Vacuum-coating system, and method for coating a strip-type material

The invention claimed is: 1. A vacuum-coating system for coating a strip-shaped metal material, comprising: a conveying section with transport rollers, on which the strip-shaped metal material moves in a transport direction, the transport rollers being configured to convey the strip-shaped metal material with a width of the strip being horizontally arranged; a coating chamber in which a vacuum is generated, the coating chamber having an inlet area with an inlet air lock and an outlet area with an outlet air lock through which the strip-shaped metal material passes in the transport direction from an environment into and out of the vacuum; and a trimming shear arranged in the environment upstream of the coating chamber, the trimming shear being configured to trim the strip-shaped metal material at at least one strip edge to produce a constant width of the strip-shaped metal material corresponding to a width of the inlet air lock and the outlet air lock; and a strip position control device arranged upstream of the trimming shear, the strip position control device being configured to align the strip-shaped metal material with respect to a center of the conveying section. 2. The vacuum-coating system according to claim 1 , further comprising a position sensor with which a position of the strip-shaped metal material on the conveying section is determined in an area upstream of the coating chamber. 3. The vacuum-coating system according to claim 2 , further comprising a control device, by which the trimming shear is actuated as a function of signals of the position sensor. 4. The vacuum-coating system according to claim 1 , wherein the trimming shear is configured to trim the strip-shaped metal material at both strip edges. 5. The vacuum-coating system according to claim 1 , further comprising a skin pass mill and/or a stretching/bending device arranged upstream of the trimming shear, through which the strip-shaped metal material is passed in order to produce a desired flatness for the strip-shaped metal material. 6. The vacuum-coating system according to claim 1 , further comprising a skin pass mill arranged upstream of the trimming shear. 7. The vacuum-coating system according to claim 6 , wherein a width of the strip upstream of the trimming shear is wider than the width of the inlet air lock. 8. The vacuum-coating system according to claim 7 , further comprising a first coiling device configured to unwind a coil of the strip-shaped metal material at an inlet of the conveying section, and a second coiling device configured to rewind the strip-shaped metal after it has been coated. 9. A system for galvanizing a steel strip, comprising: a first coiling device arranged at an inlet of the system, the first coiling device being configured to unwind the steel strip from a coil; a skin pass mill arranged downstream of the first coiling device, the skin pass mill being configured to balance or compensate flatness defects of the steel strip; a trimming shear arranged downstream of the skin pass mill, the trimming shear being configured to cut off a left strip edge and a right strip edge of the steel strip such that the steel strip has a constant width downstream of the trimming shear; a coating chamber in which a vacuum is generated arranged downstream of the trimming shear, the coating chamber having an inlet area with an inlet air lock through which the steel strip passes from an environment into the vacuum, and an outlet area with an outlet air lock through which the steel strip passes from the vacuum into the environment, the coating chamber being configured to apply a zinc layer to the steel strip by physical vapor deposition; and a second coiling device arranged downstream of the coating chamber for rewinding the coated steel strip into a coil.