Tool For Hot Stamping And Method For Making The Tool

1 . A tool for hot stamping metal sheets, formed at least partially of a base block and a functional layer, the functional layer comprising cooling channels, wherein the functional layer includes multiple functional sub-layers, which building upon each other create a connection to the base block and which comprise cooling channels that are designed as a cooling channel array and produced in a laser sintering method, wherein at least two of the cooling channels do not have the same three-dimensional progression. 2 . The tool for hot stamping according to claim 1 , wherein each of the cooling channels has a different progression compared to the respective neighboring cooling channel. 3 . The tool for hot stamping according to claim 1 , wherein cooling channels of the cooling channel array have different cross-sections. 4 . A tool for hot stamping according to claim 1 , wherein an inlet and an outlet of the cooling channels are connected in each case to a distributor line. 5 . A tool for hot stamping according to claim 1 , wherein the functional layer comprises an adhesive layer, a cooling layer comprising the cooling channels, a structure layer, and a processing layer. 6 . A tool for hot stamping according to claim 1 , wherein at least one cooling channel includes at least one turbulence generator for inducing turbulent flow in a temperature control fluid. 7 . A tool for hot stamping according to claim 6 , wherein the at least one turbulence generator comprises structures in the wall of the at least one cooling channel. 8 . A tool for hot stamping according to claim 6 , wherein the at least one turbulence generator comprises elevations from the wall of the at least one cooling channel. 9 . A tool for hot stamping according to claim 6 , wherein the at least one turbulence generator comprises blade-like structures. 10 . A tool for hot stamping according to claim 6 , wherein the at least one turbulence generator comprises structures having undercuts. 11 . A tool for hot stamping according to claim 1 , wherein the tool comprises one or more base blocks, wherein at least one of the one or more base blocks, or at least one section of one of the one or more base blocks, is configured with the functional layer produced by way of a laser sintering method. 12 . A method for producing a tool according to claim 1 , wherein the functional layer is applied by way of laser sintering. 13 . A tool for hot stamping metal sheets, comprising: a base block fabricated from a first material and having a contour defined therein approximating a predetermined shape of a forming surface of the tool; and a functional layer formed within the contour of the base block, the functional layer defining a plurality of cooling channels, each cooling channel of the plurality of cooling channels being formed as a continuous void within the functional layer using a laser sintering process, at least two cooling channels of the plurality of cooling channels having different three-dimensional shapes one compared to the other, the functional layer including a plurality of functional sub-layers arranged one on top of another, and comprising at least: a first functional sub-layer for creating a connection to the first material of the base block; a second functional sub-layer containing the plurality of cooling channels; and a third functional sub-layer fabricated from tool-steel and providing the predetermined shape of a forming surface of the tool. 14 . A tool for hot stamping according to claim 13 , wherein the plurality of cooling channels is disposed between a first distributor and a second distributor, an inlet of each cooling channel of the plurality of cooling channels being in fluid communication with the first distributor, and an outlet of each cooling channel of the plurality of cooling channels being in fluid communication with the second distributor. 15 . A tool for hot stamping according to claim 13 , comprising a fourth functional sub-layer disposed between the second functional sub-layer and the third functional sub-layer, the fourth functional sub-layer being a structure layer fabricated from tool-steel. 16 . A tool for hot stamping according to claim 13 , wherein each cooling channel has a different three-dimensional shape compared to the three-dimensional shape of each respective neighboring cooling channel. 17 . A tool for hot stamping according to claim 13 , wherein the cross-sectional shape of at least one cooling channel of the plurality of cooling channels is different than the cross-sectional shape of another cooling channel of the plurality of cooling channels. 18 . A tool for hot stamping according to claim 13 , wherein the cross-sectional size of at least one cooling channel of the plurality of cooling channels is different than the cross-sectional size of another cooling channel of the plurality of cooling channels. 19 . A tool for hot stamping according to claim 13 , wherein at least one of the cross-sectional shape and the cross-sectional size of at least one cooling channel of the plurality of cooling channels varies along a length of said at least one cooling channel. 20 . A tool for hot stamping according to claim 13 , comprising at least one turbulence generator disposed within at least one cooling channel of the plurality of cooling channels. 21 . A tool for hot stamping according to claim 20 , wherein the at least one turbulence generator comprises structures defined along an inner wall surface of the at least one cooling channel. 22 . A tool for hot stamping according to claim 21 , wherein the at least one turbulence generator comprises elevations projecting from the inner wall surface of the at least one cooling channel. 23 . A tool for hot stamping according to claim 21 , wherein the at least one turbulence generator comprises blade-like structures. 24 . A tool for hot stamping according to claim 21 , wherein the at least one turbulence generator comprises structures having undercuts. 25 . A method for producing a hot stamping tool, comprising: providing a base block within a powder bed of a laser sintering system, the base block having a contour defined therein, the contour approximating a predetermined shape of a forming surface of the tool; forming a functional layer within the contour by laser sintering successive layers of powered material, comprising: forming a first functional sub-layer for creating a connection to the first material of the base block; forming a second functional sub-layer containing a plurality of cooling channels, each cooling channel being formed as a continuous void within the functional layer, and wherein at least two cooling channels of the plurality of cooling channels have different three-dimensional shapes compared to one another; and forming a third functional sub-layer fabricated from tool-steel and providing the predetermined shape of the forming surface of the tool.