Nozzle terminal for injectors of plastic material injection moulding apparatus

The invention claimed is: 1. A nozzle terminal for injectors of plastic material injection moulding apparatus, comprising: an inner tubular body or tip defining a flow passage for the injected plastic material, and a ring nut fixed externally and coaxially to the tip, wherein the tip includes: a radially inner element made of a first material and having a proximal end and a distal end, the radially inner element defining a peripheral annular recess formed into an outer surface thereof, the annular recess having proximal and distal ends terminating at a distance from the respective proximal and distal ends of the radially inner element, and a radially outer element made of a second material arranged at contact with said radially inner element, the radially outer element being housed within the peripheral annular recess and being mechanically coupled therewith such that the radially outer element is arranged at an intermediate portion of the radially inner element terminating at a distance from the distal and proximal ends thereof and exposed towards the ring nut, wherein the ring nut is distinct from the tip and the radially outer element of the tip is an element distinct from the radially inner element, and wherein the distal end of said annular recess is formed by a radial annular collar of the radially inner element and the annular recess has, adjacent its proximal end, at least one projecting relief for engagement of a corresponding inner cavity of said radially outer element. 2. The nozzle terminal according to claim 1 , wherein said ring nut fully covers said radially outer element insulating it from the environment. 3. The nozzle terminal according to claim 2 , wherein said distal end of the radially inner element extends up to a corresponding distal end of said ring nut. 4. The nozzle terminal according to claim 1 , said ring nut covers said radially outer element only partly. 5. The nozzle terminal according to claim 1 , wherein said radially inner and radially outer elements are coupled to each other by interference. 6. The nozzle terminal according to claim 1 , wherein said ring nut is coupled to said radially inner element by interference. 7. The nozzle terminal according to claim 1 , wherein said ring nut is coupled to said radially outer element by interference. 8. The nozzle terminal according to claim 1 , wherein said first material has high mechanical resistance, high resistance to abrasion and high resistance to chemical agents. 9. The nozzle terminal according to claim 8 , wherein said first material is selected from among tempered stainless steel, anon-stainless steel and tungsten. 10. The nozzle terminal according claim 1 , said second material is selected from among low or high thermal conductivity materials. 11. The nozzle terminal according to claim 9 , wherein said second material is selected from among titanium, steel, copper, copper and beryllium alloys, copper and nickel alloys, aluminium and graphite. 12. The nozzle terminal according to claim 1 , wherein said ring nut is at least partly coupled with said radially inner element. 13. The nozzle terminal according to claim 1 , wherein said ring nut is at least partly coupled with said radially outer element. 14. The nozzle according to claim 3 , wherein: the proximal end of said radially inner element extends proximally beyond proximal ends of said radially outer element and said ring nut; one side of the radially outer element contacts the radially inner element and an opposite side of the radially outer element contacts an inner surface of the ring nut; and said radially outer element is positioned at the intermediate portion of the radially inner element and at an intermediate portion of said ring nut such that the proximal and distal ends of the radially outer element terminate before respective proximal and distal ends of both the radially inner element and the ring nut. 15. The nozzle according to claim 4 , wherein: the proximal end of said radially inner element extends proximally beyond proximal ends of said radially outer element and said ring nut; one side of the radially outer element contacts the radially inner element and an opposite side of the radially outer element contacts an inner surface of the ring nut; and said radially outer element is positioned at the intermediate portion of the radially inner element and relative to said ring nut such that a proximal end of the radially outer element terminates before a respective proximal ends of both the radially inner element and the ring nut, and the distal end of the radially outer element terminates beyond a distal end of the ring nut and before the distal end of the radially inner element.