Method for producing plate arrangements and use thereof

1 . A method for producing a cuboid plate stack having a stack length and a stack width, the plate stack including shaped metal sheets that are rectangular or L-shaped and each produced from a metal strip of a uniform thickness by shaping and include first shaped metal sheets having a uniform length that corresponds to the stack length and second shaped metal sheets having a uniform width that is at most equal to the stack width, each first shaped metal sheet including a first portion including a first planar sub-surface and a second portion including a second planar sub-surface, each second shaped metal sheet including a first portion including a first planar sub-surface, the method comprising: stacking the first and second shaped metal sheets one on top of the other, after the shaping of the shaped metal sheets, such that a plurality of through-cavities, in the form of vents, are formed in longitudinal direction of the stack in parallel with the uniform length between respective planar sub-surfaces of the second portions of the first shaped metal sheets, a respective first portion of the second shaped metal sheets acting as a spacer for forming the vents, and the respective planar sub-surface of the first portion of the second shaped metal sheets resting on the respective planar sub-surface of the first portion of the first shaped metal sheets; and interconnecting the shaped metal sheets in a captive manner so as to form a self-supporting structure of a plate stack, wherein, in order to produce the self-supporting structure, each of the planar sub-surfaces of at least the first portion, of the first and second shaped metal sheets is provided with debossed bulges such that, when the planar sub-surfaces of first portions of the first and second shaped metal sheets that rest one on top of the other are stacked, bulges and debossed impressions engage with one another. 2 . The method according to of claim 1 , wherein the first shaped metal sheets have a uniform length and the second shaped metal sheets have different widths. 3 . The method of claim 2 , comprising: stacking two of the first shaped metal sheets are stacked one on top of the other, followed by one of the second shaped metal sheets. 4 . The method of claim 1 , wherein each of the first shaped metal sheets is produced so as to have beading by processing the metal strip. 5 . (canceled) 6 . The method of claim 1 , comprising: shaping the shaped metal sheets using stamping, wire eroding, laser cutting, water jet cutting, or nibbling. 7 . (canceled) 8 . The method of claim 1 , comprising, in order to produce the self-supporting structure: providing further shaped metal sheets with drill holes; and interconnecting the shaped metal sheets via the drill holes using rivets following the stacking. 9 . The method of claim 1 , comprising, in order to produce the self-supporting structure; introducing further shaped metal sheets into a frame, wherein the frame can be inserted into an outlet window of an installation device. 10 . The method of claim 1 , wherein a number of the vents in the longitudinal direction extending in parallel with the stack length is variable. 11 . The method claim 1 , wherein the metal strip has a thickness in a range of from 0.1 to 0.5 mm. 12 . A method of cooling a electrical installation the method comprising: including a plate stack made by the method of claim 1 in the electrical installation device so as to form a cooling plate arrangement in the electrical installation device.