Method of metering plastic granular material

The invention claimed is: 1. A method of influencing a temperature of a melt in a plasticizing cylinder of a plasticizing unit for an injection molding machine having a plasticizing screw arranged rotatably and configured to be displaced linearly in a cylinder bore of the plasticizing cylinder which extends axially, wherein metering of plastic granular material fed to the plasticizing unit is effected in dependence on a desired temperature of the melt in the plasticizing unit, wherein an axial temperature profile of the melt is determined based on ultrasound measurements including reflected or transmitted ultrasound pulses at several axial positions of the plasticizing cylinder, wherein the metering of the plastic granular material is effected in dependence on the axial temperature profile of the melt, and wherein the plasticizing screw is underfed during the metering. 2. The method as set forth in claim 1 , wherein the plasticizing screw is underfed during the metering in such a way that an effective screw length of the plasticizing screw is constant. 3. The method as set forth in claim 1 , wherein the plasticizing screw is underfed during the metering in such a way that an effective screw length of the plasticizing screw is shortened. 4. The method as set forth in claim 1 , wherein the plasticizing screw is underfed during the metering in such a way that an effective screw length of the plasticizing screw is increased. 5. The method as set forth in claim 1 , wherein a desired temperature gradient of the axial temperature profile of the melt in the plasticizing cylinder is predetermined and the metering is effected in such a way that the desired temperature gradient is set in the plasticizing cylinder. 6. The method as set forth in claim 1 , wherein the temperature of the melt in the plasticizing cylinder is ascertained with ultrasound transducers. 7. A method of influencing a temperature of a melt in a plasticizing cylinder of a plasticizing unit for an injection molding machine having a plasticizing screw arranged rotatably and configured to be displaced linearly in a cylinder bore of the plasticizing cylinder which extends axially, wherein metering of plastic granular material fed to the plasticizing unit is effected in dependence on a desired temperature of the melt in the plasticizing unit, wherein an axial temperature profile of the melt is determined based on ultrasound measurements including reflected or transmitted ultrasound pulses at several axial positions of the plasticizing cylinder, wherein the metering of the plastic granular material is effected in dependence on the axial temperature profile of the melt, and wherein the determination of the axial temperature profile of the melt is effected in an evaluation unit and regulation of the axial temperature profile of the melt is effected by a closed-loop regulating device, whereby the temperature of the melt is regulated by a change in a rotary speed of a motor of the plasticizing screw or by a change in dynamic pressure regulation of the plasticizing unit. 8. The method as set forth in claim 7 , whereby the temperature of the melt is regulated by the change in the rotary speed of the motor of the plasticizing screw and by the change in the dynamic pressure regulation of the plasticizing unit. 9. A method of influencing a temperature of a melt in a plasticizing cylinder of a plasticizing unit for an injection molding machine having a plasticizing screw arranged rotatably and configured to be displaced linearly in a cylinder bore of the plasticizing cylinder which extends axially, wherein metering of plastic granular material fed to the plasticizing unit is effected in dependence on a desired temperature of the melt in the plasticizing unit, wherein an axial temperature profile of the melt is determined based on ultrasound measurements including reflected or transmitted ultrasound pulses at several axial positions of the plasticizing cylinder, wherein the metering of the plastic granular material is effected in dependence on the axial temperature profile of the melt, wherein the plasticizing screw is underfed during the metering in such a way that an effective screw length of the plasticizing screw is shortened and increased, and wherein, depending on a supplied volume flow of the plastic granular material, a position of an initial pressure build-up is varied, which corresponds to a change in the effective screw length of the plasticizing screw.