Method for welding electrode leads of secondary battery module and compact secondary battery module using the same

What is claimed is: 1. A compact secondary battery module, comprising: a plurality of cartridges configured to accommodate cells, respectively, the plurality of cartridges stacked in a first direction; a first battery cell accommodated in a first cartridge of the plurality of cartridges, the first battery cell having a first lead extending from the first cartridge; a second battery cell accommodated in a second cartridge of the plurality of cartridges, the second battery cell having a second lead extending from the second cartridge; and a sensing housing arranged at a side of a cartridge assembly in which the cartridges are stacked, the sensing housing having a plurality of bus bars, wherein corresponding electrode leads of adjacent cells are arranged to be coplanar in a first plane and one of the plurality of bus bars in a second plane overlaps the first lead and second lead and then is welded to the first lead and second lead at two welding points, the second plane being parallel to the first plane, and wherein the corresponding electrode leads of adjacent cells are spaced from one another in the first direction. 2. The compact secondary battery module according to claim 1 , further comprising: a barrier provided at a side of each cartridge to protect the cell during a welding work. 3. The compact secondary battery module according to claim 1 , wherein the lead of each battery cell is bent at a right angle at about 1 mm from a lead insulation portion in a state of being accommodated in the corresponding cartridge. 4. The compact secondary battery module according to claim 1 , wherein the welding is laser welding. 5. The compact secondary battery module according to claim 4 , wherein in the laser welding, laser is irradiated substantially perpendicular to the sensing housing. 6. The compact secondary battery module according to claim 1 , wherein the sensing housing further includes a battery management system (BMS) circuit board configured to manage voltage and/or temperature data of each cell detected by each bus bar. 7. The compact secondary battery module according to claim 6 , wherein the sensing housing is coupled to the cartridge assembly by means of snap-fitting or hooking. 8. The compact secondary battery module according to claim 6 , further comprising: a sensing cover coupled to the sensing housing. 9. The compact secondary battery module according to claim 8 , wherein the sensing cover is coupled to the sensing housing by means of snap-fitting or hooking. 10. The compact secondary battery module according to claim 1 , wherein two neighboring cartridges of the cartridge assembly are coupled to each other by means of hooking. 11. The compact secondary battery module according to claim 1 , wherein the cartridge assembly further includes an upper cover and a lower cover coupled to cartridges at both ends thereof by means of hooking. 12. A method for welding electrode leads of a compact secondary battery module, comprising: preparing a plurality of cartridges configured to accommodate a plurality of cells, respectively, and a sensing housing having a plurality of bus bars arranged at a side of a cartridge assembly in which the cartridges are stacked, each cartridge having a battery cell therein, and an electrode lead of each battery cell extending from a respective cartridge; stacking the plurality of cartridges in a first direction to form a cartridge assembly; bending corresponding electrode leads of adjacent cells; and arranging the corresponding electrode leads of adjacent cells to be coplanar in a first plane and one of the plurality of bus bars in a second plane overlapping the electrode leads and then welding the bus bar to the electrode leads at two welding points, the second plane being parallel to the first plane, wherein the corresponding electrode leads of adjacent cells are spaced from one another in the first direction. 13. The method for welding electrode leads of a compact secondary battery module according to claim 12 , further comprising forming a barrier at a side of each cartridge. 14. The method for welding electrode leads of a compact secondary battery module according to claim 12 , further comprising bending each lead at a right angle at about 1 mm from a lead insulation portion of the cell in a state of being accommodated in the corresponding cartridge. 15. The method for welding electrode leads of a compact secondary battery module according to claim 12 , wherein the welding uses a laser welder. 16. The method for welding electrode leads of a compact secondary battery module according to claim 15 , wherein a laser irradiation direction of the laser welder is substantially perpendicular to the sensing housing. 17. The compact secondary battery module according to claim 1 , wherein the first lead and the second do not overlap in a second direction, the second direction being in the first plane and perpendicular to the first direction. 18. The method for welding electrode leads of a compact secondary battery module according to claim 12 , wherein the first lead and the second do not overlap in a second direction, the second direction being in the first plane and perpendicular to the first direction.