Method for producing motor vehicle locks with an oblique main latch contour

The invention claimed is: 1. A procedure to produce a catch and a pawl of a latch, the procedure comprising: stamping out the catch such that the catch has a first ratchet surface and stamping out the pawl such that the pawl has a second ratchet surface, wherein the stamping of the catch and pawl forms a plurality of stamped grooves on the first and second ratchet surfaces, wherein the plurality of stamped grooves are configured to be vertical or nearly vertical when the catch and pawl are installed in the latch for operational use, and wherein the first ratchet surface abuts the second ratchet surface when the latch is in a closed position, encasing each of the catch and the pawl in a respective casing, wherein the first and second ratchet surfaces are kept free of each of the respective casings, and after stamping out the catch and the pawl, processing one of the first or second ratchet surfaces with a tool which produces a plurality of oblique grooves which are angled between 5° and 15° relative to the plurality of stamped grooves, wherein each oblique groove intersects at least two of the plurality of stamped grooves of the other of the catch or the pawl when the latch is in the closed position, thereby reducing contact points between the catch and pawl during operation of the latch. 2. The procedure of claim 1 , wherein in the further procedure step the oblique grooves are produced on the first or second ratchet surface with the tool via mechanical erosion. 3. The procedure of claim 1 , wherein the oblique grooves are milled into the second ratchet surface on the pawl. 4. The procedure of claim 1 , wherein oblique grooves moulded into the first or second ratchet surface of the catch or the pawl. 5. The procedure of claim 1 , wherein after processing one of the first or second ratchet surfaces, processing the other of the first or second ratchet surfaces with oblique grooves in the first or second ratchet surface, the orientation of which is in an opposite, direction of the oblique grooves in the first or second ratchet surface processed in claim 1 and which results in each oblique groove on the first ratchet surface intersecting at least two oblique grooves on the second ratchet surface when the latch is in the closed position. 6. A latch with a catch and a pawl locking the catch in a closed position, wherein the catch and the pawl are produced by the procedure according to claim 1 . 7. The procedure of claim 1 , wherein the oblique grooves are more marked than the stamped grooves. 8. The procedure of claim 1 , wherein the plurality of oblique grooves are angled between 5° and 8° relative to the plurality of stamped grooves. 9. The procedure of claim 1 , wherein the first and second ratchet surfaces slide relative to each other when moving the latch to an open position from the closed position and wherein producing the plurality of oblique grooves on one of the first or second ratchet surfaces reduces sliding friction between the first and second ratchet surfaces compared to first and second ratchet surfaces each having a plurality of stamped grooves without one having the plurality of oblique grooves. 10. A latch comprising: a catch defining a first ratchet surface and a plurality of first stamped grooves, the plurality of first stamped grooves configured to be a plurality of first vertical stamped grooves when the latch is installed for operational use, a pawl defining a second ratchet surface that interacts with the first ratchet surface to hold the catch in a closed position, wherein the pawl defines a plurality of second stamped grooves, the plurality of second stamped grooves configured to be a plurality of second stamped vertical grooves when the latch is installed for operational use, a respective casing covering each of the catch and the pawl except for the first and second ratchet surfaces which are not covered by the respective casings, wherein one of the first or second ratchet surfaces defines a plurality of oblique grooves that are angled between 5° and 15° relative to the first or second vertical stamped grooves, thereby reducing contact points between the catch and pawl during operation of the latch. 11. The latch of claim 10 , wherein oblique grooves are milled on the second ratchet surface of the pawl. 12. The latch of claim 11 , wherein the angle between the straight stamping grooves and the oblique grooves is dependent on a thickness of the catch or pawl and a distance of the vertical stamping grooves. 13. The latch of claim 11 , wherein the angle between the vertical stamping grooves and the oblique grooves is 5-8°. 14. The latch of claim 10 , wherein the oblique grooves on the first or second ratchet surfaces of the catch or pawl are configured to prevent interlocking of the first and second vertical stamping grooves. 15. The latch of claim 11 , wherein the oblique grooves on the first or second ratchet surfaces of the catch or pawl are configured to prevent interlocking of the first and second vertical stamping grooves. 16. The latch of claim 15 , wherein the angle between, the straight stamping grooves and the oblique grooves is dependent on a thickness of the catch or pawl and a distance of the vertical stamping grooves and is between 5-8°. 17. The procedure of claim 10 , wherein the oblique grooves are more marked than the stamped grooves. 18. The latch of claim 16 , wherein the oblique grooves in the opening direction of the pawl are arranged in an inclined manner.