Laser welding tooling and laser welding systems

What is claimed is: 1 . A welding plate comprising: a first portion comprises a plurality of recesses, each recess having a bottom wall, an elastomer configured to compress under force and disposed at the bottom wall of the recess, and a tip inserted therein, wherein the elastomer biases the tip for axial sliding movement between extended and retracted positions and where a proximal end of the tip is in contact with the elastomer; and a second portion mounted to the first portion, the second portion having a plurality of first openings, each first opening corresponding to a recess, where a respective tip extends through a respective first opening, wherein each tip is slidably mounted within the welding plate, each tip having a central opening forming a welding channel. 2 . The welding plate of claim 1 , wherein the first portion further comprises a plurality of second openings, each second opening aligned with a recess, wherein each second opening is aligned with the central opening of the tip, each second opening forming a welding channel. 3 . The welding plate of claim 2 , wherein each second opening and the central opening of the tip further comprises an extended section configured to receive light from a monitoring laser for monitoring a quality of a weld. 4 . The welding plate of claim 1 , wherein the tip is configured to be mounted in one of a first orientation or a second orientation. 5 . The welding plate of claim 4 , wherein a wall of each tip comprises at least one opening and each recess comprises an alignment pin, wherein when the tip is inserted into the recess, the alignment pin is inserted into the opening in the wall of the tip defining the first or second orientation. 6 . The welding plate of claim 4 , wherein each tip in a same row of the welding plate has a same first or second orientation. 7 . The welding plate of claim 6 , wherein the orientation of the tips in a same row alternates every preset number of rows of tips. 8 . The welding plate of claim 1 , wherein a distal end of the tip has a horse-shoe shape. 9 . The welding plate of claim 8 , wherein the distal end of the tip has a notch region, a distal surface of the distal end is configured to engage a tab of a bus bar when welding, where a proximal end of the notch region is positioned above the bus bar. 10 . The welding plate of claim 1 , wherein the tip comprises a fiberglass material. 11 . The welding plate of claim 1 , wherein a target welding object is a bus bar, which is to be welded to cells of an energy storage system, where the tip contacts the bus bar, respectively, under a pressure of a backer plate when the welding plate is secured, where each tip slides within the corresponding recess and the elastomer is compressed, where an amount of sliding is based on heights of the corresponding cell. 12 . The welding plate of claim 1 , wherein the predetermined threshold is a shore A rating of 75. 13 . A welding system for an energy storage system, the energy storage system having a cell housing comprising a plurality of cell openings for holding a plurality of cells, respectively, the plurality of cells mounted therein and a first plurality of bus bars and a second plurality of bus bars, the welding system comprising: a first welding plate comprising: a first portion comprises a plurality of recesses, each recess having a bottom wall, an elastomer configured to compress under force and disposed at the bottom wall of the recess, and a tip inserted therein, wherein the elastomer biases the tip for axial sliding movement between extended and retracted positions and where a proximal end of the tip is in contact with the elastomer; and a second portion mounted to the first portion, the second portion having a plurality of first openings, each first opening corresponding to a recess, where a respective tip extends through a respective first opening, wherein each tip is slidably mounted within the welding plate, each tip having a central opening forming a welding channel, a distal end of the tips, when the first welding plate is mounted to the energy storage system, is configured to contact the first plurality of bus bars, the first welding plate further comprising a plurality of second openings, each second opening corresponding to a recess, wherein each second opening is aligned with the central opening of the tip, each second opening configured and dimensioned to form a laser welding channel, a backer plate comprising a plurality of projections having equal lengths and aligned with the tips, the backer plate, when mounted to the energy storage device is configured to contact the second plurality of bus bars, and at least one of the monitoring laser or a welding laser. 14 . The welding system of claim 13 , further comprising a second welding plate, wherein tips in the first welding plate and the second welding plate are mounted in a first orientation or a second orientation where both orientations are present in the first welding plate and the second welding plate. 15 . The welding system of claim 14 , wherein the distal end of the tip has a notch region, a distal surface of the distal end of the tip is configured to engage a tab of the one of the first plurality of bus bars or the second plurality of bus bars and a proximal end of the notch region is above the same bus bar. 16 . The welding system of claim 14 , wherein each second opening and the central opening of the tip further comprises an extended section configured to receive light from the monitoring laser for monitoring a quality of a weld.