Screen printing form for use in a screen printing method, screen printing device, and screen printing method

The invention claimed is: 1. A screen printing form ( 1 , 1 ′) for use in a screen printing method, the screen printing form comprising: a screen printing fabric ( 1 b ) with a multiplicity of elongate woven fabric elements, which are arranged in a first element direction and a second direction perpendicular thereto; a stencil ( 1 c ) arranged on the screen printing fabric ( 1 b ), which has at least one opening formed as a straight channel with a channel width BK; wherein the woven fabric elements have a first spacing (AF) in the first element direction and a spacing which deviates by less than 5% from the first spacing (AF) in the second element direction, and the woven fabric elements have a diameter (DG) in the first element direction and a first diameter which deviates by less than 5% from the first diameter (DG) in the second element direction; the channel ( 1 d ) encloses with the first element direction an angle (φ) with a tolerance of +/−0.1°, and the channel width BK of the channel is less than or equal to a maximum width (BKmax) associated with the angle (φ), wherein the angle (φ) is one of the following: the angle φ[°] from the group 11.31°, 14.04°, 18.44°, 26.57°, 45° with an associated maximum width (BKmax) [μm] according to BK max =(2 DG+AF )sin φ+ DG cos φ or the angle φ[°]=33.69°, with an associated maximum width (BKmax) [μm] according to BK max =(2 DG+AF )cos φ+ DG sin φ, and the channel width (BK) is smaller than the spacing between two woven fabric elements in the second thread direction and in the first thread direction. 2. The screen printing form ( 1 , 1 ′) as claimed in claim 1 , wherein at least one of the woven fabric elements have the first spacing (AF) in the first element direction and the spacing which deviates by less than 2% from the first spacing (AF) in the second element direction or the woven fabric elements have the first diameter (DG) in the first element direction and the diameter which deviates by less than 2% from the first diameter (DG) in the second element direction. 3. The screen printing form ( 1 , 1 ′) as claimed in claim 1 wherein the stencil ( 1 c ) includes a plurality of straight parallel channels. 4. The screen printing form ( 1 , 1 ′) as claimed in claim 3 , wherein the channels have a spacing which corresponds to an integer multiple of the spacing of the woven fabric elements in at least one of the first or second thread direction. 5. The screen printing form ( 1 , 1 ′) as claimed in claim 1 , wherein the channel ( 1 d ) encloses with the first element direction the angle (φ) with a tolerance of +/−0.1°, and the channel width (BK) of the channel is less than or equal to the maximum width (BKmax) associated with the angle (φ), as follows: for the angle (φ)[° ] from the group 11.31°, 14.04°, 18.44°, 26.57°, 45°, the maximum (width BKmax)[μm] is according to BK max,21 =AF sin φ+ DG cos φ or for the angle (φ)[° ]=33.69°, the associated maximum width (BKmax) [μm] is according to BK max,21 =(2 DG+AF )(cos φ−sin φ). 6. The screen printing form ( 1 , 1 ′) as claimed in claim 5 , wherein the first distance (AF) and the first diameter (DG) are selected such that with a condition BKmax=BK max1 and the angle (φ)[° ] from the group 11.31°, 14.04°, 18.44°, 26.57°, 45°, the following φ < tan - 1 ( DG DG + AF ) additionally applies, and with the angle (φ)[°]=33.69°, the following φ > tan - 1 ( AF AF + DG ) additionally applies, with a condition BKmax=BK max0 and the angle (φ)[° ] from the group 11.31°, 14.04°, 18.44°, 26.57°, 45°, the following φ > tan - 1 ( DG AF ) additionally applies, and with the angle (φ)[° ]=33.69°, the following φ > tan - 1 ( AF AF + DG ) additionally applies. 7. The screen printing form ( 1 , 1 ′) as claimed in claim 5 , wherein the channel ( 1 d ) encloses with the first element direction the angle (φ) with a tolerance of +/−0.1°, and the channel width (BK) of the channel is less than or equal to the maximum width (BKmax) associated with the angle (φ), as follows: for the angle φ[°] from the group 11.31°, 14.04°, 18.44°, 26.57°, 45°, the associated maximum width (BKmax) [μm] is according to BK max,1 =(2 DG+AF )sin φ− DG cos φ or for the angle φ[°]=33.69°, the associated maximum width (BKmax) [μm] is according to BK max,1 =AF (cos φ−sin φ). 8. The screen printing form ( 1 , 1 ′) as claimed in claim 7 , wherein the channel ( 1 d ) encloses with the first element direction the angle (φ) with a tolerance of +/−0.1°, and the channel width (BK) of the channel is less than or equal to the maximum width (BKmax) associated with the angle φ, as follows: for the angle (φ)[° ] from the group 11.31°, 14.04°, 18.44°, 26.57°, 45°, the associated maximum width (BK max ) [μm] s according to BK max,0 =AF sin φ− DG cos φ or for the angle (φ)[°]=33.69°, the associated maximum width (BKmax) [μm] is according to BK max,0 =AF cos φ−(2 DG+AF )sin φ. 9. A screen printing device for applying a screen printing paste ( 2 ) to a substrate, the screen printing device comprising: the screen printing form ( 1 , 1 ′) as claimed in claim 1 , and at least one squeegee ( 3 ), wherein the screen printing device is configured to apply screen printing paste ( 2 ) to a substrate through the screen printing form ( 1 , 1 ′) using the squeegee. 10. A screen printing method for applying a screen printing paste ( 2 ) to a substrate, the method comprising: applying the screen printing paste ( 2 ) to the substrate through the screen printing form ( 1 , 1 ′) according to claim 1 at least one squeegee ( 3 ).