Optical waveguides – With disengagable mechanical connector – Optical fiber/optical fiber cable termination structure
Reexamination Certificate
1999-05-19
2002-04-02
Font, Frank G. (Department: 2877)
Optical waveguides
With disengagable mechanical connector
Optical fiber/optical fiber cable termination structure
C385S058000, C385S063000, C385S069000, C385S086000
Reexamination Certificate
active
06364538
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a reusable fitment attached to an end portion of an optical fiber for connecting the optical fiber to a light source.
2. Description of Related Art
The optical fiber consists of a core made of a translucent material having a high refractive index and a clad made of a material having a refractive index lower than that of the core, and is used in various applications for optical transmission such as optical communication, illumination and the like.
In general, a solid material or liquid material is used as the core for the optical fiber. And also, a core having a large diameter of not less than 3 mm may be used for efficiently transmitting a greater quantity of a light. Furthermore, a bundle of many optical fibers each having a fine diameter of about 1 mm (bundle fiber) is frequently used.
In this case, it is preferable to use a solid core as the core for the optical fiber because of the handling easiness that the optical fiber can be cut into a required length at an installation location in use. Particularly, the use of a single core made of a plastic material is more favorable because it has a flexibility and facilitates the installation work.
In this type of the optical fiber, a light is directly entered from a light source through an end face of the solid core into an inside of the optical fiber and emitted from the other end face of the core after the propagation through the inside of the core. Since it is general to use the core by cutting into the required length, the cut end face of the core usually has microscopic irregularities, so that it tends to decrease an incident efficiency of the light. Even if the cut end face is rendered into a smooth face by polishing, since the polished end face is directly exposed to external environment, it is liable to adhere contaminants existing in the environment such as dusts and the like to the polished end face. When the light from the light source is directly irradiated to the end face of the core at a state of adhering the contaminants thereto, the incident efficiency of the irradiated light lowers and also a part of the light irradiated to the end face of the core is absorbed by the core to convert into heat and hence the end face of the core tends to generate heat.
And also, since a light source apparatus for the optical fiber i is high in the light energy at a light condensed portion to the optical fiber, if the end face of the optical fiber is directly disposed opposite to the light condensed portion, it is naturally rendered into a high temperature by heating, and consequently the core is apt to create thermal expansion, softening or thermal deterioration, and in the worst case, it is fear to bring about a fire by beginning to burn from the end face of the core.
Furthermore,.when the end face of the core is exposed to the external environment, there is a case that water in moisture existing in the external environment adheres to the end face of the core, which results in the occurrence of whitening phenomenon at the end face to bring about the lowering of light transmission efficiency.
For this end, there have been made various studies for solving the above problems, and a solution is disclosed, for example, in JP-A-8-313,739.
As shown in
FIG. 4
, an optical fiber
23
disclosed in the above publication consists of a core
21
and a clad
22
, wherein a translucent window member
25
is fixed to at least an end face
24
of the core
21
at its light entrance side with an adhesive
26
and each end portion of the clad
22
is secured to respective end portion of the core
21
by placing a fitting member
27
on an outer peripheral surface of each end portion of the clad
22
and caulking it.
In such an optical fiber
23
, the end face
24
at the light entrance side is shut off from the external environment through the translucent window member
25
, so that the adhesion of contaminants, water and the like to the end face
24
can be prevented and hence the lowering of the light transmission efficiency and the heat generation at the end face
24
resulted from this adhesion can effectively be controlled.
However, the fitting member
27
is caulked from exterior at the light entrance-side end portion of the optical fiber
23
, so that a spot input by caulking acts on the core
21
through the clad
22
to thereby cause such a deformation that strain is locally caused in the core
21
and hence it tends to lower the light transmission efficiency.
And also, since a caulked portion between the fitting member
27
and the end portion of the optical fiber
23
is located at a side approaching to the light source, it is easily subjected to heat energy from the light source to create a difference in thermal expansion between the fitting member
27
and the optical fiber
23
in the caulked portion, and hence it tends to easily come out the optical fiber
23
from the fitting member
27
at the caulked portion.
Furthermore, when the fitting member
27
is fitted onto the optical fiber
23
, it is required to use a special caulking device, which is not preferable from a viewpoint of the operability. In addition, the fitting member
27
is used at a caulked state to the optical fiber
23
, so that when the fitting member
27
is taken off from the optical fiber
23
and fitted onto another optical fiber, a considerable labor is taken. Moreover, since plastic deformation is caused in the caulked fitting member
27
, the reuse of such a fitting member
27
is not favorable in case that it is necessary to surely connect the fitting member
27
to the optical fiber
23
.
SUMMARY OF THE INVENTION
It is, therefore, an object of the invention to provide a reusable fitment wherein a translucent window member is fixed to an inside of a top of a main body of the fitment to shut off an end face of an optical fiber from external environment to thereby prevent heat generation and an occurrence of whitening phenomenon at the end face, and the connection between the optical fiber and the fitment is carried out by an adequate connecting means hardly producing strain in a core of the optical fiber, and a connecting portion is arranged at a position separated from the end face of the optical fiber being subjected to a high temperature by irradiation of a light, whereby optical transmission loss due to thermal deformation at the connected portion is decreased and the fitment can be attached to or detached from the optical fiber in a short time and the good connected state to the optical fiber can be maintained over a long time.
According to the invention, there is the provision of a reusable fitment comprising a cylindrical main body having an inner diameter substantially equal to an outer diameter of an optical fiber, a translucent window member fixed to an inside of at least a top portion of the main body, and a connector detachably connected to a rear end portion of the main body for fixing and holding the optical fiber.
In case of requiring that an incident light is perfectly reflected at an outer peripheral surface of the translucent window member to more efficiently transmit to the optical fiber, it is favorable to cover the outer peripheral surface of the translucent window member with a coating layer having a refractive index lower than that of the window member.
Furthermore, it is favorable that the translucent window member is fixed to the main body of the fitment by fitting the window member into the top portion of the main body and caulking the main body from an outer surface thereof, or by using an adhesive, or by utilizing both means.
Moreover, it is favorable that the optical fiber is a single-core type optical fiber having a large diameter.
REFERENCES:
patent: 3858577 (1975-01-01), Bass et al.
patent: 4398796 (1983-08-01), Dalgoutte et al.
patent: 4406515 (1983-09-01), Roberts
patent: 5737471 (1998-04-01), Sugiyama et al.
patent: 5892875 (1999-04-01), Ronn
patent: 6067396 (2000-05-01), Heitmann
patent: A-8-313739 (1996-11-01), None
Ishiharada Minoru
Mizukubo Shinichi
Bridgestone Corporation
Font Frank G.
Mooney Michael P.
Sughrue & Mion, PLLC
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