Optical fiber connector and assembly method therefor

The invention claimed is: 1. A method for assembly of an optical fibre connector that includes an internal shell having a front part, a core component contained within the internal shell having a core and a section of optical fibre pre-installed within the core, and a spring located behind the core for exerting a pre-set axial force on the core and pre-compressing the core inside the internal shell, the method comprising: pre-retaining the core component and the spring within said front part by using a temporary retention component on said front part; fusion splicing the section of optical fibre with an incoming optical fibre of an optical cable; assembling a rear part on said front part; and disassembling said temporary retention component from said front part when assembling the rear part to the front part. 2. The method as described in claim 1 , wherein: a weak section is formed on said temporary retention component; and during the process of assembling the rear part on the front part, the rear part interferes with the temporary retention component, causing said weak section to break, and causing said temporary retention component to drop from the front part automatically. 3. The method as described in claim 2 , further comprising: fitting said temporary retention component over a rear end section of said front part, and inserting a front end section of said rear part into the rear end section of said front part. 4. The method as described in claim 3 , wherein a raised section is formed on the internal wall of said temporary retention component, and the method further comprises: after said temporary retention component is assembled on said front part, said raised section pressing down on a rear end of said spring and temporarily retaining said core component and said spring within said front part; and a recessed positioning section formed on the external wall of the front end section of said rear part matches and interferes with said raised section, causing the weak section of said temporary retention component to break ensuring the correct orientation of the rear part when inserted into said front part. 5. The method as described in claim 4 , wherein a catch groove is formed on the raised section of said temporary retention component; and on said rear part there is a raised section formed within the recessed positioning section matching the catch groove, and for guiding insertion of said rear part into said temporary retention component. 6. The method as described in claim 5 , wherein a flexible catch is formed on said temporary retention component, and the method further comprises: using said flexible catch for catching in a recess formed on said front part and for assembling said temporary retention component on said front part. 7. The method as described in claim 6 , wherein on the front end section of said rear part there is a raised section, and the method further comprises: using said raised section for catching in an opening formed on said front part to facilitate assembly of said rear part on said front part. 8. The method as described in claim 7 , further comprising: after said rear part is assembled on said front part, fitting the front end section of said rear part over said spring; and pressing the rear end of said spring onto a stepped obstructing surface formed on the internal wall of said rear part. 9. The method as described in claim 1 , wherein said optical fibre connector further comprises a dust cap, and the method further comprises: fitting said dust cap over the front end section of said core to protect the pre-installed optical fibre within said core. 10. The method as described in claim 9 , further comprising: before said rear part is assembled on said front part, pre-retaining said dust cap, said core component and said spring on said front part by said temporary retention component. 11. The method as described in claim 1 , further comprising: after the core component and spring have been pre-retained within said front part and before said rear part has been assembled on said front part, fusion splicing the incoming optical fibre of said optical cable and said pre-installed optical fibre-together. 12. The method as described in claim 11 , further comprising: prior to assembly of said rear part within said front part, connecting two ends of a protective sleeve with a buffer tubing of said incoming optical fibre and said pre-installed optical fibre, ensuring that the fusion splice between the incoming optical fibre said optical cable and said pre-installed optical fibre is contained within said protective sleeve. 13. The method as described in claim 12 , wherein said optical cable is an optical cable with Kevlar fibre, and the method further comprises: securing said Kevlar fibre of said optical cable on the rear end section of the rear part of said internal shell using heat shrink tubing; heat shrinking the front end of said heat shrink tubing onto the rear end section of said rear part; and heat shrinking the rear end onto the external protective cover of said optical cable. 14. The method as described in claim 12 , wherein said optical cable is an optical cable without Kevlar fibre, and said optical fibre connector further comprises heat shrink tubing for securing said optical cable, and the method further comprises: heat shrinking the front end of said heat shrink tubing onto the rear end section of said rear part; and heat shrinking the rear end onto the external protective cover of said optical cable. 15. The method as described in claim 13 , further comprising: fitting the strain relief boot over said heat shrink tubing and the external protective cover of said optical cable, in addition to installing said internal shell within said external shell. 16. The method as described in claim 13 , wherein there is a threaded connecting section formed on the rear end section of said rear part, and the method further comprises: securing the Kevlar fibre of said optical cable on the rear end section of the rear part of said internal shell by a threaded connection with the threaded sleeve on the rear end section of the rear part; and cutting the front end of one section of the external protective cover of said optical cable into two halves, and pressing in between said threaded sleeve and the rear end section of said rear part. 17. The method as described in claim 16 , wherein there is a conical pressure surface formed on the internal wall of said threaded sleeve, said conical pressure surface facing the edge of the end surface of the rear end section of said rear part, and the method further comprises: pressing the external protective cover of said optical cable between the conical pressure surface of said threaded sleeve and the edge of the end surface of the rear end section of said rear part. 18. The method as described in claim 17 , further comprising: fitting a strain relief boot over said heat shrink tubing and the external protective cover of said optical cable, and installing said internal shell within an external shell.