Vacuum insulated glass unit frame solution

The invention claimed is: 1. A vacuum insulated glass unit frame assembly, wherein said vacuum insulated glass unit frame assembly comprises: a rectangular vacuum insulated glass unit comprising two glass sheets separated by a gap between said glass sheets, wherein a plurality of support structures are distributed in said gap and wherein said gap is sealed, and a frame arrangement comprising elongated frame profile arrangements which frames said vacuum insulated glass unit in a frame opening extending in a frame opening plane defined between the elongated frame profile arrangements, and wherein said frame arrangement comprises a fixation system fixating the vacuum insulated glass unit at the frame arrangement, wherein said fixation system is arranged so as to allow edges of said vacuum insulated glass unit to thermally deflect in a deflection direction perpendicular to said frame opening plane due to a temperature difference between the two glass sheets, wherein said fixation system is configured so as to allow the magnitude of said thermal deflection is configured to vary along the edge between the corners where the respective edge terminates; wherein said fixation system comprises a plurality of fixation arrangements, wherein said plurality of fixation arrangements fixates said vacuum insulated glass unit at discrete fixation points distributed along the edges of the vacuum insulated glass unit, and wherein said plurality of fixation arrangements are attached to or between one or more frame members of said frame assembly, whereby the thermal deflection of the edges is substantially at its minimum at the discreet fixation points; and wherein said fixation points are placed so that the corners of the vacuum insulated glass unit, where the respective edge terminates, are configured to deflect in a first direction relative to a straight, common line extending through two of said discrete fixation points of the respective edge, and so that a centre portion of the same edge is configured to deflect in an opposite direction than said first direction, relative to the straight, common line, when the vacuum insulated glass unit thermally deflects. 2. The vacuum insulated glass unit frame assembly according to claim 1 , wherein the largest total edge deflection in said deflection direction of any of the edges of the vacuum insulated glass unit at a temperature difference between the two glass sheets of 65° C. as compared to the vacuum insulated glass unit at a temperature difference of 0° C. is in the range of 2 to 40 mm. 3. The vacuum insulated glass unit frame assembly according to claim 1 , wherein the largest total edge deflection in said deflection direction of any of the edges of the vacuum insulated glass unit at a temperature difference between the two glass sheets of 40° C. as compared to the vacuum insulated glass unit at a temperature difference of 0° C. is in the range of 1 to 25 mm. 4. The vacuum insulated glass unit frame assembly according to claim 1 , wherein the largest total edge deflection in said deflection direction of any of the edges of the vacuum insulated glass unit at a to a temperature difference between the two glass sheets of 40° C. as compared to the vacuum insulated glass unit at a temperature difference of 0° C. is in the range of 0.15% to 3% of the length of the deflecting edge. 5. The vacuum insulated glass unit frame assembly according to claim 1 , wherein all four edges of said vacuum insulated glass unit are allowed to thermally deflect in a deflection direction perpendicular to said frame opening plane due to a temperature difference between the two glass sheets. 6. The vacuum insulated glass unit frame assembly according to claim 1 , wherein each of at least two parallel edges of the vacuum insulated glass unit are attached to said frame assembly by two, and no more, of said discreet fixation arrangements distributed in the longitudinal direction of each of said edges. 7. The vacuum insulated glass unit frame assembly according to claim 6 , wherein each of said two discreet fixation arrangements of an edge is placed between 8% and 25% of the length of the respective edge from the respective corner of the vacuum insulated glass unit where the edge terminates. 8. The vacuum insulated glass unit frame assembly according to claim 1 , wherein at least four of said discrete fixation points define a common holding plane extending in or parallel to said frame opening plane. 9. The vacuum insulated glass unit frame assembly according to claim 1 , wherein one or more of said fixation arrangements are clamping devices configured so as to provide a clamping force onto oppositely directed, outer major surfaces of said vacuum insulated glass unit, and wherein the clamping force provided by said clamping devices is provided by an inherent resiliency of the clamping device, and/or is transferred from a part of the frame arrangement, through the clamping device and to the vacuum insulated glass unit. 10. The vacuum insulated glass unit frame assembly according to claim 1 , wherein one or more of said edges of the vacuum insulated glass unit extends into a recess provided by support members, and wherein said fixation system is placed in said recess. 11. The vacuum insulated glass unit frame assembly according to claim 10 , wherein the vacuum insulated glass unit edges are allowed to thermally deflect relatively to said recess. 12. The vacuum insulated glass unit frame assembly according to claim 10 , wherein said frame profile members comprise: elongated walls integrated in and part of a frame profile connecting said walls by means of a connection wall extending between the walls to provide a U-shape forming said recess, and/or a base member and a glazing profile member which is releasably connected to said base member, and wherein said base member and glazing member when connected provide a U-shape forming said recess. 13. The vacuum insulated glass unit frame assembly according to claim 10 , wherein the distance between the frame profile members, and thus the width of said recess provided by the frame profile members is substantially fixed during said thermal deflection when the temperature difference is less than 40° C. 14. The vacuum insulated glass unit frame assembly according to claim 10 , wherein a first gasket arrangement, is placed in said recess between said frame profile members and the outer surfaces of the vacuum insulated glass unit. 15. The vacuum insulated glass unit frame assembly according to claim 1 , wherein said fixation system is arranged so as to allow a shift in the direction of the thermal deflection of the corners and/or centre parts of the edges of the vacuum insulated glass unit in response to a change in the temperature difference between the two glass sheets of the vacuum insulated glass unit. 16. The vacuum insulated glass unit frame assembly according to claim 1 , wherein the length of the longer opposing edges is in the range of 500 to 3000 millimetres. 17. The vacuum insulated glass unit frame assembly according to claim 1 , wherein each of the two opposing longer edges are attached to said frame assembly by two and no more of said fixation arrangements distributed in the longitudinal direction of said longer edges and none of said fixation arrangements fixates the shorter opposing edges to the frame assembly. 18. The vacuum insulated glass unit frame assembly according to claim 1 , wherein a minimum distance in a space between an outer major surface of the vacuum insulated glass unit and walls of said frame is at least