Roller mill

1 .- 11 . (canceled) 12 . A roller mill, comprising: a machine frame having a plurality of frame parts interconnected to each other at mated faces thereof; a first and a second roller unit disposed in said machine frame; a first pair of bearing jewels disposed in said first roller unit; a first grinding roller rotatably mounted in said first pair of bearing jewels; a second pair of bearing jewels disposed in said second roller unit; a second grinding roller rotatably mounted in said second pair of bearing jewels and disposed mutually opposite said first grinding roller; a drive unit operatively coupled to each of said first and second grinding rollers and configured to counter-rotatingly drive said grinding rollers; and a force application system coupled between said machine frame and at least one of said first and second roller units and configured to generate a grinding force to be transmitted via said machine frame and said bearing jewels to said grinding rollers; two mutually compressed connection faces defined at an interconnection between mated faces of at least one of, (a) at least two interconnected frame parts, or (b) at least one frame part and one of said bearing jewels of said first and second pair of bearing jewels; and a coating disposed on at least one of said two mutually compressed connection faces that is configured to generate a releasable micro positive lock there between for transmitting grinding force. 13 . The roller mill of claim 12 , further comprising tensioning means configured to mutually compress said two mutually compressed connection faces. 14 . The roller mill of claim 13 , wherein said tensioning means are a plurality of screw connections that couple said two mutually compressed connection faces together. 15 . The roller mill of claim 12 , wherein said coating is configured such that said releasable micro positive lock of said interconnected frame parts may be completely released by separating said two mutually compressed connection faces from each other by a maximum distance of 4 mm. 16 . The roller mill of claim 12 , said two mutually compressed connection faces are planar. 17 . The roller mill of claim 12 , wherein said coating is a hard-material particle coating. 18 . The roller mill of claim 12 , said machine frame includes at least one lower frame part, at least one upper frame part, and a plurality of pressure beams coupled there between that connect said upper frame part to said lower frame part. 19 . The roller mill of claim 18 , wherein each of said bearing jewels are disposed between said upper and lower frame parts and are guided in a sliding and displaceable manner along said upper and lower frame parts. 20 . The roller mill of claim 18 , further comprising four separate pressure beams, wherein a first and second pressure beams are configured as counter-bearings of said first roller unit, and wherein second and third pressure beams are configured as counter-bearings of said second roller unit, and wherein said upper and lower framed are each connected to said four pressure beams by, in each case, one releasable and positive locking connection to two mutually compressed connection faces, wherein at least two of the mutually compressed connection faces have the coating which generates a micro positive lock. 21 . The roller mill of claim 18 , further comprising two pressure beams that are connected to said at least one upper and lower frame parts and which serve as counter-bearings for said first roller unit that functions as a floating roller, and said second roller unit that functions as a fixed roller together with the bearing jewels associated therewith, is connected to the upper and the lower frame part via the releasable and positive locking connection to two mutually compressed connection faces, wherein at least one of the two mutually compressed connection faces has the coating which generates a micro positive lock. 22 . The roller mill of claim 12 , wherein at least one of the connection faces having the coating which generates a micro positive lock is applied onto an intermediate element.