse direction are in direct contact with each other, and outer edges of the hexahedral stack are located at the perimeter of the hexahedral stack a frame member fixing the outer edges of the hexahedral stack, the frame member having six sides defined by outer edges corresponding to the outer edges of the hexahedral stack such that the six sides of the hexahedral stack are exposed through corresponding sides of the frame member; and mounting frames each having coupling parts, through which the battery module assembly is mounted to an external device, formed at opposite ends thereof is provided at a part of the frame member to fix edges of one side of the hexahedral stack, the frame member being located between the hexahedral stack and the mounting frames, wherein the mounting frames comprise two plate-shaped members configured to have a structure in which the plate-shaped members are bent so that the coupling parts of