Microneedle system and method for the production thereof

What is claimed is: 1. A method for producing a microneedle system ( 10 ), said microneedle system ( 10 ) including, a web grid ( 41 ) with a multiplicity of grid nodes ( 42 ) which are defined by way of in each case three apertures ( 22 ) and each of the grid nodes ( 42 ) having three webs ( 43 ) connected to one another in a T-shaped arrangement and each of said apertures ( 22 ) arranged with respect to each other with web grid wedges ( 51 ) not aligned with one another being produced from a board ( 21 ), the web grid wedges ( 51 ) each with needles ( 55 ) having needle-shaped points ( 56 ) protruding into every aperture ( 22 ) from at least three different directions before bending of the web grid wedges ( 51 ) along a bending line ( 53 ), and said method including the following steps: at least all the web grid wedges ( 51 ) which protrude into an aperture ( 22 ) from at least three different directions prior to bending, being bent by a single rain ( 72 ) in a single rain stroke in order to produce the needles ( 55 ) having needle-shaped points ( 56 ) at openings ( 31 ), each of the web grid wedges ( 51 ) being bent along the bending line ( 53 ) in a common plane parallel to an upper side ( 44 ) of the web grid ( 41 ), at least two of the web grid wedges ( 51 ) which protrude into an aperture ( 22 ) having bending lines ( 53 ) pointing in different directions, and the needle-shaped points ( 56 ) of the needles ( 55 ) being oriented perpendicularly with respect to the plane of the web grid ( 41 ). 2. The method for producing a microneedle system ( 10 ) of claim 1 , wherein the rain ( 72 ) has longitudinal edges ( 75 ) which are oriented in its stroke direction ( 74 ), in each case two longitudinal edges ( 75 ) delimiting a planar rain face ( 76 ). 3. The method for producing a microneedle system ( 10 ) of claim 1 , wherein the board ( 21 ) which has the apertures ( 22 ) lies on a matrix system ( 61 ) with at least one recess ( 62 ) with a polygonal cross section. 4. A microneedle system ( 10 ) comprising: a board ( 21 ) and having a multiplicity of openings ( 31 ) which are delimited peripherally by way of a web grid ( 41 ), at least three web grid wedges ( 51 ) operatively arranged at each of the openings ( 31 ), each of the web grid wedges ( 51 ) with a needle ( 55 ) having a needle-shaped point ( 56 ) which projects from the web grid ( 41 ) and is oriented at least approximately perpendicularly with respect to the plane of the web grid ( 41 ), each web grid wedge ( 51 ) comprising a bending zone ( 52 ) with a bending line ( 53 ) which is oriented parallel to the plane of the web grid ( 41 ), and the number of needle-shaped points ( 56 ) corresponding at least to three times the number of openings ( 31 ), wherein at least two of the at least three web grid wedges ( 51 ) are arranged at each opening ( 31 ); such that the bending lines ( 53 ) of the at least two of the at least three web grid wedges ( 51 ) arranged at each opening ( 31 ) are not oriented parallel to one another, and wherein in each case three openings ( 31 ) of the board ( 21 ) define a grid node ( 42 ) in the web grid ( 41 ) having three webs ( 43 ) connected to one another in a T-shaped arrangement at each of said grid nodes. 5. The microneedle system ( 10 ) of claim 4 , wherein the overall cross-sectional area of the openings ( 31 ) is at least 30% of the board base area. 6. The microneedle system ( 10 ) of claim 4 , wherein the bending lines ( 53 ) of in each case two adjacent web grid wedges ( 51 ) intersect at precisely one point. 7. The microneedle system ( 10 ) of claim 4 , wherein all of the needle-shaped points ( 56 ) are parts of needles ( 55 ) which have at least approximately the same length.