Injection molding machine

What is claimed is: 1. An injection molding machine comprising: an injection nozzle having a melt channel, an injection opening, an inlet port for a molten resin and a filter for filtering the molten resin within the injection nozzle, wherein the filter is configured to cooperate with the melt channel for molten resin or a means arranged within the melt channel, such that during an injection phase of the injection molding machine, the molten resin is caused to flow through the filter and during a decompression phase of the injection molding machine, the molten material is caused to bypass the filter wherein the filter is of an annular design and arranged, such that it divides the melt channel into a cylindrical section within the filter and an annular section outside the filter, the annular section outside the filter communicates with the injection opening and the filter is displaceable into a decompression position in which the stops of the filter and of the means for guiding the molten resin which face the injection opening are spaced from each other and provide a passage for the molten resin from the annular section outside the filter into the cylindrical section within the filter. 2. The injection molding machine of claim 1 , wherein the means for guiding the molten resin is provided within the melt channel, wherein the means for guiding the molten resin and the filter are displaceable relative to each other. 3. The injection molding machine of claim 2 wherein the injection nozzle has a detachable nozzle tip. 4. The injection molding machine of claim 3 wherein the means for guiding the molten resin and the filter can be withdrawn from the injection nozzle upon detachment of the nozzle tip. 5. The injection molding machine of claim 2 , wherein both the means for guiding the molten resin and the filter at respective ends thereof facing the inlet port and facing the injection opening each have a stop, wherein a respective stop of the means for guiding the molten resin cooperates with a corresponding stop of the filter. 6. The injection molding machine of claim 1 , wherein the means for guiding the molten resin are configured such that at one end thereof at least one passage is provided, such that the melt channel via the at least one passage communicates with the cylindrical section within the filter, either downstream or upstream of the means for guiding the molten resin. 7. The injection molding machine of claim 1 , wherein the filter is displaceable and is displaced by the flow of the molten resin. 8. The injection molding machine of claim 7 wherein the injection nozzle has a detachable nozzle tip. 9. The injection molding machine of claim 8 wherein the means for guiding the molten resin and the filter can be withdrawn from the injection nozzle upon detachment of the nozzle tip. 10. The injection molding machine of claim 7 , wherein the filter is displaceable into an injection position in which the stops of the filter and of the means for guiding the molten resin which face the injection opening cooperate with each other such that the side of the cylindrical section within the filter facing the injection opening is closed. 11. The injection molding machine of claim 1 , wherein the injection nozzle has a detachable nozzle tip. 12. The injection molding machine of claim 11 , wherein the means for guiding the molten resin and the filter can be withdrawn from the injection nozzle upon detachment of the nozzle tip. 13. The injection molding machine of claim 12 , wherein the means for guiding the molten resin and the filter are mounted to the nozzle tip. 14. The injection molding machine of claim 2 wherein the means for guiding the molten resin are such configured that at one end thereof at least one passage is provided, such that the melt channel via the at least one passage communicates with the cylindrical section within the filter, either downstream or upstream of the means for guiding the molten resin. 15. The injection molding machine of claim 5 wherein the means for guiding the molten resin are such configured that at one end thereof at least one passage is provided, such that the melt channel via the at least one passage communicates with the cylindrical section within the filter, either downstream or upstream of the means for guiding the molten resin. 16. The injection molding machine of claim 5 wherein the filter is displaceable and is displaced by the flow of the molten resin. 17. The injection molding machine of claim 6 , wherein the filter is displaceable and is displaced by the flow of the molten resin. 18. The injection molding machine of claim 16 wherein the filter is displaceable into an injection position in which the stops of the filter and of the means for guiding the molten resin which face the injection opening cooperate with each other such, that the side of the cylindrical section within the filter facing the injection opening is closed. 19. The injection molding machine of any of claims 1 , 2 to 10 , 11 to 13 , and 9 to 14 , further comprising an extruder barrel having an extruder screw for plasticizing granular plastic material to molten resin delivered towards the injection nozzle of the injection molding machine. 20. The injection molding machine of any of claims 1 , 2 to 10 , 11 to 13 , and 9 to 14 , further comprising a shooting pot assembly receiving molten resin from an extruder barrel and delivering the molten resin towards the injection nozzle of the injection molding machine.