Vacuum insulated glazing unit with a laser engraved code

The invention claimed is: 1. A vacuum insulated glazing unit comprising: a first tempered glass pane and a second tempered glass pane arranged in parallel, the first tempered glass pane and the second tempered glass pane each having an inner surface and an outer surface, where the inner surfaces of the first tempered glass pane and the second tempered glass pane oppose each other; spacers arranged between the opposed inner surfaces; a side seal material peripherally arranged between the first tempered glass pane and the second tempered glass pane creating an internal void between the glass panes, wherein the first tempered glass pane has a thickness T defined by a distance between the inner surface and the outer surface of the first tempered glass pane, and the second tempered glass pane has a thickness T′ defined by a distance between the inner surface and the outer surface of the second tempered glass pane, wherein the first tempered glass pane and the second tempered glass pane each comprises: a first compressive stress region located adjacent to the outer surface; a second compressive stress region located adjacent to the inner surface; and an internal tensile stress region located between the first and the second compressive stress regions; wherein the first tempered glass pane comprises at least one laser engraved region with a code engraved into the first tempered glass pane by means of laser engraving, where the at least one laser engraved region has a height H extending parallel with a direction defining the thickness T of the first tempered glass pane; wherein the at least one laser engraved region is positioned in the first compressive stress region or the second compressive stress region of the first tempered glass pane; and wherein the inner surface of the first tempered glass pane and/or the second tempered glass pane further comprises a low-emittance coating. 2. The vacuum insulated glazing unit according to claim 1 , wherein the at least one laser engraved region has a length L extending perpendicular to the height H, and wherein two consecutive spacers are separated by a distance S being larger than the length L. 3. The vacuum insulated glazing unit according to claim 2 , wherein the distance S is at least 10% larger than the length L, and/or wherein S is in the range of 20-120 mm. 4. The vacuum insulated glazing unit according to claim 1 , wherein the at least one laser engraved region has a width W extending in parallel with the inner surface, wherein the inner surface of the first tempered glass pane has a first region extending in parallel with the laser engraved region, the first region having the same length and width as the laser engraved region, and wherein the first region of the inner surface of the first tempered glass pane is not in contact with the spacers. 5. The vacuum insulated glazing unit according to claim 1 , comprising two or more laser engraved regions positioned in one or both of the first compressive stress region and the second compressive stress region of the first tempered glass pane, or the internal tensile stress region of the first tempered glass pane. 6. The vacuum insulated glazing unit according to claim 1 , wherein the second tempered glass pane comprises at least one laser engraved region with a code engraved into the second tempered glass pane by means of laser engraving, where the at least one laser engraved region has a height H extending parallel with the direction defining the thickness T of the second tempered glass pane. 7. The vacuum insulated glazing unit according to claim 6 , wherein the at least one laser engraved region in the second tempered glass pane has a length L extending perpendicular to the height H, a width W extending in parallel with the inner surface of the second tempered glass pane, wherein the inner surface of the second tempered glass pane has a first region extending in parallel with the laser engraved region in the second tempered glass pane, the first region having the same length and width as the laser engraved region, and wherein the first region of the inner surface of the first second tempered glass pane is not in contact with the spacers. 8. The vacuum insulated glazing unit according to claim 6 , wherein the at least one laser engraved region in the second tempered glass pane is positioned in: the first compressive stress region or the second compressive stress region of the second tempered glass pane, or the internal tensile stress region of the second tempered glass pane. 9. The vacuum insulated glazing unit according to claim 1 , wherein: the first tempered glass pane has a thickness of between 1-6 mm, and/or the second tempered glass pane has a thickness of between 1-6 mm. 10. The vacuum insulated glazing unit according to claim 1 , wherein the height H of the laser engraved region in the first and/or second tempered glass pane is/are between 0.05-0.4 mm. 11. The vacuum insulated glazing unit according to claim 6 , wherein the laser engraved region is positioned at a distance d 1 of at least 0.1 mm from the outer surface of the first and/or the second tempered glass pane, or the internal tensile stress region of the first and/or second tempered glass pane. 12. The vacuum insulated glazing unit according to claim 11 , wherein d 1 is in the range of 0.25 T-0.45 T. 13. The vacuum insulated glazing unit according to claim 2 , wherein each of the first tempered glass pane and the second tempered glass pane further comprising a first transition region bridging the internal tensile stress region and the first compressive stress region and a second transition region bridging the internal tensile stress region and the second compressive stress region. 14. The vacuum insulated glazing unit according to claim 6 , wherein the code has been laser engraved into the first tempered glass pane and/or the second tempered glass pane before tempering the glass pane(s). 15. The vacuum insulated glazing unit according to claim 1 , wherein the side seal material comprises a glass solder frit material.