An Apparatus And Method For Assembling A Battery Pack For Powering Electric Traction Motors Of Electric Motor-Vehicles

1 . An apparatus for use in assembling a battery pack for powering electric traction motors of electric motor-vehicles, wherein said battery pack has a multi-level configuration formed by different modules arranged side-by-side and overlapping each other, said apparatus comprising: a plurality of processing or assembly stations arranged in succession and configured to work or assemble the different modules that form the multi-level configuration of the battery pack; a first and a second processing line oriented parallel to each other, wherein the respective stations of the first processing line face the respective stations of the second processing line; a first transport device configured to transport, along said first processing line through the stations of the first processing line, a first group of components of the battery pack arranged to form a base level of said multi-level configuration; a second transport device configured to transport, along said second processing line through the stations of the second processing line, a second group of components of the battery pack arranged to form successive levels configured to be overlapped on the base level, wherein said first and second transport devices are configured to advance simultaneously along the respective first or second processing line and station the respective first or second group of components in a working area of a respective station, in order to enable an intervention on both the first or second group of components transported by the respective transport devices, for manufacturing, separately, the base level and successive level along the respective first or second processing line; and a joining station configured to assemble said successive levels from the second processing line above said base level of the first processing line, so as to overlap and assemble the multi-level configuration battery pack. 2 . The apparatus according to claim 1 , wherein said joining station is a manual or automatic station comprising a first and a second working area arranged, respectively, along said first processing line and said second processing line. 3 . The apparatus according to claim 1 , wherein said joining station is configured to enable moving of the second group of components forming the successive levels towards the first transport device which carries the base level, and assembling of the successive levels, sequentially above the base level. 4 . The apparatus according to claim 1 , wherein said first and second transport devices each comprise a trolley including a workpiece-holder frame. 5 . The apparatus according to claim 4 , wherein said first and second transport devices further comprise a manual traction trolley, a trolley towable with a motorized tractor, a motorized trolley, an AGV or an AMR. 6 . The apparatus according to claim 4 , wherein said workpiece-holder frame is configured to support the respective first group of components or the second group of components, in a predetermined position with respect to the workpiece supporting frame. 7 . The apparatus according to claim 1 , comprising additional processing or assembly stations arranged in succession along a third processing line, the third processing line comprising: a first section, which is an extension of the first processing line; and a second section oriented parallel to the first processing line, wherein the first transport device is configured to advance along said third processing line through the additional stations, in order to complete the manufacture of the battery pack. 8 . The apparatus according to claim 7 , wherein said additional stations are configured to carry out further processing on the battery pack to complete at least one of electrical or fluid connections, sealing operations, or an acceptance test. 9 . A method for assembling a battery pack for use in powering electric traction motors of an electric motor-vehicle, wherein said battery pack has a multi-level configuration formed by different modules arranged side-by-side and overlapping each other, the method comprising: providing a plurality of processing or assembly stations arranged in succession and configured to work or assemble the different modules that form the multi-level configuration of the battery pack; providing a first and a second processing line oriented parallel to each other, wherein the respective stations of the first processing line face the respective stations of the second processing line; providing a first transport device and a second transport device configured to transport respective components that form the multi-level configuration of the battery pack, the method further comprising the following steps: providing a first group of components of the battery pack on the first transport device, said first group of components being arranged to form a base level of said multi-level configuration; providing a second group of components of the battery pack on the second transport device, said second group of components being arranged to form successive levels to be overlapped on the base level of said multi-level configuration; advancing the first and the second transport devices along the respective first processing line and the second processing line through the respective stations; stationing the first and the second transport devices in a respective working area of one of the stations; at each station, working simultaneously on said first and said second group of components following advancing of the first and the second transport devices along the respective first processing line and the second processing line and stationing of the first and the second transport devices in a respective station; providing a joining station of the base level and the successive levels of the battery pack; and assembling said second group of components above said first group of components carried by the first transport device, in order to form the multi-level configuration of the battery pack. 10 . The method according to claim 9 , wherein, before stationing the second transport device at the joining station, assembling the second group of components on the second transport device in order to separately form the successive levels, so as to arrive at the joining station, with the successive levels completed and arranged side-by-side. 11 . The method according to claim 10 , wherein the joining station is configured to enable moving the successive levels towards the first transport device, which carries the base level, and assembling of the successive levels, sequentially above the base level. 12 . The method according to claim 11 , wherein following the operations of joining the successive levels to the base level at the joining station, returning the second transport device to a starting loading position at a beginning of the second processing line, to start a new assembly path along the second processing line, for manufacturing an additional battery pack. 13 . The method according to claim 9 further comprising: providing additional processing or assembly stations arranged in succession along a third processing line, the third processing line comprising a first section which is an extension of the first processing line; and advancing the first transport device along said third processing line through the additional stations, so as to complete manufacturing of the battery pack. 14 . The method according to claim 13 , further comprising providing additional operations on the battery pack at said additional stations to complete at least one of electrical and fluid connections, sealing operations, or an acc