Battery module having enhanced electrical connection stability

What is claimed is: 1. A battery module, comprising: a plurality of pouch-type battery cells stacked on each other along a stacking dimension and electrically connected in series and/or in parallel, the plurality of pouch-type battery cells including at least a first pouch-type battery cell and a second pouch-type battery cell, each of the plurality of pouch-type battery cells including a pouch case having an electrode lead extending outwardly therefrom though an edge region of the pouch case and extending along a respective extension axis, each pouch case including a first pouch sheet and a second pouch sheet, the edge region of each pouch case defined by a portion of the first pouch sheet and a portion of the second pouch sheet extending parallel to one another and bonded to each other before terminating at a terminus of the edge region beyond which the electrode lead extends, wherein the electrode lead of the second pouch-type battery cell is angled in a first direction along the stacking dimension so as to converge towards the electrode lead of the first pouch-type battery cell, wherein the electrode lead of each of the pouch-type battery cells has a bent portion in which the electrode lead deviates from the respective extension axis so as to have a convex shape facing in the first direction, and wherein the terminus of the edge region of each pouch case is located along the respective electrode lead at the bent portion. 2. The battery module according to claim 1 , wherein the bent portion of each electrode lead has a rounded shape, and wherein the terminus of the edge region of each pouch case is disposed near a deepest region of the bent portion having the largest deviation from the respective extension axis. 3. The battery module according to claim 1 , comprising: a positive electrode lead group in which ends of at least two positive electrode leads are overlapped and linearly extend; and a negative electrode lead group in which ends of at least two negative electrode leads provided in a same number as the positive electrode leads are overlapped and linearly extend in a same direction as the positive electrode lead group, wherein a first positive electrode lead is the closest of the positive electrode leads to the negative electrode leads, and a first negative electrode lead is the closest of the negative electrode leads to the positive electrode leads, and wherein the positive electrode leads other than the first positive electrode lead are biased toward the first positive electrode lead, and the negative electrode leads other than the first negative electrode lead are biased toward the first negative electrode lead. 4. The battery module according to claim 3 , further comprising: a bus bar assembly configured to electrically connect the positive electrode lead group and the negative electrode lead group, wherein the bus bar assembly includes: a fixed bus bar formed in a rod-shaped conductor; a pair of movable bus bars disposed to be spaced apart from each other at both sides of the fixed bus bar with the fixed bus bar interposed therebetween to form a fitting space between the movable bus bars and the fixed bus bar to allow the positive electrode lead group and the negative electrode lead group to be respectively inserted therein; and an adhering member configured to move the pair of movable bus bars toward the fixed bus bar with the positive electrode lead group and the negative electrode lead group disposed in the fitting space to allow the positive electrode lead group and the negative electrode lead group to be coupled to the fixed bus bar. 5. The battery module according to claim 4 , wherein the adhering member is a leaf spring having both ends coupled to the pair of movable bus bars to move the pair of movable bus bars in directions facing each other due to an elastic restoring force thereof. 6. The battery module according to claim 4 , wherein each of the pair of movable bus bars includes: a contact portion provided in parallel to the fixed bus bar; and gap adjusting portions that extend from both ends of the contact portion and are bent, the gap adjusting portions connected to the adhering member, wherein the pair of movable bus bars are disposed symmetrically with respect to the fixed bus bar to surround the fixed bus bar. 7. A battery pack, comprising the battery module according to claim 1 .