JP4919818B2 - Optical cable connector - Google Patents

Description

  The present invention relates to an optical cable connector, and more particularly to an optical cable connector suitable for easily connecting an optical drop cable drawn into the building from the outside of the building and an optical drop cable laid in the building in the building. .

  With the spread of the Internet, FTTH (Fiber To The Home) that can transmit a high-speed and large-capacity signal to each home or office using an optical fiber has attracted attention. As a method of laying an optical fiber to a building such as each home or office, a method of laying a multi-core optical cable using an overhead line as in the case of a conventional metal telephone line is the mainstream. The multi-core optical cable is distributed from the overhead line to the building by connecting a one-core or two-core optical drop cable via a drop closure.

  Conventionally, the connection between the optical drop cable from the drop closure and the optical drop cable laid in the building has been performed using a connecting tool installed outside the building (for example, Patent Documents 1 to 3 below). 3).

  In addition, in the following Patent Documents 4 and 5, the present applicant has proposed an optical cable connector that can connect optical drop cables having sufficient tensile strength within a building.

Further, Patent Document 6 below discloses an optical fiber connector that is highly reliable and can be manufactured at low cost. In this optical fiber connector, there are four V-grooves for positioning the glass portion of the optical fiber core wire on the upper surface of the lower housing, and a glass portion pressing portion for pressing the glass portion against the V-groove on the lower surface of the upper housing. is there. The leaf spring presses the lower housing and the upper housing in a state where the V groove and the glass portion pressing portion are overlapped. By inserting the protruding portions of the wedge plate into the four wedge insertion holes of the overlapped portion, the gap between the overlapped portions is opened. When the optical fiber core wire with the glass portion of the terminal exposed is inserted between the left and right end standing portions and the wedge plate is pulled back, the lower housing and the upper housing are overlapped again by the restoring force of the leaf spring, and the optical fiber core wire is overlapped. The glass part and the covering part are gripped and fixed.
JP 2004-29499 A JP 2004-325998 A Japanese Patent Laying-Open No. 2005-070564 Japanese Patent Application No. 2005-263107 Japanese Patent Application No. 2005-263108 JP-A-10-170748

However, in the connection device installed outside the building as disclosed in the above Patent Documents 1 to 3, there is a problem that the connection portion becomes large in order to ensure waterproofness and tensile strength, and an optical drop cable. There is a problem that it takes time to connect each other.
Moreover, the optical cable connector for buildings proposed by the present applicant in the above-mentioned Patent Documents 4 and 5 can improve the workability compared to the connection outside the building, but the light in the outlet or the protector can be improved. In order to connect drop cables, there is a problem that the connection portion is a little large.
Furthermore, the optical fiber core connector disclosed in Patent Document 6 may be effective for connecting optical fiber cores, but is not necessarily effective for connecting optical drop cables. There is.

  The objective of this invention is providing the optical cable connector for buildings which can make a connection location small.

The first optical cable connector of the present invention includes a first optical drop cable (1 ₁ ) drawn into the building from the outside of the building and a second optical drop cable (1 ₂ ) laid in the building. An optical cable connector (10; 90; 110; 210) for fixing in an optically connected state with a connecting sleeve, wherein the first optical fiber core wire exposed from the first optical drop cable ( 3 ₁ ) and the second optical fiber core wire (3 ₂ ) exposed from the second optical drop cable, and the core wire connection sleeve fixing means for fixing the core wire connection sleeve. Box-shaped sleeve fixing portions (11; 21; 31; 41; 51; 91; 111a, 111b; 210), and the first and the first attachments respectively attached to both end faces of the sleeve fixing portion. 2 The first and second cable fixing portion for fixing the optical drop cable respectively (12 _1, 12 _2; 22 _1, 22 _2; 32 _1, 32 _2; 42 _1, 42 _2; 52 _1, 52 _2; 92 ₁ , 92 ₂ ; 112 ₁ , 112 ₂ ; 212 ₁ , 212 ₂ ), and first and second optical drop cables for inserting the first and second optical drop cables respectively into both end faces of the sleeve fixing portion. Second insertion portions (11a ₁ , 11a ₂ ; 21a ₁ , 21a ₂ ; 31a ₁ , 31a ₂ : 41a ₁ , 41a ₂ : 51a ₁ , 51a ₂ ) are formed, respectively. optical drop cables, are respectively fixed by the first and second cable fixing portion after being inserted respectively between the first and second insertion portions into said first and second cable fixing portion, wherein 1st And the second cable fixing portion has two side surfaces and a bottom surface, and both side surfaces of the first and second cable fixing portions are fan-shaped with the both ends of the bottom surfaces of the first and second cable fixing portions as fulcrums, respectively. The first and second optical drop cables are inserted into the first and second cable fixing portions in a state where both side surfaces of the first and second cable fixing portions are open. Thereafter, both side surfaces of the first and second cable fixing portions are closed, and the first and second optical drop cables are fixed by the first and second cable fixing portions .
Here, the side where the first and second cable fixing portions (12 ₁ , 12 ₂ ) face both end surfaces of the sleeve fixing portion (11) on both side surfaces of the first and second cable fixing portions. The end surfaces of the first and second cable fixing portions are separated from the end surfaces of the sleeve fixing portions so as to be integrated with the sleeve fixing portions, and the upper surfaces of the first and second cable fixing portions are the first and second cable fixing portions. In the longitudinal direction of the sleeve fixing portion, both ends of the bottom surface of the portion can be opened as fan portions by opening both side surfaces of the first and second cable fixing portions in a fan shape. along are cut into a triangular wave shape, the first and second cable fixing portion, the cutting portion the first and second envelope (4 ₁ of the in meshing engagement first and second optical drop cable, 4 ₂₎ the same size Cylindrical shape so that an opening is formed may have.
The first and second cable fixing portions (22 ₁ , 22 ₂ ) have a U-shaped cross-sectional shape with both side surfaces of the first and second cable fixing portions closed, Sawtooth-shaped first and second claws (22a ₁₁ , 22a ₁₂ , 22a ₂₁ , 22a ₂₂ ) are formed on the upper ends of both side surfaces of the first and second cable fixing portions of the sleeve fixing portion (21). Each of the first and second cable fixing portions is formed so as to face each other along the longitudinal direction. The lengths of both side surfaces of the first and second cable fixing portions are the first and second optical drop cables. It may be shorter than the vertical length of the jacket.
The first and second cable fixing portions (32 ₁ , 32 ₂ ) have a U-shaped cross-sectional shape in a state in which both side surfaces of the first and second cable fixing portions are closed, Saw-blade-shaped first and second claws (32a ₁₁ , 32a ₁₂ , 32a ₂₁ , 32a ₂₂ ) are fixed to the first and second cable fixings on top of both side surfaces of the first and second cable fixing parts. Are formed so as to face each other from the upper ends of both side surfaces of the portion toward the bottom surfaces of the first and second cable fixing portions, and the lengths of both side surfaces of the first and second cable fixing portions are The vertical lengths of the first and second jackets of the first and second optical drop cables may be the same.
The first and second cable fixing portions (42 ₁ , 42 ₂ ) have a U-shaped cross-sectional shape with both side surfaces of the first and second cable fixing portions closed, Even if a plurality of triangular first and second longitudinal grooves (42a ₁₁ , 42a ₁₂ , 42a ₂₁ , 42a ₂₂ ) are formed inside both side surfaces of the first and second cable fixing portions, respectively. Good.
The second optical cable connector of the present invention includes a first optical drop cable (1 ₁ ) drawn into the building from the outside of the building and a second optical drop cable (1 ₂ ) laid in the building. An optical cable connector (10; 90; 110; 210) for fixing in an optically connected state with a connecting sleeve, wherein the first optical fiber core wire exposed from the first optical drop cable ( 3 ₁ ) and the second optical fiber core wire (3 ₂ ) exposed from the second optical drop cable, and the core wire connection sleeve fixing means for fixing the core wire connection sleeve. Box-shaped sleeve fixing portions (11; 21; 31; 41; 51; 91; 111a, 111b; 210), and the first and the first attachments respectively attached to both end faces of the sleeve fixing portion. 2 The first and second cable fixing portion for fixing the optical drop cable respectively (12 _1, 12 _2; 22 _1, 22 _2; 32 _1, 32 _2; 42 _1, 42 _2; 52 _1, 52 _2; 92 ₁ , 92 ₂ ; 112 ₁ , 112 ₂ ; 212 ₁ , 212 ₂ ), and first and second optical drop cables for inserting the first and second optical drop cables respectively into both end faces of the sleeve fixing portion. Second insertion portions (11a ₁ , 11a ₂ ; 21a ₁ , 21a ₂ ; 31a ₁ , 31a ₂ : 41a ₁ , 41a ₂ : 51a ₁ , 51a ₂ ) are formed, respectively. The optical drop cables are respectively inserted into the first and second insertion portions and the first and second cable fixing portions and then fixed by the first and second cable fixing portions, respectively . 1 Beauty second cable fixing portion (52 _1, 52 _2), and a other side surfaces having sides and shaped cross-sectional shape of Gyakuku with dogleg-shaped cross-sectional shape, the first and The second optical drop cable is inserted into the first and second cable fixing portions by being pushed from above between the side surface and the other side surface of the first and second cable fixing portions, respectively. fixed Te characterized Rukoto.
In the first and second optical cable connectors of the present invention, the core wire connecting sleeve fixing means includes tip ends of the first and second optical drop cables and the first and second optical fiber core wires. cuts for fixing push the said core wire connection sleeve (13a; 53a; 83a; 93a ; 113a 1, 113a 2; 213a 1 ~213a 3) sponge member (13 is formed; 53; 83; 93 113 ₁ ;; 113 ₂ ; 213 _{1 to} 213 ₃ );
The cuts (13a; 53a; 83a; 113a ₁ , 113a ₂ ; 213a _{1 to} 213a ₃ ) may be formed linearly.
The incision (93a) includes a straight line portion (93a ₀ ) for fixing the core wire connecting sleeve formed obliquely in a straight line at the center of the sponge member (93), and the first and second The first and second curved portions (93a ₁ , 93a ₂ ) for respectively fixing the optical fiber core wires of the optical fiber core wire, and the straight portion and the first curved portion are the second cable. It is connected on the fixing part (92 ₂ ) side, and the straight line part and the second curved part may be connected on the _first cable fixing part (92 ₁ ) side.
A triangular groove (83b) may be formed on the cut (83a).
A mark (61 ₁ , 61 ₂ , 61 ₃ ; 62) for fixing the core wire connecting sleeve to the center of the optical cable connector may be attached to the upper surface of the sponge member.
Instead of the mark, the first and second sponge members (73 ₁ , 73 ₂ ) are attached to the sleeve fixing portion with a gap of a predetermined length at the longitudinal center of the sleeve fixing portion (11). The both ends of the core wire connecting sleeve are pushed into first and second cuts (73a ₁ , 73a ₂ ) formed in the first and second sponge members, respectively. A sleeve may be fixed to the center of the optical cable connector.
Inner sleeve fixing for accommodating the _first sponge member (113 ₁ ) for fixing the core wire connecting sleeve in a state where the sleeve fixing portion connects the first and second optical fiber core wires. Part (111a) and an outer sleeve fixing part (111b) for accommodating a _second sponge member (113 ₂ ) for fixing the _second optical fiber core wire 32, the inner sleeve fixing part May be slidable with respect to the outer sleeve fixing portion.
The sponge member includes a first sponge member (213 ₁ ) accommodated on the _first cable fixing portion (212 ₁ ) side of the sleeve fixing portion (211), and the second cable of the sleeve fixing portion. The second sponge member (213 ₂ ) accommodated on the fixing portion (212 ₂ ) side and the third sponge member (213 ₃ ) accommodated in the central portion of the sleeve fixing portion are divided, and Linear first and second cuts (213a ₁ , 213a ₂ ) for fixing the tip portions of the first and second optical drop cables are formed at the centers of the first and second sponge members, respectively. In addition, a third cut (213a ₃ ) for fixing the core wire connecting sleeve may be formed in the center of the third sponge member.
A turntable may be provided at the center of the bottom surface of the sleeve fixing portion, and the third sponge member may be fixed on the turntable.
The third optical cable connector according to the present invention includes a first optical drop cable (1 ₁ ) drawn into the building from the outside of the building and a second optical drop cable (1 ₂ ) laid in the building. An optical cable connector (10; 90; 110; 210) for fixing in an optically connected state with a connecting sleeve, wherein the first optical fiber core wire exposed from the first optical drop cable ( 3 ₁ ) and the second optical fiber core wire (3 ₂ ) exposed from the second optical drop cable, and the core wire connection sleeve fixing means for fixing the core wire connection sleeve. Box-shaped sleeve fixing portions (11; 21; 31; 41; 51; 91; 111a, 111b; 210), and the first and the first attachments respectively attached to both end faces of the sleeve fixing portion. 2 The first and second cable fixing portion for fixing the optical drop cable respectively (12 _1, 12 _2; 22 _1, 22 _2; 32 _1, 32 _2; 42 _1, 42 _2; 52 _1, 52 _2; 92 ₁ , 92 ₂ ; 112 ₁ , 112 ₂ ; 212 ₁ , 212 ₂ ), and first and second optical drop cables for inserting the first and second optical drop cables respectively into both end faces of the sleeve fixing portion. Second insertion portions (11a ₁ , 11a ₂ ; 21a ₁ , 21a ₂ ; 31a ₁ , 31a ₂ : 41a ₁ , 41a ₂ : 51a ₁ , 51a ₂ ) are formed, respectively. The optical drop cables are respectively inserted into the first and second insertion portions and the first and second cable fixing portions and then fixed by the first and second cable fixing portions, respectively. Fixing portion, the first sponge member (113 ₁₎ inner sleeve securing portion for accommodating for securing the core wire connection sleeve in a state where the first and second optical fibers are connected ( 111a) and an outer sleeve fixing part (111b) for accommodating a _second sponge member (113 ₂ ) for fixing the _second optical fiber core wire 32, the inner sleeve fixing part being The outer sleeve fixing part is slidable.

The optical cable connector of the present invention has the following effects.
(1) The core wire connecting sleeve is fixed in a state where the first optical fiber core wire and the second optical fiber core wire are connected by the core wire connecting sleeve fixing means accommodated in the box-shaped sleeve fixing portion. In addition, the size of the optical cable connector can be reduced by fixing the first and second optical drop cables by the first and second cable fixing portions respectively attached to both end faces of the sleeve fixing portion. Therefore, a connection location can be made small.
(2) Since the connection location can be reduced, the optical drop cables can be connected to each other in the outlet or the protector.

  In the state where the first optical fiber core wire and the second optical fiber core wire are connected to the core wire connecting sleeve by the core wire connecting sleeve fixing means accommodated in the box-shaped sleeve fixing portion. In addition to fixing, the first and second optical drop cables are fixed by first and second cable fixing portions respectively attached to both end faces of the sleeve fixing portion.

Next, an embodiment of the optical cable connector of the present invention will be described with reference to the drawings.
The first optical cable connector 10 according to an embodiment of the present invention, the first second mechanical splice and optical drop cable 1 ₂ that is laid in the optical drop cable 1 ₁ and a building that is drawn from outside the building in the building 7 (core wire connecting sleeve) for fixing in an optically connected state, as shown in FIG. 1, the mechanical sp fixing portion 11 (sleeve fixing portion) and the first and second cable fixings It has parts 12 ₁ , 12 ₂ and a sponge member 13 (core wire connecting sleeve fixing means).

Here, the first optical drop cable 1 _1, as shown in FIG. 3, a first fiber 3 _1, the first optical fiber 3 ₁ first between the optical fiber 3 ₁ and two first tension members 2 ₁₁ and 2 ₁₂ that are arranged in parallel and spaced apart from each other, and a first optical fiber core wire 3 ₁ and two first tension members 2 ₁₁ and 2 ₁₂ comprising a first and a jacket 4 ₁ to protect and. The first envelope 4 _1, the saw against the substantially rectangular cross-sectional shape (the first optical drop cable 1 ₁ in the longitudinal direction of the longitudinal 4mm and transverse 2mm along the longitudinal direction when cut perpendicularly having one of the optical drop cable 1 ₁ cross-sectional shape).
Second optical drop cable 1 ₂ has the same configuration as the first optical drop cable 1 ₁ described above.
In the present specification, the direction along the long side of the cross-sectional shape of the first and second jackets 4 ₁ and 4 ₂ is the longitudinal direction of the first and second optical drop cables 1 ₁ and 1 _2. , the first and second envelope 4 _1, 4 1 a direction along the short side of the _second cross-sectional shape first and second optical drop cables _1, 1 ₂ in the lateral direction.

  The mechanical splice 7 is generally used for single-core and multi-core, and has dimensions of 4 cm in length, 4 mm in width, and 4 mm in height.

As shown in a side view in FIG. 4, the optical cable connector 10 is in a state where the first and second optical fiber cores 3 ₁ and 3 ₂ are upright (that is, the first and second optical drop cables 1 _1. , 1 as _second longitudinally direction is vertical), and, in a state where the first and second optical fiber 3 _1, 3 ₂ were exposed as 4 cm, the first and using the mechanical splice 7 After connecting the second optical drop cables 1 ₁ and 1 ₂ , the mechanical splice 7 and the first and second optical fiber cores 3 ₁ and 3 ₂ are fixed in this state.

The mechanical sp fixing portion 11 of the optical cable connector 10 has a square box shape, and includes a sponge member 13 for fixing the mechanical splice 7 in a state where the first and second optical fiber cores 3 ₁ and 3 ₂ are connected. It is for housing. 2A and 2B, the end surfaces on the first optical drop cable ₁₁ side are shown at the center of both end surfaces of the mechanical sp fixing portion 11 (surfaces on both sides in the longitudinal direction of the optical cable connector 10). As shown, first and second insertion portions 11a ₁ and 11a ₂ for inserting the first and second optical drop cables 1 ₁ and 1 _{2 so} that their longitudinal directions are vertical are formed. ing.
In order to securely fix the first and second optical drop cables 1 ₁ , 1 ₂ after insertion with the first and second cable fixing portions 12 ₁ , 12 ₂ , the first and second insertion portions. The depth of 11a ₁ and 11a ₂ is the thickness of the upper surface of the first and second cable fixing portions 12 ₁ and 12 ₂ rather than the vertical length (4 mm) of the first and second jackets 4 ₁ and 4 _2. The width of the first and _second insertion portions 11a ₁ and 11a ₂ is made substantially the same as the lateral length (2 mm) of the first and second outer covers 4 ₁ and 4 _2. Yes.

The first cable fixing part 12 ₁ moves the first optical drop cable 1 ₁ inserted into the first insertion part 11a ₁ of the mechanical sp fixing part 11 from the left and right (lateral direction of the _first optical drop cable 11). It is for fixing by pinching.
Therefore, the first cable fixing portion 12 _1, the opening of the right-angled form of the cutting portion meshed state below the first optical drop cable 1 ₁ of the first envelope 4 ₁ and the same vertical 4mm and transverse 2mm is formed The first cable is fixed so that it can be in the open state of the cut part described later by opening both sides in a fan shape with both ends of the bottom as fulcrums, respectively. top parts 12 ₁ is cut into triangular wave shape along the longitudinal direction (end face perpendicular to the direction of Mekasupu fixed portion 11) of the Mekasupu fixing portion 11 (see top view of Figure 1 (b)). The first cable fixing portion 12 ₁ is constructed integrally with the Mekasupu fixing portion 11, the end surface and the end surface of the opposite side of the first cable fixing portion 12 ₁ of the both side surfaces Mekasupu fixed portion 11 Is separated from the end face of the mechanical sp fixing portion 11 (see the front view of FIG. 1A and the bottom view of FIG. 1C).
Thus, the first optical drop cable 1 ₁ Mekasupu fixing portion 11 in the first cutting portion open the cut portion of the upper surface of the cable fixing portion 12 ₁ is separated as shown in FIG. 2 (a) After insertion into the first insertion portion 11a ₁ and the first cable fixing portion 12 ₁ , the first cable until the cut portion on the upper surface of the _first cable fixing portion 12 ₁ is engaged as shown in FIG. The first light drop cable ₁₁ is sandwiched from the left and right by clamping the first cable fixing portion 12 ₁ with the cutting portion meshing state by clamping the upper surface portion of the fixing portion 12 ₁ from the left and right with a tool or the like. it is possible to secure the drop cable 1 _1.
The second cable fixing portion 12 ₂ is used to fix across the second optical drop cable 1 ₂ from the left and right (second optical drop cable 1 ₂ lateral), the first cable described above It has the same configuration as the fixing portion 12 _1.

The sponge member 13 includes the first and second optical fiber cores 3 ₁ and 3 ₂ and the first and second light beams exposed from the mechanical splice 7 and the first and second optical drop cables 1 ₁ and 1 _2. This is for fixing the tip ends of the drop cables 1 ₁ and 1 ₂ .
A straight cut 13a is formed along the longitudinal direction of the sponge member 13 at the center in the width direction of the sponge member 13 (direction perpendicular to the longitudinal direction of the sponge member 13) (see FIG. 1B). . Further, the notch 13a is formed so as to reach the bottom surface from the upper surface of the sponge member 13.
The depth of the sponge member 13 is preferably not less than the height (4 mm) of the mechanical splice 7 so that the entire mechanical splice 7 is buried in the sponge member 13. Further, the depth of the eye mechanical sp fixing part 11 is preferably set to be equal to or greater than the depth of the sponge member 13 so that the sponge member 13 can be accommodated.

Next, using the optical cable connector 10 according to the present embodiment, the mechanical splice 7 and the first and second optical fiber cores 3 ₁ and 3 ₂ and the tips of the first and second optical drop cables 1 ₁ and 1 ₂ are used. A method of fixing the parts will be described with reference to FIG.
First, the worker prepares the optical cable connector 10 in which the first and second cable fixing portions 12 ₁ and 12 ₂ are opened in the cut portion.

Then, expose the first first first is stripped jacket 4 ₁ optical fiber 3 ₁ and the first tension member 2 ₁₁ of the leading end portion of the optical drop cable 1 _1, 2 ₁₂ as 6~7cm And the exposed first tension members 2 ₁₁ and 2 ₁₂ are cut. Subsequently, workers, the second optical drop cable 1 ₂ of the second is stripped second envelope 4 ₂ of the tip portion of the optical fiber 3 ₂ and the second tension members 2 _21, 2 ₂₂ The exposed second tension members 2 ₂₁ and 2 ₂₂ are cut while being exposed by about 6 to 7 cm. Subsequently, the worker uses the mechanical splice 7 to connect the first and second optical fiber cores 3 ₁ and 3 _{2 so} that the exposed portion is 4 cm (see FIG. 4).

Thereafter, the worker, grabbed the second optical drop cable 1 ₂ of the tip portion and the mechanical splice 7 with the right hand with gripping a first optical drop cable 1 ₁ of the tip portion and the mechanical splice 7 with the left hand, the optical cable connector Bring it up 10 Subsequently, the worker inserts the mechanical splice 7, the first and second optical fiber cores 3 ₁ , 3 _2, and the distal ends of the first and second optical drop cables 1 ₁ , 1 ₂ above the cut 13 a. After being placed on the upper surface of the sponge member 13 so as to come to, it is pushed into the cut 13a. At the same time, the operator, with inserting the first tip portion of the optical drop cable 1 ₁ to the first insertion portion 11a ₁ and the first cable fixing portion 12 ₁ of the Mekasupu fixing portion 11, a second light inserting the distal end portion of the drop cable 1 ₂ to the second insertion portion 11a ₂ and the second cable fixing portion 12 ₂ of the Mekasupu fixing portion 11.

Thereafter, as shown in FIG. 5 (a), the worker holds the first and second cable fixing portions 12 ₁ , 12 1 until the cut portions on the upper surfaces of the first and second cable fixing portions 12 ₁ , 12 ₂ mesh with _{each other} . the first and second cable fixing portion 12 a 12 ₂ of the upper surface portion is tightened across the left and right like a tool _1, 12 _{by 2} to cut portions engaged state, first and second cable fixing portion 12 ₁ , 12 ₂ to fix the first and second optical drop cables 1 ₁ , 1 ₂ sandwiched from the left and right.

As a result, as shown in FIG. 5B, the mechanical splice 7, the first and second optical fiber cores 3 ₁ and 3 _2, and the tip ends of the first and second optical drop cables 1 ₁ and 1 ₂ Are firmly fixed by the sponge member 13, and the first and second optical drop cables 1 ₁ and 1 ₂ are firmly fixed by the first and second cable fixing portions 12 ₁ and 12 ₂ . As a result, by using the optical cable connector 10 can be reliably connected to the first and second optical drop cable 1 _1, 1 ₂ by a simple operation.

In place of the first and second cable fixing portions 12 ₁ and 12 ₂ , the following first and second cable fixing portions 22 ₁ and 22 ₂ ; 32 ₁ and 32 ₂ ; 42 ₁ and 42 ₂ ; Even if 52 ₁ and 52 ₂ are used, the same effect can be obtained.

(1) First and second cable fixing portions 22 ₁ , 22 ₂
As shown on the right side of FIG. 6B, the first cable fixing portion 22 ₁ has a U-shaped cross-sectional shape with both side surfaces closed. Further, the upper end portion of the first side surfaces of the cable fixing portion 22 _1, as shown in FIG. 6 (a), the longitudinal direction of the first pawl 22a _11, 22a ₁₂ is Mekasupu fixing portion 21 of the saw blade shape Are formed so as to face each other. Further, the length of the first sides of the cable fixing portion 22 _1, and FIG. 6 (b) as shown in, the first optical drop cable 1 ₁ first envelope 4 ₁ vertical length of ( 4 mm).
As shown on the left side of FIG. 6 (b), the first tip portion of the optical drop cable 1 ₁ opened in a fan shape of the first sides of the cable fixing portion 22 ₁ as a fulcrum end portions of the bottom surface, respectively After insertion into the first insertion portion 21a ₁ and the first cable fixing portion 22 ₁ of the mechanical sp fixing portion 21, the tips of the first claws 22a ₁₁ and 22a ₁₂ are respectively located on both side surfaces of the _first outer cover 41. The first optical drop cable ₁₁ is sandwiched and fixed from the left and right by the first cable fixing portion 22 ₁ by clamping the upper surface portion of the first cable fixing portion 22 ₁ from the left and right with a tool or the like until it bites.
Although not shown, the second cable fixing portion 22 ₂ is also configured in the same manner as the first cable fixing portion 22 ₁ described above, and both side surfaces of the second cable fixing portion 22 ₂ are connected to both end portions of the bottom surface. After inserting the second tip portion of the optical drop cable 1 ₂ opened in a fan shape to the second insertion portion 21a ₂ and the second cable fixing portion 22 ₂ of the Mekasupu fixing portion 22 as the fulcrum respectively, second By tightening the upper surface of the second cable fixing portion 22 ₂ from the left and right with a tool or the like until the tips of the claws 22a ₂₁ and 22a ₂₂ bite into the both side surfaces of the _second jacket 4 ₂ respectively, a second optical drop cable 1 ₂ fixed across from the right and left by the cable fixing portion 22 _2.

(2) First and second cable fixing portions 32 ₁ and 32 ₂
As shown on the right side of FIG. 7B, the first cable fixing portion 32 ₁ has a U-shaped cross-sectional shape with both side surfaces closed. Further, as shown in FIGS. 7A and 7B, saw blade-shaped first claws 32a ₁₁ and 32a ₁₂ are provided on the upper portions of both side surfaces of the first cable fixing portion 32 ₁ . The fixing portions 32 ₁ are formed so as to face each other from the upper ends of both side surfaces of the fixing portion 32 ₁ toward the bottom surface of the first cable fixing portion 32 ₁ . Further, the length of the first sides of the cable fixing portion 32 _1, Fig 7 (b), the first optical drop cable 1 ₁ first envelope 4 ₁ vertical length of ( 4 mm).
As shown on the left side of FIG. 7 (b), the first tip portion of the optical drop cable 1 ₁ opened in a fan shape of the first sides of the cable fixing portion 32 ₁ as a fulcrum end portions of the bottom surface, respectively After insertion into the first insertion portion 31a ₁ and the first cable fixing portion 32 ₁ of the mechanical sp fixing portion 31, the tips of the first claws 32a ₁₁ and 32a ₁₂ are respectively located on both side surfaces of the _first outer cover 41. The upper part of the first cable fixing part 32 ₁ is sandwiched and tightened from the left and right with a tool or the like until it bites in, and the first optical drop cable ₁₁ is sandwiched and fixed by the first cable fixing part 32 ₁ from the left and right.
Although not shown, the second cable fixing portion 32 ₂ is also configured in the same manner as the first cable fixing portion 32 ₁ described above, and both side surfaces of the second cable fixing portion 32 ₂ are connected to both end portions of the bottom surface. After inserting the second tip portion of the optical drop cable 1 ₂ opened in a fan shape to the second insertion portion 31a ₂ and the second cable fixing portion 32 ₂ of the Mekasupu fixing portion 32 as the fulcrum respectively, second By tightening the upper part of the second cable fixing part 32 ₂ with a tool or the like from the left and right until the tips of the claws 22a ₂₁ and 22a ₂₂ bite into both side surfaces of the _second jacket 4 ₂ , the second cable a second optical drop cable 1 ₂ fixed across from right and left by the fixing portion 32 _2.

(3) First and second cable fixing portions 42 ₁ , 42 ₂
As shown in FIG. 8A, the first cable fixing portion 42 ₁ has a U-shaped cross-sectional shape with both side surfaces closed. Also, a plurality of triangular first longitudinal grooves 42a ₁₁ and 42a ₁₂ are formed inside the both side surfaces of the first cable fixing portion 42 ₁ , respectively.
First insertion portion 41a of the first cable fixing portion 42 ₁ of the first optical drop cable 1 ₁ Mekasupu fixing portion 41 a tip portion sides of both end portions of the bottom surface in an open state in a fan shape as a fulcrum respectively ₁ And after the insertion into the _first cable fixing portion 42 ₁ , until the tips of the first longitudinal grooves 42a ₁₁ and 42a ₁₂ bite into the both side surfaces of the _first outer cover 41 as shown in FIG. The upper part of the first cable fixing part 42 ₁ is clamped by being clamped from the left and right with a tool or the like, whereby the first optical drop cable ₁₁ is sandwiched and fixed from the left and right by the first cable fixing part 42 ₁ .
Although not shown, the second cable fixing portion 42 ₂ is also configured in the same manner as the first cable fixing portion 42 ₁ described above, and both side surfaces of the second cable fixing portion 42 ₂ are connected to both end portions of the bottom surface. After inserting the second tip portion of the optical drop cable 1 ₂ opened in a fan shape to the second insertion portion 41a ₂ and the second cable fixing portion 42 ₂ of the Mekasupu fixing portion 41 as the fulcrum respectively, second By tightening the upper portion of the second cable fixing portion 42 ₂ with a tool or the like from the left and right until the tips of the vertical grooves 42a ₂₁ and 42a ₂₂ bite into the both side surfaces of the _second jacket 4 ₂ , respectively, a second optical drop cable 1 ₂ fixed across from the right and left by the cable fixing portion 42 _2.

(4) First and second cable fixing portions 52 ₁ , 52 ₂
The first cable fixing portion 52 _1, as shown in FIG. 9, the other side and having a shaped cross-sectional shape of the first one side calyx of the cable fixing portion 52 ₁ is shaped character of Gyakuku It has a cross-sectional shape.
First the first insertion portion 51a ₁ and the first cable fixing portion 52 in a state where the upper part of both sides are closed the cable fixing portion 52 ₁ a first optical drop cable 1 ₁ of the distal end portion of Mekasupu fixing portion 51 _{The first} optical drop cable ₁₁ is sandwiched and fixed from the left and right by the first cable fixing part 52 ₁ by being pushed into the ₁ from above and inserted.
Although not shown in the drawing, the second cable fixing portion 52 ₂ is also configured in the same manner as the first cable fixing portion 52 ₁ described above, and upper portions on both side surfaces of the _second cable fixing portion 522 are formed. by inserting push from above the second tip portion of the optical drop cable 1 ₂ to the second insertion portion 51a ₂ and the second cable fixing portion 52 ₂ of the Mekasupu fixing portion 51 in the closed state, the second a second optical drop cable 1 ₂ fixed across from the right and left by the cable fixing portion 52 _2.

Further, in order to fix the mechanical splice 7 to the center of the optical cable connector 10, the following mark may be attached to the upper surface of the sponge member 11 shown in FIG.
(1) First to third black circles 61 _{1 to} 61 ₃
As shown in FIG. 10 (a), applying a first black circles 61 ₁ indicating the center of the sponge member 11 on the notches 13a in the center of the sponge member 11. Further, second and third black circle marks 61 ₂ and 61 ₃ respectively indicating the positions of both ends of the mechanical splice 7 are attached on the cut 13a by about 2 cm from the first black circle mark 61 ₁ .
(2) Black mark 62
As shown in FIG. 10 (b), a black mark 62 consisting of a rectangle of 4 mm in length and 4 cm in width and two black triangles projecting from the center of the two long sides of the rectangle has two black triangles at the apexes. It attaches on the notch 13a so that the center of the member 11 may be shown.

Instead of such a mark, as shown in FIG. 10C, the first and second sponge members 73 ₁ and 73 ₂ are provided with a 3 cm gap at the center in the longitudinal direction of the mechanical sp fixed portion 11. Are accommodated in the mechanical sp fixed portion 11, and both end portions of the mechanical splice 7 are pushed into first and second cuts 73a ₁ and 73a ₂ formed in the first and second sponge members 73 ₁ and 73 ₂ , respectively. Thus, the mechanical splice 7 may be fixed to the center of the optical cable connector 10.

  Instead of the sponge member 13 having the linear cut 13a shown in FIG. 1, a sponge member 83 having a triangular groove 83b formed on the cut 83a as shown in FIGS. 11 (a) and 11 (b) is used. Thus, the mechanical splice 7 may be easily pushed into the notch 83a.

Next, an optical cable connector 90 according to a second embodiment of the present invention will be described with reference to FIG.
The optical cable connector 90 according to this embodiment is configured to accommodate the mechanical splice 7 obliquely as shown in FIG. 12B in order to reduce the longitudinal dimension of the optical cable connector 10.

Therefore, in the optical cable connector 90, the notch 93a formed in the sponge member 93 fixes the mechanical splice 7 formed in a slanting straight line at the center of the sponge member 93 as shown in FIG. Straight line portion 93a ₀ (shown by a broken line in FIG. 12A), and first and second curved portions for fixing first and second optical fiber cores 3 ₁ and 3 ₂ , respectively. 93a ₁ and 93a ₂ . Here, the straight portions 93a ₀ and the first curved portion 93a ₁ as well as connected by a second cable fixing portion 92 ₂ side, and a straight portion 93a ₀ and the second curved portion 93a ₂ first cable fixing By connecting on the portion 92 ₁ side, the first and second fiber cores 3 ₁ and 3 ₂ can be fixed by the sponge member 93 while maintaining a certain curvature, as shown in FIG. 12B. .

Next, an optical cable connector 110 according to a third embodiment of the present invention will be described with reference to FIG.
The optical cable connector 110 according to this embodiment can change the length of the optical cable connector 110.

For this purpose, as shown in FIGS. 13A and 13B, the mechanical sp fixed portion is divided into an inner mechanical sp fixed portion 111a and an outer mechanical sp fixed portion 111b, and the inner mechanical sp fixed portion 111a is arranged inside the outer mechanical sp fixed portion 111b. It can be inserted from the end face on the mechanical sp fixing part 111a side and slid along the longitudinal direction of the optical cable connector 110.
Here, the inner mechanical sp fixed part 111a has a rectangular box shape with the end face on the outer mechanical sp fixed part 111b side opened, and the mechanical parts are connected with the first and second optical fiber cores 3 ₁ and 3 ₂ being connected. A first sponge member 113 ₁ for fixing the splice 7 is accommodated.
Outer Mekasupu fixing part 111b has a square box shape in which the end face of the inner Mekasupu fixing portion 111a side is opened, the outer Mekasupu fixed portion second inserted within 111b optical fiber 3 ₂ for fixing The second sponge member 113 ₂ is accommodated.
The first and second sponge members 113 ₁ and 113 ₂ are formed with linear first and second cuts 113a ₁ and 113a ₂ , respectively, but the second cut 113a ₂ is the first cut 113a. ₁ is formed on the extension line.

  Further, as shown in FIG. 13A, a sliding window 115 is formed on the front side surface of the outer mechanical sp fixing portion 111b, and the inner mechanical sp fixing portion 111a slides with respect to the outer mechanical sp fixing portion 111b. Then, after adjusting the length of the optical cable connector 110, the inner mechanical sp fixing portion 111a is penetrated by passing the sliding window 115 and screwing the side surface of the inner mechanical sp fixing portion 111a on the front side of the paper with the fixing screw 114. Can be fixed to the outer mechanical sp fixing portion 111b.

  Although the sliding window 115 is formed on the side surface of the outer mechanical sp fixing portion 111b on the front side of the paper surface, it may be formed on the side surface or the bottom surface of the outer mechanical sp fixing portion 111b on the back side of the paper surface.

Next, an optical cable connector 210 according to a fourth embodiment of the present invention will be described with reference to FIG.
The optical cable connector 210 according to the present embodiment is capable of processing the extra lengths of the first and second optical fiber cores 3 ₁ and 3 _{2 in} the optical cable connector 210 as shown in FIG. It is.

Therefore, in the optical cable connector 210, as shown in FIG. 14A, the sponge member includes a first sponge member 213 ₁ accommodated on the _first cable fixing portion 212 ₁ side of the mechanical sp fixing portion 211, and A second sponge member 213 ₂ accommodated on the _second cable fixing portion 212 ₂ side of the mechanical sp fixing portion 211, and an elliptical third sponge member 213 ₃ accommodated in the center portion of the mechanical sp fixing portion 211; It is divided into

In the center of the first and second sponge members 213 ₁ , 213 ₂ , linear first and second cuts for fixing the distal ends of the first and second optical drop cables 1 ₁ , 1 ₂ 213a ₁ and 213a ₂ are respectively formed. Further, in the center of the third sponge member 213 ₃ , a linear third cut 213 a ₃ for fixing the mechanical splice 7 is formed.

In order to accommodate the excess length portions of the first and second optical fiber cores 3 ₁ and 3 _{2 in} the optical cable connector 210 without slack, a rotating base is provided at the center of the bottom surface of the mechanical sp fixing portion 211. the third sponge member 213 ₃ on the turntable may be fixed. As a result, the third sponge member 213 ₃ is rotated to wind the extra length portions of the first and second optical fiber cores 3 ₁ and 3 ₂ around the peripheral surface of the _third sponge member 213 ₃ . It is possible to eliminate the slack in the extra length portions of the first and second optical fiber cores 3 ₁ and 3 ₂ .

In the above description, the first and second optical fiber cores 3 ₁ , exposed from the mechanical splice 7 and the first and second optical drop cables 1 ₁ , 1 ₂ by using a sponge member with a cut are formed. 3 ₂ and the first and second optical drop cables 1 ₁ and 1 ₂ are fixed. For example, the above-described first cable fixing portions 12 ₁ , 22 ₁ , 32 ₁ , 42 ₁ , 52 ₁ and A fixing member for fixing the mechanical splice 7 having the same configuration may be attached to the central portion of the mechanical sp fixing portion 11 shown in FIG. 1, and only the mechanical splice 7 may be fixed by this fixing member.

Further, after the first and second optical drop cables 1 ₁ and 1 ₂ are optically connected by the mechanical splice 7 and fixed by the optical cable connector 10, the entire optical cable connector 10 may be covered with a protective cover. Good.

  Furthermore, the optical cable connector of the present invention can be used not only for connection of single-core optical fibers but also for connection of multi-core optical fibers.

Furthermore, although the mechanical splice 7 is used as the core wire connecting sleeve, a heat shrink sleeve or the like may be used.
Furthermore, although the sponge members 13, 53, 83, 93, 113 ₁ , 113 ₂ , and 213 _{1 to} 213 ₃ are used as the core wire connecting sleeve fixing means, a member made of a cushioning material other than the sponge is used. May be.

It is a figure which shows the structure of the optical cable connector 10 by the 1st Example of this invention, (a) is a front view, (b) is a top view, (c) is a bottom view. It is a side view of a first cable fixing portion 12 ₁ side of the optical cable connector 10 shown in FIG. 1, (a) is a diagram showing a first cutting portion open state of the cable fixing portion 12 _1, (b ) Is a diagram showing a state where the _first cable fixing portion 121 is engaged with the cut portion. It is a cross-sectional view showing a first optical drop cable 1 ₁ configuration. It is a diagram for explaining the first and second connection state of the optical drop cable 1 _1, 1 ₂ at the time of fixing by optical cable connector 10. Using the optical cable connector 10 shown in FIG. 1, the mechanical splice 7, the first and second optical fiber cores 3 ₁ , 3 _2, and the distal ends of the first and second optical drop cables 1 ₁ , 1 ₂ a diagram for explaining a method of fixing the, (a) is a view for explaining a procedure for fixing the first optical drop cable 1 ₁ by a first cable fixing portion 12 _1, (b) FIG. 4 is a diagram showing a final fixed state. FIG. ₂ is a diagram showing a configuration of first and second cable fixing portions 22 ₁ and 22 ₂ that can be used instead of the first and second cable fixing portions 12 ₁ and 12 ₂ shown in FIG. (a) is a top view of the first cable fixing part 22 ₁ , and (b) is a view for explaining a procedure for fixing the _first optical drop cable 11 by the first cable fixing part 22 ₁ . . FIG. 3 is a diagram showing a configuration of first and second cable fixing portions 32 ₁ and 32 ₂ that can be used instead of the first and second cable fixing portions 12 ₁ and 12 ₂ shown in FIG. (a) is a top view of the first cable fixing part 32 ₁ , and (b) is a view for explaining a procedure for fixing the _first optical drop cable 11 by the first cable fixing part 32 ₁ . . FIG. ₂ is a diagram showing a configuration of first and second cable fixing portions 42 ₁ and 42 ₂ that can be used instead of the first and second cable fixing portions 12 ₁ and 12 ₂ shown in FIG. (a) is a perspective view for explaining the configuration of the first cable fixing portion 42 ₁ , and (b) is a state after the _first optical drop cable ₁₁ is fixed by the first cable fixing portion 42 ₁ . FIG. Configuration of the first and _second cable fixing portions 52 ₁ and 52 ₂ and the first cable fixing portion that can be used instead of the first and second cable fixing portions 12 ₁ and 12 ₂ shown in FIG. by 52 ₁ is a diagram for explaining a procedure for fixing the first optical drop cable 1 _1. FIG. 5 is a diagram for explaining three methods for fixing the mechanical splice 7 to the center of the optical cable connector 10. It is a figure for demonstrating the structure of the sponge member 83 which can be used instead of the sponge member 13 in which the linear notch 13a shown in FIG. 1 was formed. It is a figure which shows the structure of the optical cable connector 90 by 2nd Example of this invention, (a) is a top view which shows the state before fixation, (b) is a top view which shows the state after fixation. . It is a figure which shows the structure of the optical cable connector 110 by the 3rd Example of this invention, (a) is a front view, (b) is a top view. It is a figure which shows the structure of the optical cable connector 210 by 4th Example of this invention, (a) is a top view which shows the state before fixation, (b) is a top view which shows the state after fixation. .

Explanation of symbols

1 ₁ , 1 ₂ 1st and 2nd optical drop cables 2 ₁₁ , 2 ₁₂ , 2 ₂₁ , 2 ₂₂ 1st and 2nd tension members 3 ₁ , 3 ₂ 1st and 2nd optical fiber cores 4 ₁ , 4 ₂ First and second jackets 7 Mechanical splices 10, 90, 110, 210 Optical cable connectors 11, 21, 31, 41, 51, 91, 211 Mechanical sp fixing parts 11a ₁ , 11a ₂ , 21a ₁ , 21a ₂ , 31 a ₁ , 31 a ₂ , 41 a ₁ , 41 a ₂ , 51 a ₁ , 51 a _2, first and second insertion portions 12 ₁ , 12 ₂ , 22 ₁ , 22 ₂ , 32 ₁ , 32 ₂ , 42 ₁ , 42 ₂ , 52 _1, 52 _2, 92 _1, 92 _2, 112 _1, 112 _2, 212 _1, 212 ₂ first and second cable fixing portion 13,53,83,93 sponge member 13a, 53a, 83a, 93a cuts 22a _11, 22a _{12 22a 21, 22a 22, 32a 11} , 32a 12, 32a 21, 32a 22 first and second pawl _{42a 11, 42a 12, 42a 21} , 42a 22 first and second longitudinal grooves 61 ₁ to 61 ₃ first to third black circle 62 black mark 73 _1, 73 ₂ first and second sponge member 73a _1, 73a ₂ the first and second cuts 83b triangular groove 93a ₀ straight portion 93a _1, 93a ₂ the first and second 2nd curved portion 111a inner mechanical sp fixing portion 111b outer mechanical sp fixing portion 113 ₁ , 113 ₂ first and second sponge members 113a ₁ , 113a ₂ first and second cuts 114 fixing screw 115 sliding window 213 _{1 to} 213 ₃ First to third sponge members 213a _{1 to} 213a ₃ First to third cuts

Claims (16)

In a state where the first optical drop cable (1 ₁ ) drawn into the building from the outside of the building and the second optical drop cable (1 ₂ ) laid in the building are optically connected by the core wire connecting sleeve An optical cable connector (10; 90; 110; 210) for securing,
A state in which the first optical fiber core (3 ₁ ) exposed from the first optical drop cable and the second optical fiber core (3 ₂ ) exposed from the second optical drop cable are connected A box-shaped sleeve fixing portion (11; 21; 31; 41; 51; 91; 111a, 111b; 210) for accommodating a core wire connecting sleeve fixing means for fixing the core wire connecting sleeve; ,
First and second cable fixing portions (12 ₁ , 12 ₂ ; 22 ₁ , 22 ₂₎ attached to both end faces of the sleeve fixing portion and for fixing the first and second optical drop cables, respectively. 32 ₁ , 32 ₂ ; 42 ₁ , 42 ₂ ; 52 ₁ , 52 ₂ ; 92 ₁ , 92 ₂ ; 112 ₁ , 112 ₂ ; 212 ₁ , 212 ₂ )
First and second insertion portions (11a ₁ , 11a ₂ ; 21a ₁ , 21a ₂ ; 31a ₁ , 31a for inserting the first and second optical drop cables into both end faces of the sleeve fixing portion, respectively. ₂ : 41a ₁ , 41a ₂ : 51a ₁ , 51a ₂ ), respectively,
After the first and second optical drop cables are inserted into the first and second insertion portions and the first and second cable fixing portions, respectively, the first and second cable fixing portions Fixed by each and
The first and second cable fixing portions have two side surfaces and a bottom surface;
Both side surfaces of the first and second cable fixing portions can be opened and closed in a fan shape with both ends of the bottom surfaces of the first and second cable fixing portions as fulcrums,
The first and second optical drop cables are inserted into the first and second cable fixing portions in a state where both side surfaces of the first and second cable fixing portions are opened, and then the first and second cable fixing portions are inserted. The first and second optical drop cables are fixed by the first and second cable fixing portions by closing both side surfaces of the cable fixing portion of
An optical cable connector characterized by that. The first and second cable fixing portions (12 ₁ , 12 ₂ ) have end faces on opposite sides of the sleeve fixing portions (11) on both side surfaces of the first and second cable fixing portions. It is separated from the end face of the sleeve fixing portion, and is configured integrally with the sleeve fixing portion,
The upper surfaces of the first and second cable fixing portions are fan-shaped on both side surfaces of the first and second cable fixing portions, with both ends of the bottom surfaces of the first and second cable fixing portions as fulcrums, respectively. It is cut into a triangular wave shape along the longitudinal direction of the sleeve fixing part so that the cutting part can be opened by opening.
When the first and second cable fixing portions are engaged with the cut portion, the opening portions have the same size as the first and second outer jackets (4 ₁ , 4 ₂ ) of the first and second optical drop cables. Having a cylindrical shape such that
The optical cable connector according to claim 1, wherein: The first and second cable fixing portions (22 ₁ , 22 ₂ ) have a U-shaped cross-sectional shape with both side surfaces of the first and second cable fixing portions closed;
Saw-blade-shaped first and second claws (22a ₁₁ , 22a ₁₂ , 22a ₂₁ , 22a ₂₂ ) are provided on the upper ends of both side surfaces of the first and second cable fixing parts, and the sleeve fixing part (21). Are formed to face each other along the longitudinal direction of
The lengths of both side surfaces of the first and second cable fixing portions are shorter than the vertical lengths of the first and second jackets of the first and second optical drop cables,
The optical cable connector according to claim 1, wherein: The first and second cable fixing portions (32 ₁ , 32 ₂ ) have a U-shaped cross-sectional shape with both side surfaces of the first and second cable fixing portions closed.
Saw-blade-shaped first and second claws (32a ₁₁ , 32a ₁₂ , 32a ₂₁ , 32a ₂₂ ) are provided on the upper portions of both side surfaces of the first and second cable fixing portions. Each is formed so as to face each other from the upper ends of both side surfaces of the fixing portion toward the bottom surfaces of the first and second cable fixing portions,
The lengths of both side surfaces of the first and second cable fixing portions are the same as the vertical lengths of the first and second jackets of the first and second optical drop cables,
The optical cable connector according to claim 1, wherein: The first and second cable fixing portions (42 ₁ , 42 ₂ ) have a U-shaped cross-sectional shape with both side surfaces of the first and second cable fixing portions closed.
A plurality of triangular first and second longitudinal grooves (42a ₁₁ , 42a ₁₂ , 42a ₂₁ , 42a ₂₂ ) are respectively formed inside both side surfaces of the first and second cable fixing portions. ,
The optical cable connector according to claim 1, wherein: In a state where the first optical drop cable (1 ₁ ) drawn into the building from the outside of the building and the second optical drop cable (1 ₂ ) laid in the building are optically connected by the core wire connecting sleeve An optical cable connector (10; 90; 110; 210) for securing,
A state in which the first optical fiber core (3 ₁ ) exposed from the first optical drop cable and the second optical fiber core (3 ₂ ) exposed from the second optical drop cable are connected A box-shaped sleeve fixing portion (11; 21; 31; 41; 51; 91; 111a, 111b; 210) for accommodating a core wire connecting sleeve fixing means for fixing the core wire connecting sleeve; ,
First and second cable fixing portions (12 ₁ , 12 ₂ ; 22 ₁ , 22 ₂₎ attached to both end faces of the sleeve fixing portion and for fixing the first and second optical drop cables, respectively. 32 ₁ , 32 ₂ ; 42 ₁ , 42 ₂ ; 52 ₁ , 52 ₂ ; 92 ₁ , 92 ₂ ; 112 ₁ , 112 ₂ ; 212 ₁ , 212 ₂ )
Comprising
First and second insertion portions (11a ₁ , 11a ₂ ; 21a ₁ , 21a ₂ ; 31a ₁ , 31a for inserting the first and second optical drop cables into both end faces of the sleeve fixing portion, respectively. ₂ : 41a ₁ , 41a ₂ : 51a ₁ , 51a ₂ ), respectively,
After the first and second optical drop cables are inserted into the first and second insertion portions and the first and second cable fixing portions, respectively, the first and second cable fixing portions Fixed by each and
The first and second cable fixing portions (52 ₁ , 52 ₂ ) include a side surface having a cross-sectional shape of a dogleg shape and another side surface having a cross-sectional shape of a reverse letter shape,
The first and second optical drop cables are pushed from above between the side surface and the other side surface of the first and second cable fixing portions, thereby the first and second cable fixing portions. Each inserted and fixed,
Wherein the optical cable connector. The core wire connecting sleeve fixing means pushes in and fixes the distal ends of the first and second optical drop cables, the first and second optical fiber core wires, and the core wire connecting sleeve. Sponge member (13; 53; 83; 93; 113 ₁ ;; 113 ₂ ; 213 _{1 to} 213 ₃ ) formed with cuts (13a; 53a; 83a; 93a; 113a ₁ , 113a ₂ ; 213a _{1 to} 213a ₃ ) The optical cable connector according to any one of claims 1 to 6, further comprising: The cuts (13a; 53a; 83a; 113a 1, 113a 2; 213a 1 ~213a 3) is characterized in that it is formed in a straight line, an optical cable connector of claim 7 wherein. The incision (93a) includes a straight line portion (93a ₀ ) for fixing the core wire connecting sleeve formed obliquely in a straight line at the center of the sponge member (93), and the first and second And first and second curved portions (93a ₁ , 93a ₂ ) for fixing the optical fiber core wires of
The straight portion and the first curved portion are connected on the _second cable fixing portion (92 ₂ ) side, and the straight portion and the second curved portion are connected to the first cable fixing portion ( 92 ₁ ) connected on the side,
The optical cable connector according to claim 7, wherein: The optical cable connector according to any one of claims 7 to 9 , wherein a triangular groove (83b) is formed on the cut (83a). Mark for fixing the core wire connection sleeve to the center of the optical cable connecting device (61 _1, 61 _2, 61 _3; 62), characterized in that attached to the upper surface of the sponge member, wherein Item 11. An optical cable connector according to any one of Items 7 to 10 . Instead of the mark, the first and second sponge members (73 ₁ , 73 ₂ ) are attached to the sleeve fixing portion with a gap of a predetermined length at the longitudinal center of the sleeve fixing portion (11). Contain,
Both ends of the core wire connecting sleeve are pushed into first and second cuts (73a ₁ , 73a ₂ ) formed in the first and second sponge members, respectively. Fixing to the center of the optical cable connector;
The optical cable connector according to claim 11, wherein: Inner sleeve fixing for accommodating the _first sponge member (113 ₁ ) for fixing the core wire connecting sleeve in a state where the sleeve fixing portion connects the first and second optical fiber core wires. A portion (111a), and an outer sleeve fixing portion (111b) for accommodating a _second sponge member (113 ₂ ) for fixing the _second optical fiber core wire 32,
The inner sleeve fixing portion is slidable relative to the outer sleeve fixing portion;
The optical cable connector according to any one of claims 1 to 12 , wherein the optical cable connector is characterized in that The sponge member includes a first sponge member (213 ₁ ) accommodated on the _first cable fixing portion (212 ₁ ) side of the sleeve fixing portion (211), and the second cable of the sleeve fixing portion. Divided into a second sponge member (213 ₂ ) accommodated on the fixing portion (212 ₂ ) side and a third sponge member (213 ₃ ) accommodated in the central portion of the sleeve fixing portion;
Linear first and second cuts (213a ₁ , 213a ₂ ) for fixing the front ends of the first and second optical drop cables are respectively provided at the centers of the first and second sponge members. Formed,
A third cut (213a ₃ ) for fixing the core wire connecting sleeve is formed at the center of the third sponge member.
The optical cable connector according to claim 7 , wherein the optical cable connector is provided. A turntable is provided at the center of the bottom surface of the sleeve fixing portion,
The third sponge member is fixed on the turntable;
The optical cable connector according to claim 14, wherein: 1st optical drop cable (1 ₁ ) And the second optical drop cable (1 ₂ And an optical cable connector (10; 90; 110; 210) for fixing in an optically connected state with a core wire connecting sleeve,
The first optical fiber core (3) exposed from the first optical drop cable ₁ ) And the second optical fiber core wire (3) exposed from the second optical drop cable. ₂ And a box-shaped sleeve fixing portion (11; 21; 31; 41; 51; 91; 111a) for accommodating the core wire connecting sleeve fixing means for fixing the core wire connecting sleeve. 111b; 210),
First and second cable fixing portions (12) respectively attached to both end faces of the sleeve fixing portion and for fixing the first and second optical drop cables. ₁ , 12 ₂ ; 22 ₁ , 22 ₂ 32 ₁ , 32 ₂ 42 ₁ , 42 ₂ 52 ₁ , 52 ₂ 92 ₁ , 92 ₂ 112 ₁ , 112 ₂ 212 ₁ , 212 ₂ )When,
Comprising
First and second insertion portions (11a) for inserting the first and second optical drop cables into both end faces of the sleeve fixing portion, respectively. ₁ , 11a ₂ 21a ₁ , 21a ₂ 31a ₁ , 31a ₂ : 41a ₁ , 41a ₂ : 51a ₁ , 51a ₂ ) Are formed,
After the first and second optical drop cables are inserted into the first and second insertion portions and the first and second cable fixing portions, respectively, the first and second cable fixing portions Fixed by each and
A first sponge member (113) for fixing the core wire connecting sleeve in a state in which the sleeve fixing portion connects the first and second optical fiber core wires. ₁ ) And an inner sleeve fixing portion (111a) for accommodating the second optical fiber core wire 3 ₂ The second sponge member (113 ₂ And an outer sleeve fixing part (111b) for housing
The inner sleeve fixing portion is slidable relative to the outer sleeve fixing portion;
An optical cable connector characterized by that.

Images