Ferrule tubular body and ferrule

Optical waveguides – With disengagable mechanical connector – Optical fiber/optical fiber cable termination structure

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C385S060000, C385S067000, C385S078000

Reexamination Certificate

active

06402392

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a ferrule that is a plug side member included in an optical connector for optical connection, and to a ferrule tubular body that is a member included in the ferrule.
To optically connect the end portions of optical fibers to each other, an optical connector is used, which includes a plug for fixing the end portions of the optical fibers and an adaptor fitted to the plug from respective opposite sides. The aforementioned optical connector is classified into various types such as SC type, MU type and so on, and employs an eccentric adjustment in order to eliminate an insertion loss (a loss of optical signals) in optical connection as much as possible.
The eccentric adjustment method which has been employed conventionally will be described with reference to
FIGS. 6 and 7
. First, as shown in
FIG. 6
, a flanged member
82
, which is formed with key grooves
82
a
at angular intervals of 90 degrees, is securely fixed to the rear end portion of a ferrule tubular body
81
, and an optical fiber F
1
that appears by removing a sheath of one end of an optical cord F by a predetermined length is inserted into and securely fixed to a through-hole
81
a
, so that the optical cord F having a required length is set to be connected to the ferrule
8
.
A measurement device
9
as shown in
FIG. 7
will be described briefly. The measurement device
9
includes a light source section
91
, an adjust plug
93
connected to the light source section
91
through an adjust cord
92
so as to make an optical axis eccentric in a predetermined direction, an adaptor
94
for facing and engaging the adjust plug
93
and the ferrule
8
with each other, and optical power-meter
95
for measuring the luminous energy. On the ferrule side of the adaptor
94
, one key (not-shown) for engagement with the key groove
7
a
is provided in order to indicate the eccentric direction of the adjust plug
93
.
The measuring device
9
thus constructed is set such that the ferrule
8
is engaged with the adaptor
94
with the key groove
82
a
matched with the key as well as the open end portion of the optical cord F is connected to the optical power-meter
95
. Then, the light is turned on, and a value indicated by the optical power-meter
95
is read. Next, the ferrule
8
is removed from the adaptor
94
, rotated by 90 degrees, and again engaged with the adaptor
94
, so that a value indicated by the optical power-meter
95
is read.
Further, this procedure is repeated twice, and a mark is applied to a key groove
82
a
that causes the value of the optical power-meter
95
to be maximum (the luminous energy to be maximum). Thereafter, the assembly is carried out to a housing of a desired external appearance, such as the SC type, MU type or the like, which is provided with a key indicating the eccentric direction, so that the marked key groove
82
a
is aligned with the key.
As explained above, in the conventional art, the eccentric adjustment is performed such that the optical connection is established actually in a state in which the optical cord F having a required length is connected to the ferrule
8
. Through the aforementioned process, plugs which are lower in insertion loss with respect to the adjust plug
93
whose optical axis is eccentric at a predetermined amount are mass-produced. By using these plugs, an optical connection always stabilized in insertion loss can be realized.
The eccentric adjustment in accordance with this system is preferable in view of the fact that an optical connection always stabilized in insertion loss can be realized. However, the adjustment needs the insertion and removal of the ferrule into and out of the adaptor, and thus it has been pointed out that the end face of the ferrule may roughened, which causes a problem in the process.
Further, it is impossible to realize an optical connection in which the insertion loss is further reduced by the adjustment of this system in which, as mentioned above, the luminous energy is measured at intervals of every 90 degrees (four-equi-angular-interval distribution) using the key engagement with respect to the adjust plug whose optical axis is made eccentric at the predetermined amount and the direction (the key groove) at which the insertion loss is the smallest among them is regarded as the eccentric direction.
Accordingly, it is an object of the present invention to provide a ferrule tubular body and a ferrule which is free from the fear that the end face of the ferrule may be roughened, which can eliminate the eccentric adjustment process performed after the optical fiber is fixed, and which can attain an optical connection in which the insertion loss is further reduced.
SUMMARY OF THE INVENTION
A first aspect of the present invention for solving the aforementioned problems is embodied in a ferrule tubular body having a through-hole to which an end portion of an optical fiber is inserted to be held, the ferrule tubular body being characterized by including an indicator section for indicating an eccentric direction of the through-hole with respect to a center of an outer circumference of the body.
A second aspect of the present invention is based on the ferrule tubular body as set forth in the first mode, and is characterized in that the indicator section is a visual indication provided on an outer circumferential surface of the ferrule tubular body.
A third aspect of the present invention is based on the ferrule tubular body as set forth in the first mode, and is characterized in that the ferrule indicator section is a recess provided in an outer circumferential surface of the ferrule tubular body.
A fourth aspect of the present invention is based on the ferrule tubular body as set forth in the second or third mode, and is characterized in that the indicator section is provided on at least one of a leading end portion and a rear end portion of the ferrule tubular body.
A fifth aspect of the present invention is embodied in a ferrule including a ferrule tubular body having a through-hole to which an end portion of an optical fiber is inserted to be held, and a flanged member securely fixed to a rear end portion of the ferrule tubular body, the ferrule being characterized in that an indicator section indicating an eccentric direction of the through-hole with respect to a center of an outer circumference of the ferrule tubular body is provided on at least one of the ferrule tubular body and the flanged member.
A sixth aspect of the present invention is based the ferrule as set forth in the fifth mode, and is characterized in that the indicator section is an indication or a recess provided on a leading end of the ferrule.
A seventh aspect of the present invention is based on the ferrule as set forth in the fifth mode, and is characterized in that the indicator section is a visual indication or a recess provided on the flanged member.
As factors of this eccentricity hindering the optical connection, it can be pointed out the following; e.g. that an optical fiber is not held at the center of a through-hole of a ferrule, a core is not positioned at the center of the optical fiber, a through-hole is not opened at the center of the outer circumference of a ferrule tubular body, and so on. The eccentricities in the held position of optical fiber with respect to the through-hole of the ferrule and the position of the core within the optical fiber are minute and thus can be disregarded in contrast to the eccentricity in the position of the through-hole in the ferrule. Accordingly, since the present invention makes it possible to recognize the eccentric direction of the through-hole, the eccentric adjustment with high precision in comparison with the conventional eccentric adjustment can be realized.
In addition, it is not essential to provide the indicator sections noted above in the eccentric direction of the through-hole with respect to the center of the outer circumference of the ferrule tubular body. That is, it suffices that the eccentric direction of the through-hole can be observ

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Ferrule tubular body and ferrule does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Ferrule tubular body and ferrule, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Ferrule tubular body and ferrule will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-2977927

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.