Mixing valve

The invention claimed is: 1 . A mixing valve for mixing a first coating agent component with a second coating agent component of a coating agent to form a multicomponent mixture, having a) a first coating agent inlet for supplying the first coating agent component, b) a first coating agent valve for controlling a first coating agent flow of said first coating agent component through said first coating agent inlet, c) a second coating agent inlet for supplying the second coating agent component, d) a second coating agent valve for controlling a second coating agent flow of said second coating agent component through said second coating agent inlet; and e) a coating agent outlet for discharging the multicomponent mixture in a specific outflow direction, f) wherein the first coating agent valve and the second coating agent valve are each designed as a rotary slide valve with valve discs which are rotatable relative to one another about an axis of rotation, g) wherein the axis of rotation of the valve discs is aligned transversely to the outflow direction at the coating agent outlet, and h) wherein the first coating agent inlet and the second coating agent inlet are arranged on opposite sides of the valve discs. 2 . The mixing valve according to claim 1 , wherein the axes of rotation of the rotatable valve discs are coaxial. 3 . The mixing valve according to claim 1 , wherein a rotatable valve disc is arranged on each side of a central fixed valve disc. 4 . The mixing valve according to claim 1 , wherein the two coating agent components are brought together within a stationary valve disc. 5 . The mixing valve according to claim 1 , further comprising an outlet nozzle fed with the multi-component mixture from the coating agent outlet. 6 . The mixing valve according to claim 5 , wherein the outlet nozzle consists of plastic. 7 . The mixing valve according to claim 5 , wherein the outlet nozzle has a flow channel which imparts a twist to the multicomponent mixture flowing through. 8 . The mixing valve according to claim 5 , wherein the outlet nozzle is replaceable without tools. 9 . The mixing valve according to claim 5 , wherein the outlet nozzle is replaceable by means of a cap nut. 10 . The mixing valve according to claim 1 , wherein a) the mixing valve has a flushing agent inlet for supplying a flushing agent, and b) at least one of the valve discs has a further through-hole for the flushing agent in addition to the through-hole for the first or second coating agent. 11 . The mixing valve according to claim 1 , further comprising an electric motor for rotating the valve discs. 12 . The mixing valve according to claim 1 , further comprising two electric motors for rotating the rotatable valve disc of the first coating agent valve independently of the rotatable valve disc of the second coating agent valve. 13 . The mixing valve according to claim 1 , wherein the mixing valve mixes the two coating agent components with a specific mixing ratio, the mixing ratio being adjustable by a corresponding rotation of the valve discs. 14 . The mixing valve according to claim 1 , wherein the first coating agent valve and the second coating agent valve collectively include a pair of rotatable valve discs disposed on opposite side on a stationary valve disc. 15 . The mixing valve according to claim 14 , wherein each rotatable valve disc of the pair of rotatable valve discs abuts the stationary valve disc. 16 . The mixing valve according to claim 15 , wherein the two coating agent components are brought together within the stationary valve disc. 17 . A mixing valve for mixing a first coating agent component with a second coating agent component of a coating agent to form a multicomponent mixture, comprising: a) a first coating agent inlet for supplying the first coating agent component, b) a first coating agent valve for controlling a first coating agent flow of said first coating agent component through said first coating agent inlet, c) a second coating agent inlet for supplying the second coating agent component, d) a second coating agent valve for controlling a second coating agent flow of said second coating agent component through said second coating agent inlet; and e) a coating agent outlet for discharging the multicomponent mixture in a specific outflow direction, f) wherein the first coating agent valve and the second coating agent valve are each designed as a rotary slide valve with valve discs which are rotatable relative to one another about an axis of rotation, g) wherein the axis of rotation of the valve discs is aligned transversely to the outflow direction at the coating agent outlet, and h) wherein the axes of rotation of the rotatable valve discs are coaxial. 18 . A mixing valve for mixing a first coating agent component with a second coating agent component of a coating agent to form a multicomponent mixture, comprising: a) a first coating agent inlet for supplying the first coating agent component, b) a first coating agent valve for controlling a first coating agent flow of said first coating agent component through said first coating agent inlet, c) a second coating agent inlet for supplying the second coating agent component, d) a second coating agent valve for controlling a second coating agent flow of said second coating agent component through said second coating agent inlet; and e) a coating agent outlet for discharging the multicomponent mixture in a specific outflow direction, f) wherein the first coating agent valve and the second coating agent valve are each designed as a rotary slide valve with valve discs which are rotatable relative to one another about an axis of rotation, g) wherein the axis of rotation of the valve discs is aligned transversely to the outflow direction at the coating agent outlet, and h) wherein the two coating agent components are brought together within a stationary valve disc.