JP4458538B2 - 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 connecting an optical drop cable drawn into the building from outside 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 is performed using a connecting portion installed outside the building.
For example, in Patent Document 1 and Patent Document 2 below, two optical drop cable terminals each having an optical fiber and a support line are provided in order to reduce the size and weight, and to limit the installation location. In the connecting part of the optical drop cable to be connected, both ends of the optical fibers exposed from the ends of both optical drop cables are directly connected to each other, and both ends of the optical fibers connected directly are slackened. The connection part of the optical drop cable by which the terminal of the support line of this optical drop cable is connected linearly is disclosed.

Further, the optical drop cable is re-laid and removed when a user change, a building change, or an overhead track change occurs. This causes waste of the optical drop cable.
Therefore, in Patent Document 3 below, for example, even when the length of the optical drop cable is insufficient, it is possible to easily add the optical drop cable so that re-laying of the optical drop cable is unnecessary. An optical fiber cable having two cable fixing portions for fixing at least a pair of optical fiber cable covering portions and a connection portion fixing portion for fixing an optical fiber connection portion between the two cable fixing portions. A connection spacer is disclosed.
JP 2004-29499 A JP 2004-325998 A Japanese Patent Application Laid-Open No. 2004-212912

However, since the connection part of the optical drop cable disclosed in Patent Document 1 and Patent Document 2 described above uses a support line that bears tension in an aerial section between the subscriber optical fiber cable and the subscriber's house, Although it may be effective to connect optical drop cables outside the building with sufficient tensile strength, the support line is cut when the optical drop cable is pulled into the building, so it is sufficient It is not effective for connecting optical drop cables in a building with tensile strength.
In addition, the optical fiber cable connection spacer disclosed in Patent Document 3 described above may be effective for easily adding an optical drop cable and eliminating the need for re-laying the optical drop cable. For example, when repairing an optical drop cable drawn into a building, the optical drop cable is used inside the building rather than connecting the optical drop cables outside the building using such an optical fiber cable connection spacer. The workability can be improved by connecting them together.

  An object of the present invention is to provide an optical cable connector that can connect optical drop cables having sufficient tensile strength in a building.

A first optical cable connector according to the present invention includes a first optical drop cable (10 ₁ ) drawn into the building from outside the building and a second optical drop cable (10 ₂ ) laid in the building. An optical cable connector for connecting the first and second optical drop cables in a connected state, wherein the first and second optical drop connectors are provided on the upper surface of the housing. First and second cable receiving grooves (21 ₁ , 21 ₂ ) for receiving the second optical drop cables are formed extending from both ends of the housing toward the center of the housing, respectively. In the region between the first and second cable housing grooves, the first and second optical drop cable coverings are cut and removed by a predetermined length from the tip together with the tension member. First and second optical fibers (11 _1, 11 ₂₎ fiber connecting portion for connecting (22) the upper surface of the housing that is exposed from the first and second optical drop cable by Rukoto The optical fiber core wire connecting means for connecting the first and second optical fiber core wires to the fiber connecting portion is held from both sides in the width direction of the optical fiber core wire connection means. 1 and 2 holding claws (22a ₁ , 22a ₂ ) are provided, tension members (12 ₁₁ , 12 ₁₂ , 12 ₂₁ , 12 ₂₂ ) , first and second optical fiber core wires are provided in the housing. And an optical drop cable fixing means for fixing the distal ends of the first and second optical drop cables including the covering to the housing.
Here, the optical drop cable fixing means is attached to the upper surface of the housing so as to cross the first cable housing groove in the width direction of the first cable housing groove, and one end portion is A first cable presser (26 ₁ ) which is rotatably supported by the housing by a _first shaft member (26a ₁ ) and whose other end is fixed to the housing by a _first screw (27 ₁ ); The second cable housing groove is attached to the upper surface of the housing so as to traverse the width direction of the second cable housing groove, and one end portion is formed by the second shaft member (26a ₂ ). A second cable presser (26 ₂ ) that is rotatably supported by the housing and whose other end is fixed to the housing by a _second screw (27 ₂ ) may be provided.
The depths of the first and second cable receiving grooves are made shallower than the thicknesses of the first and second optical drop cables, and the portion protruding from the first and second cable receiving grooves is the first. And you may press with a 2nd cable presser, respectively.
In a state where the first and second cable holders are fixed to the housing, the first and second cable holders are arranged in regions facing the first and second cable receiving grooves of the first and second cable holders. Protruding portions may be provided, and the first and second optical drop cables may be pressed by the first and second protruding portions, respectively.
A cover (30) for protecting the first and second optical fiber core wires of the first and second optical drop cables after connection is further provided, and the optical drop cable fixing means includes the cover. closing the first and second protrusions respectively provided in the region of the cover opposite to the first and second cable receiving groove in state (32 _1, 32 ₂₎ may be provided.
The second optical cable connector according to the present invention includes a first optical drop cable (10 ₁ ) drawn into the building from the outside of the building and a second optical drop cable (10 ₂ ) laid in the building. An optical cable connector for connection in the housing, comprising: a housing (20) for fixing the first and second optical drop cables in a connected state; and an optical drop cable fixing means. The first and second cable receiving grooves (21 ₁ , 21 ₂ ) for receiving the first and second optical drop cables are respectively formed on the upper surface of the housing from the both ends of the housing to the center of the housing. towards are formed respectively extending the in a region between the first and second cable receiving groove, the first cover (13 ₁₎ of said first optical de of the first optical drop cable The widthwise central portion of the Ppukeburu along the longitudinal direction exposed by branching paving predetermined length of the distal end portion of the first optical drop cable to two tips portion (10a _11, 10a ₁₂₎ One optical fiber core wire (11 ₁ ) and the second coating (13 ₂ ) of the second optical drop cable have a predetermined length along the longitudinal direction at the center in the width direction of the second optical drop cable. In order to connect the exposed second optical fiber core wire (11 ₂ ) by cutting it open and branching the tip portion of the second optical drop cable into two tip portions (10a ₂₁ , 10a ₂₂ ) The fiber coupling portion (22) is formed as a recess on the upper surface of the housing, and the optical fiber core connection means for connecting the first and second optical fiber core wires to the fiber connection portion is provided with the optical fiber. Aiba first and second retaining claws (22a _1, 22a ₂₎ for holding from both sides in the width direction of the core wire connecting means are provided, the optical drop cable fixing means, said first and said fiber coupling part One of the two tip portions (10a ₁₁₎ provided on one of both sides of the position where the second optical fiber core wire is connected and including the tension member and the first coating of the first optical drop cable And a first cable fixing structure (41 ₁ ) for fixing one of the two tip portions (10a ₂₁ ) including the tension member and the second covering of the second optical drop cable to the housing. , Provided on the other of the both sides of the position where the first and second optical fiber cores of the fiber connecting portion are connected, and the tension optical cable of the first optical drop cable. The other end (10a ₁₂ ) of the two tip portions including the first member and the first cover, and the other of the two tip portions (10a ₂₂ ) including the tension member of the second optical drop cable and the second cover. A second cable fixing structure (41 ₂ ) for fixing to the housing, and the two tip portions (10a ₁₁ , 10a ₁₂ ) including a tension member and a first covering of the first optical drop cable And the two tip portions (10a ₂₁ , 10a ₂₂ ) including the tension member and the second coating of the second optical drop cable are guided to the first and second cable fixing structures in the fiber connecting portion. It is characterized by being.
Here, the first cable fixing structure is configured such that one of the two tip portions of the first optical drop cable and one of the two tip portions of the second optical drop cable are inserted. A first cable in which a cable insertion hole (43a ₁ ) is formed and two screw holes (43b ₁₁ , 43b ₁₂ ) reaching the first cable insertion hole are opened on the outer surfaces of both ends in the longitudinal direction A second cable insertion hole (43 ₁ ) and a second cable insertion hole into which the other of the two tip portions of the first optical drop cable and the other of the two tip portions of the second optical drop cable are inserted 43a ₂ ), and a second cable support (43b) in which two screw holes (43b ₂₁ , 43b ₂₂ ) reaching the second cable insertion hole are opened on the outer surfaces of both ends in the longitudinal direction. ₂ ) and before Two screws (44 ₁₁ , 44 ₁₂ ) to be screwed into the two screw holes opened in the first cable support portion, and the two screw holes opened in the second cable support portion, respectively. Two screws (44 ₂₁ and 44 ₂₂ ) to be screwed in may be provided.
The first cable fixing structure includes a first groove (45a ₁₎ into which one of the two tip portions of the first optical drop cable and one of the two tip portions of the second optical drop cable are fitted. the first cable support section (45 _1), the first of said at position adjacent to the groove the first cable support section of the longitudinal ends two screws are respectively formed in the holes (45b which) has been formed ₁₁ , 45 b ₁₂ ) and two screws (46 ₁₁ , 46 ₁₂ ) that are respectively screwed into the two screw holes, and the second cable fixing structure is the above-mentioned 2 of the first optical drop cable. A second cable support portion (45 ₂ ) having a _second groove (45a ₂ ) into which the other one of the two tip portions and the other of the two tip portions of the second optical drop cable are fitted; Next to groove 2 Two screw holes (45b ₂₁ , 45b ₂₂ ) formed at both ends in the longitudinal direction of the second cable support portion at the contacted positions, and two screws (46 ₂₁ ) respectively screwed into the two screw holes. , 46 ₂₂ ).
A first cable support for supporting one of the two tip portions of the first optical drop cable and one of the two tip portions of the second optical drop cable; Part (47a ₁ ) and a first cable presser part (47b ₁ ) connected to the first cable support part so as to be openable and closable, and the second cable fixing structure includes the first cable fixing structure. A second cable support (47a ₂ ) for supporting the other of the two tip portions of the optical drop cable and the other of the two tip portions of the second optical drop cable; and the second cable support And a second cable pressing portion (47b ₂ ) connected to the portion so as to be openable and closable, and the first optical drop is provided between the first cable support portion and the first cable pressing portion. K A first recess for sandwiching one of the two tip portions of the bull and one of the two tip portions of the second optical drop cable is formed, and the second cable support portion and the A second for sandwiching the other of the two tip portions of the first optical drop cable and the other of the two tip portions of the second optical drop cable between the second cable pressing portion. A first engagement structure (47c ₁ ) composed of an engagement claw and an engagement groove is formed in the first cable support portion and the first cable pressing portion, A second engagement structure (47c ₂ ) including an engagement claw and an engagement groove may be formed on the second cable support portion and the second cable pressing portion.
The first cable fixing structure includes a pair of clamp claws (48a ₁₁ , 48a ₁₂ ) sandwiching one of the two tip portions of the first optical drop cable from the side, and the second optical drop cable A pair of clamp claws (48a ₁₃ , 48a ₁₄ ) sandwiching one of the two tip portions from the side, and the second cable fixing structure is provided for the two tip portions of the first optical drop cable. A pair of clamp claws (48a ₂₁ , 48a ₂₂ ) sandwiching the other from the side and a pair of clamp claws (48a ₂₃ , 48a ₂₄₎ sandwiching the other of the two tip portions of the second optical drop cable from the side respectively. ).
First and second mounting holes (50 ₁ , 50 ₂ ) are formed on the back surface of the optical cable connector, and the first and second mounting holes are formed on the wall surface (55) and the floor surface of the room. The provided first and second hooks (51 ₁ , 51 ₂ ) may be inserted, respectively.
The optical cable connector is protected by a protective sleeve (60), and the protective sleeve extends from the housing at one end in the vicinity of the housing of the optical cable connector. At least one tube (61 ₁ , 61 ₂ ) made of rubber attached to at least one of the above may be provided.
The optical cable connector is protected by a protective sleeve (70), and the protective sleeve faces the first and second cup-shaped members (71 ₁ , 71 ₂ ) so as to surround the optical cable connector. The first and second cables are provided with cylindrical sleeves having the above-mentioned configuration, and the first and second optical drop cables are inserted into the bottom side end portions of the first and second cup-shaped members, respectively. Insertion holes (72 ₁ , 72 ₂ ) are formed, and first and second screw grooves (73 ₁ , 73 ₂ ) are formed on the inner peripheral surfaces of the open side end portions of the first and second cup-shaped members. Formed on the outer surface of the optical cable connector and supporting the open side end portions of the first and second cup-shaped members at the longitudinal center of the optical cable connector, and 1 and 2 cup shapes The ring-shaped portion which threads are formed corresponding to the first and second screw grooves of wood (74) may be formed.
The housing is further provided with a cover (30) that is openably and closably connected to the housing and is closed with respect to the housing, and covers the housing. An engaging structure constituted by engaging claws (30a ₁ , 30a ₂ , 20a) and engaging recesses (20b ₁ , 20b ₂ , 30b) that engage with each other is provided on the side that faces the connected side. It may be done.
When the housing and the side along the longitudinal direction are connected to each other so as to be openable and closable and are closed with respect to the housing, the cover (30) covering the housing is elastically sandwiched between the cover and the housing A housing fixture (80) comprising first and _second clamping surfaces (81 ₁ , 81 ₂ ) and a back surface (82) between the first and second clamping surfaces; The first and second recesses (83) fitted in the first and _second grooves (85 ₁ , 85 ₂ ) formed on the upper surface of the cover and the bottom surface of the housing, respectively, on the second clamping surface. ₁ , 83 ₂ ) are formed, and first and second claws may be provided at the tips of the first and second clamping surfaces.

The optical cable connector of the present invention has the following effects.
(1) Since the two optical drop cables that pass through the tension member are fixed to the housing, it is possible to connect the optical drop cables with sufficient tensile strength within the building without using the support wires of the optical drop cable. Can be done.
(2) Since it is not always necessary to secure the extra length of the optical fiber core as in the connection portion of the optical drop cable disclosed in Patent Document 1 and Patent Document 2 described above, Connection can be made easily.
(3) The optical cable connector is installed in the building by providing an engaging structure including engaging claws and engaging recesses that engage with each other on the side of the cover and the housing that faces each other. Even so, the cover can be prevented from being opened carelessly.

  Light for fixing optical drop cables having sufficient tensile strength in a building to fix the first and second optical drop cables having a tension member through the housing of the optical cable connector and the housing. This was realized by providing a drop cable fixing means.

Next, an embodiment of the optical cable connector of the present invention will be described with reference to the drawings.
The optical cable connector 1 according to the first embodiment of the present invention is used for building work for newly laying an optical drop cable in a building, repair work such as re-stretching by cutting the optical drop cable in the building, and the like. are those used to connect the optical drop cable together with the inner, it is laid in FIG 1 and FIG. 2, the first optical drop cable 10 ₁ and the building drawn from outside the building in the building A housing 20 for fixing the second optical drop cable 10 ₂ in an optically connected state, and the first and second lights of the first and second optical drop cables 10 ₁ , 10 ₂ after the connection. And a cover 30 for protecting the fiber core wires 11 ₁ and 11 ₂ .
Here, the first optical drop cable 10 ₁ is connected like installed at the drop closure to such a telephone pole, a second optical drop cable 10 ₂ is connected, such as the installation media converters indoors ing.

The housing 20 is a member having a substantially rectangular parallelepiped shape, and first and second cable housing grooves 21 ₁ and 21 ₂ for housing the first and second optical drop cables 10 ₁ and 10 ₂ respectively on the upper surface thereof. However, the two ends of the housing 20 are formed to extend from two opposite sides toward the center.

In the region between the first and second cable housing grooves 21 ₁ and 21 ₂ , the first and second optical fiber core wires 11 exposed from the first and second optical drop cables 10 ₁ and 10 ₂ are provided. A fiber coupling portion 22 for optically connecting ₁ and 11 ₂ is formed as a recess on the upper surface of the housing 20.
In the optical cable connector 1 according to the present embodiment, the first and second optical fiber cores 11 ₁ and 11 ₂ are connected using the mechanical splice 25 as the optical fiber core connection means, and the fiber connecting portion 22 is connected to the optical fiber connector ₁ . Are integrally provided with first and second holding claws 22a ₁ and 22a ₂ for holding the mechanical splice 25 from both sides in the width direction.
The optical fiber core connecting means for connecting the first and second optical fiber cores 11 ₁ and 11 ₂ may be a fusion sleeve.

On the upper surface of the housing 20, first and second cable holders 26 ₁ and 26 ₂ as optical drop cable fixing means cross the first and second cable housing grooves 21 ₁ and 21 ₂ in the width direction thereof. Are attached to each.
One end of the first cable presser 26 ₁ is rotatably supported by the housing 20 by the first shaft member 26 a ₁ , and the other end is fixed to the housing 20 by the first screw 27 ₁ . Is done. Similarly, the second cable presser 26 ₂ has one end rotatably supported by the housing 20 by the second shaft member 26a ₂ and the other end supported by the second screw 27 ₂ . 20 is fixed.

The first and second cable holders 26 ₁ and 26 ₂ are used to connect the first and second optical drop cables 10 ₁ and 10 ₂ respectively inserted into the first and second cable housing grooves 21 ₁ and 21 ₂ . The first and second cable receiving grooves 21 ₁ and 21 ₂ function to be fixed respectively. Therefore, the first and second cable holders 26 ₁ , 26 ₂ and the first and second cable housing grooves 21 ₁ , 21 ₂ connect the first and second optical drop cables 10 ₁ , 10 ₂ to the first. When the first and second screws 27 ₁ and 27 ₂ are respectively fixed to the housing 20 while being inserted into the first and second cable receiving grooves 21 ₁ and 21 ₂ , respectively, the first and second cable pressers 26 ₁ and 26 ₂ are configured to press the first and second optical drop cables 10 ₁ and 10 ₂ toward the first and second cable housing grooves 21 ₁ and 21 ₂ , respectively.

Specific examples of the first and second cable holders 26 ₁ and 26 ₂ and the first and second cable housing grooves 21 ₁ and 21 ₂ configured as described above include the following configurations.
(1) The first and second cable receiving grooves 21 ₁ , 21 ₂ are made shallower than the first and second optical drop cables 10 ₁ , 10 _2. A configuration in which portions protruding from the housing grooves 21 ₁ and 21 ₂ are pressed by the first and second cable holders 26 ₁ and 26 ₂ , respectively.
(2) In the state where the first and second cable holders 26 ₁ and 26 ₂ are fixed to the housing 20, the first and second cable holding grooves 21 of the first and _second cable holders 26 ₁ and 26 ₂ are used. _First and second convex portions (not shown) are provided in regions facing ₁ and 21 ₂ , respectively, and the first and second optical drop cables 10 ₁ and 10 ₂ are respectively connected by the first and second convex portions. Configuration to press.

The cover 30 has a planar shape that is substantially the same as the planar shape of the housing 20. The sides along the longitudinal direction of the cover 30 and the housing 20 are connected to each other by a hinge (not shown) so that the cover 30 can be opened and closed. When the cover 30 is closed with respect to the housing 20, the cover 30 is Cover the top surface.
Further, the cover 30 has first and second surfaces facing the housing 20 so that the first and second cable holders 26 ₁ and 26 ₂ do not interfere with the cover 30 with the cover 30 closed. Recesses are respectively formed at positions corresponding to the _two cable holders 26 ₁ and 26 ₂ .

On the side opposite to the side connected to each other by the hinges of the housing 20 and the cover 30, an engagement structure constituted by an engaging claw and an engaging recess that engage with each other is provided.
That is, first and second engagement claws 30a ₁ and 30a ₂ are provided at both ends in the longitudinal direction of the cover 30, respectively, and first and second engagement claws are provided at both ends in the longitudinal direction of the housing 20. First and second engaging recesses 20b ₁ and 20b ₂ are provided to engage the claws 30a ₁ and 30a ₂ , respectively. A third engagement claw 20a is provided at the longitudinal center of the housing 20, and a third engagement with which the third engagement claw 20a is engaged at the longitudinal center of the cover 30. A recess 30b is provided.
In this manner, the first to third engagement claws 30a ₁ , 30a ₂ , 20a and the first to third engagement recesses 20b ₁ , 20b ₂ , 30b are set so that the mutual engagement relationship is alternated. If the cover 30 is simply opened, the first to third engagement claws 30a ₁ , 30a ₂ , 20a and the first to third engagement claws 30a ₁ , 30a ₂ , 20a at either the end or the center are arranged. Since the engagement recesses 20b ₁ , 20b ₂ , and 30b are engaged, the cover 30 can be prevented from being opened carelessly.

Parallel first optical drop cable 10 _1, as shown in FIG. 3, the first fibers 11 _1, first the first between the optical fibers 11 ₁ of the optical fibers 11 ₁ The first tension member 12 ₁₁ , 12 ₁₂ disposed at a distance from each other and the first optical fiber core wire 11 ₁ and the two tension members 12 ₁₁ , 12 ₁₂ for protecting the first tension member 12 ₁₁ , 12 ₁₂ are spaced apart from each other. And a coating 13 ₁ . Here, each tension member 12 _11, 12 _12, plays a first optical drop cable 10 ₁ of tension in the building, which is constituted by a steel wire or FRP (Fiber Reinforced Plastics). The diameter of each tension member 12 ₁₁ , 12 ₁₂ is generally about 0.4 mm.
The second optical drop cable 10 ₂ has the same configuration as the _first optical drop cable 10 ₁ .
The first and second optical drop cables 10 ₁ , 10 ₂ have one optical fiber core as shown in FIG. 3, but have two or more optical fiber cores. Also good.

Next, a method of connecting the first and second optical drop cables 10 ₁ and 10 ₂ using the optical cable connector 1 according to this embodiment (optical cable connection method) will be described.
First, the first coating 13 ₁ (see FIG. 3) of the first optical drop cable 10 ₁ is cut and removed from the tip together with the two tension members 12 ₁₁ and 12 ₁₂ by a predetermined length, and the first optical fiber is removed. exposing the core 11 ₁ by a predetermined length. Similarly, for the second optical drop cable 10 ₂ , the second optical fiber core wire 11 ₂ is exposed by a predetermined length.

Subsequently, after the first and second optical drop cable 10 _1, 10 _2, are opposed to the first and second optical fibers 11 exposed _1, 11 ₂ face each other, using a mechanical splice 25 Then, the tip ends of the first and second optical fiber core wires 11 ₁ and 11 ₂ are connected to each other (see FIGS. 1 and 2). Thereby, the first and second optical drop cables 10 ₁ and 10 ₂ are optically connected.
Incidentally, when connecting the first and second optical fibers 11 _1, 11 ₂ of the distal ends may be secured extra length, but not necessarily need to secure extra length.

Subsequently, the to retain the mechanical splice 25 to a fiber connection part 22 with the first and second optical drop cable 10 _1, 10 ₂ are connected, the first and second optical drop cable 10 _1, 10 ₂ Are fitted into the first and second cable receiving grooves 21 ₁ and 21 ₂ , respectively. Here, the mechanical splice 25 can be easily held by the fiber connecting portion 22 simply by pushing the mechanical splice 25 between the first and second holding claws 22a ₁ and 22a ₂ .

Subsequently, the first and second cable holders 26 ₁ and 26 ₂ are rotated about the first and second shaft members 26a ₁ and 26a ₂ , respectively, so that the first and second cable housing grooves 21 ₁ are rotated. , 21a ₂ , and the other ends of the first and second cable holders 26 ₁ , 26 ₂ are fastened to the housing 20 with first and second screws 27 ₁ , 27 ₂ , respectively. Thus, the first and second cable holders 26 ₁ and 26 ₂ press the first and second optical drop cables 10 ₁ and 10 ₂ against the first and second cable receiving grooves 21 ₁ and 21a ₂ , respectively. The first and second optical drop cables 10 ₁ and 10 ₂ are fixed to the housing 20.

Subsequently, the cover 30 is closed to cover the exposed portions of the first and second optical fiber core wires 11 ₁ and 11 ₂ of the first and _second optical drop cables 10 ₁ and 10 ₂ . When the cover 30 is closed, the first to third engagement claws 30a ₁ , 30a ₂ , 20a and the first to third engagement recesses 20b ₁ , 20b ₂ , 30b are engaged with each other, thereby housing 20. The cover 30 is fixed to the head. This can prevent the cover 30 from being opened carelessly.

As described above, by using the optical cable connector 1, the first and second optical drop cables 10 ₁ and 10 ₂ can be connected very easily in the building.
The first and second optical drop cable 10 ₁ and the tension members 12 _21, 12 ₂₂ the second optical drop cable 10 ₂ that passed through the first and second cable tension member 12 _11, 12 ₁₂ has passed Since sufficient tensile strength can be given by fixing to the housing 20 using the pressers 26 ₁ and 26 ₂ , for example, the first and second optical drop cables 10 ₁ and 10 ₂ have some cause in the building. The first and second optical drop cables 10 ₁ , 10 ₂ can be kept connected even when pulled by.

In the above description, the first and second optical drop cables 10 ₁ and 10 ₂ are fixed to the housing 20 using the first and _second cable holders 26 ₁ and 26 ₂ , respectively, but as shown in FIG. The first and second convex portions 32 ₁ and 32 ₂ (the second convex portion 32 ₂ is not shown) are provided integrally with the cover 30 at both ends in the longitudinal direction of the cover 30, respectively. The first and second optical drop cables 10 ₁ and 10 ₂ may be fixed without using the _two cable holders 26 ₁ and 26 ₂ . Here, the first and second convex portions 32 ₁ and 32 ₂ are provided in regions facing the first and second cable housing grooves 21 ₁ and 21 ₂ , respectively, with the cover 30 closed.

In order to fix the _first optical drop cable 10 ₁ using the first convex portion 32 ₁ , the first optical drop cable 10 ₁ is fitted into the first cable housing groove 21 ₁ , and then the cover 30. Close. Thereby, the first optical drop cable 10 ₁ is pressed by the _first convex portion 32 ₁ and fixed to the housing 20. Similarly, the second optical drop cable 10 ₂ is fixed to the housing 20 using the _second convex portion 32 ₂ .

Thus, by providing the cover 30 with the first and second convex portions 32 ₁ and 32 ₂ for fixing the first and second optical drop cables 10 ₁ and 10 ₂ to the housing 20, an optical cable connector is provided. Can be simplified.

  Next, an optical cable connector 100 according to a second embodiment of the present invention will be described with reference to FIG. FIG. 5 is a plan view of the optical cable connector 100 according to the present embodiment, with the cover removed.

In the optical cable connecting device 100 according to this embodiment, by the first of the first cover 13 of the optical drop cable 10 _{1 1} (see FIG. 3) along the longitudinal direction at the widthwise central portion carve by a predetermined length The first optical drop cable 10 ₁ is branched into two tip portions 10a ₁₁ and 10a ₁₂ to expose the first optical fiber core wire 11 ₁ , and the two branched tip portions 10a ₁₁ , 10a ₁₁ , 10 a ₁₂ is fixed to the housing 20.
Similarly, the second optical drop cable 10 ₂ is cut by a predetermined length along the longitudinal direction at the center portion in the width direction of the second coating 13 ₂ (not shown) of the second optical drop cable 10 ₂ , thereby The distal end portion of 10 ₂ is branched into two distal end portions 10 a ₂₁ and 10 a ₂₂ to expose the second optical fiber core wire 11 ₂ , and the two branched distal end portions 10 a ₂₁ and 10 a ₂₂ are fixed to the housing 20. To do.

Therefore, one of the two tip portions 10a ₁₁ and 10a ₁₂ of the first optical drop cable 10 ₁ (tip portion 10a ₁₁ ) and one of the two tip portions 10a ₂₁ and 10a ₂₂ of the second optical drop cable 10 ₂ ( A first cable fixing structure 41 ₁ for fixing the tip portion 10a ₂₁ ) to the housing 20, the other of the two tip portions 10a ₁₁ and 10a ₁₂ of the first optical drop cable 10 ₁ (tip portion 10a ₁₂ ), and A second cable fixing structure 41 ₂ for fixing the other of the two tip portions 10 a ₂₁ , 10 a ₂₂ (tip portion 10 a ₂₂ ) of the second optical drop cable 10 ₂ to the housing 20 is the fiber connecting portion 22. The first and second optical fiber core wires 11 ₁ and 11 ₂ are provided on both sides of the position where they are connected.

The fiber connecting portion 22 includes a first guide pin 42 ₁ for favorably guiding the tip portion 10a ₁₁ of the first optical drop cable 10 ₁ to the first cable fixing structure 41 ₁ , and a first light. A second guide pin 42 ₂ for satisfactorily guiding the tip portion 10a ₁₂ of the drop cable 10 ₁ to the second cable fixing structure 41 ₂ and the tip portion 10a ₂₁ of the _second optical drop cable 10 ₂ are connected to the first cable fixing structure 41 ₂ . A third guide pin 42 ₃ for favorably leading to the cable fixing structure 41 ₁ and a fourth guide for favorably guiding the tip portion 10a ₂₂ of the second optical drop cable 10 ₂ to the second cable fixing structure 41 ₂ . It is provided with guide pins 42 _4.

The exposed first and second optical fiber cores 11 ₁ and 11 ₂ of the first and second optical drop cables 10 ₁ and 10 ₂ are connected using a mechanical splice 25. At this time, the first and second optical drop cables 10 ₁ , 10 ₂ are housed in the first and second cable housing grooves 21 ₁ , 21 ₂ , and the branched tip portions 10a ₁₁ , 10a ₁₂ , by 10a _21, 10a ₂₂ is in the first to fourth guide pin 42 _{1-42 4} are respectively guided to either side of the mechanical splice 25, is fixed to the housing 20 by the first and second cable fixing structure 41 _1, 41 ₂ The

Note that the lengths of the tip portions 10a ₁₁ , 10a ₁₂ , 10a ₂₁ , 10a ₂₂ branched into the first and second optical drop cables 10 ₁ , 10 ₂ are the tip portions 10a ₁₁ , 10a ₁₂ , 10a. There is no particular limitation as long as it does not hinder the fixing of ₂₁ and 10a ₂₂ to the housing 20 with the first and second cable fixing structures 41 ₁ and 41 ₂ .

As described above, in the optical cable connector 100 according to the present embodiment, the first and second optical drop cables 10 ₁ and 10 ₂ are split into two by cutting open the tip portions of the first and second optical drop cables 10 ₁ and 10 _2. the _first two tips portions 10a _11, 10a ₁₂ and the second optical drop cable 10 ₂ of the two tip portions 10a _21, 10a ₂₂ and the first and second cable fixing structure 41 _1, 41 ₂ in the housing 20 By fixing, compared to the optical cable connector 1 according to the first embodiment described above, the number of discarded members can be greatly reduced.
Further, tension members 12 ₁₁ , 12 ₁₂ , 12 ₂₁ , and 12 ₂₂ pass through the tip portions 10a ₁₁ , 10a ₁₂ , 10a ₂₁ , and 10a ₂₂ of the first and second optical drop cables 10 ₁ and 10 ₂ , respectively. Therefore (see FIG. 3), the tensile strength is sufficient, and the positional relationship between the first and second optical fiber cores 11 ₁ and 11 ₂ connected using the mechanical splice 25 is also maintained well. Can do.

In FIG. 5 the first and second cable fixing structure 41 _1, 41 ₂ is not shown concrete structures for, as the ₂ first and second cable fixing structure 41 _1, 41, first and second Any structure can be adopted as long as the branched tip portions 10a ₁₁ , 10a ₁₂ , 10a ₂₁ , 10a ₂₂ of the optical drop cables 10 ₁ , 10 ₂ can be fixed to the housing 20. Some specific examples will be described with reference to FIGS.

In the specific example shown in FIGS. 6A and 6B, as shown in FIG. 6B, the first cable fixing structure 41 ₁ includes the tip portion 10a ₁₁ of the _first optical drop cable 10 ₁ and the first optical drop cable 101. A cylindrical first cable support portion 43 ₁ in which a _first cable insertion hole 43a ₁ into which the distal end portion 10a _{21 of the second} optical drop cable 102 is inserted is provided. Further, two screw holes 43b ₁₁ and 43b ₁₂ (the screw holes 43b ₁₂ are not shown) reaching the first cable insertion holes 43a ₁ are formed on the outer surfaces of both ends in the longitudinal direction of the first cable support portion 43 _1. It is open.

State through the first optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second optical drop cable 10 ₂ of the front end portion 10a ₂₁ to the first cable insertion holes 43a _1, 2 screw holes 43 b _11, 43 b ₁₂ to two screws 44 _11, 44 ₁₂ (screw 44 ₁₂ is not shown) is screwed respectively. Thus, as shown in FIG. 6 (a), the first optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second optical drop cable 10 ₂ of the front end portion 10a ₂₁ a first cable insertion hole 43a ₁ The two screws 44 ₁₁ and 44 ₁₂ are tightened and fixed. If the two screws 44 ₁₁ and 44 ₁₂ are loosened, the distal end portion 10a ₁₁ of the _first optical drop cable 101 and the distal end portion 10a ₂₁ of the _second optical drop cable 102 are connected to the first cable insertion hole. 43a ₁ can be extracted.

Similarly to the _first cable fixing structure 41 ₁ , the _second cable fixing structure 41 ₂ includes the tip portion 10a ₁₂ of the _first optical drop cable 10 ₁ and the tip portion 10a _{22 of the second} optical drop cable 10 _2. A cylindrical second cable support portion 43 ₂ formed with a _second cable insertion hole 43a ₂ (not shown) to be inserted is provided on the outer surface of both end portions in the longitudinal direction of the _second cable support portion 43 _2. Are opened with two screw holes 43b ₂₁ and 43b ₂₂ (not shown) reaching the second cable insertion hole 43a ₂ .
Thus, a first optical drop cable 10 ₁ of the front end portion 10a ₁₂ and the second optical drop cable 10 to a _second distal end portion 10a ₂₂ second cable insertion hole 43a 2 screws 44 ₂₁ in the _2, 44 ₂₂ (screw 44 ₂₂ is not shown) and fixed tightened respectively by loosening the two screws 44 _21, 44 _22, the first optical drop cable 10 ₁ of the front end portion 10a ₁₂ and the second optical drop cable 10 _{The two} distal end portions 10a ₂₂ can be pulled out from the second cable insertion hole 43a ₂ .

In the specific example shown in FIGS. 7A and 7B, as shown in FIG. 7B, the first cable fixing structure 41 ₁ includes the tip portion 10a ₁₁ of the _first optical drop cable 10 ₁ and the first optical drop cable 101. the first cable support portion 45 ₁ in which the first groove 45a ₁ 2 optical drop cable 10 ₂ of the front end portion 10a ₂₁ is fitted is formed, the first cable at a location adjacent to the first groove 45a ₁ Two screw holes 45b ₁₁ and 45b ₁₂ (screw holes 45b ₁₂ are not shown) formed at both ends in the longitudinal direction of the support portion 45 ₁ and two screws screwed into the two screw holes 45b ₁₁ and 45b ₁₂ respectively. Screws 46 ₁₁ and 46 ₁₂ (screw 46 ₁₂ is not shown). Here, the depth of the first groove 45a ₁ is shallower than the height of the first optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second optical drop cable 10 ₂ of the front end portion 10a _21.

FIG. 7 (a), the (b), the first optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second optical drop cable 10 ₂ of the front end portion 10a ₂₁ includes a first groove 45a in the ₁ It is inserted in. In this state, when the two screws 46 ₁₁ and 46 ₁₂ are screwed into the two screw holes 45b ₁₁ and 45b ₁₂ , respectively, the distal end portion 10a ₁₁ of the _first optical drop cable 10 ₁ and the second optical drop cable 10 _2. of the tip portion 10a ₂₁ are two screws 46 _11, 46 ₁₂ of the head 46a _11, 46a ₁₂ (the head 46a ₁₂ is not shown) pressed against each of the first groove 45a ₁ by. Thus, a first optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second optical drop cable 10 ₂ of the front end portion 10a ₂₁ is fixed.

Similarly to the _first cable fixing structure 41 ₁ , the _second cable fixing structure 41 ₂ includes the tip portion 10a ₁₂ of the _first optical drop cable 10 ₁ and the tip portion 10a _{22 of the second} optical drop cable 10 _2. a second cable support section 45 ₂ in which the second groove 45a ₂ is formed to be fitted, respectively are formed on both longitudinal ends of the second cable support section 45 ₂ at a position adjacent to the second groove 45a ₂ And two screw holes 45b ₂₁ and 45b ₂₂ (not shown) and two screws 46 ₂₁ and 46 ₂₂ (screws 46 ₂₂ are not shown) screwed into the two screw holes 45b ₂₁ and 45b ₂₂ respectively. , the depth of the second groove 45a ₂ is shallower than the height of the first optical drop cable 10 ₁ of the front end portion 10a ₁₂ and the second optical drop cable 10 ₂ of the front end portion 10a _22.
Thus, a first optical drop cable 10 ₁ of the front end portion 10a ₁₂ and the second optical drop cable 10 ₂ of the front end portion 10a ₂₂ the two screws 46 _21, 46 ₂₂ of the head portion 46a _21, 46a ₂₂ (not And can be pressed and fixed to the second grooves 45a ₂ respectively.

7A and 7B show an example using the _first cable support portion 45 _{1 in} which the first groove 45a ₁ is formed. However, the first cable support portion 45 ₁ is directly connected to the bottom surface of the fiber connecting portion 22. such as placing the first optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second optical drop cable 10 ₂ of the front end portion 10a _21, the first optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second light surface supporting the drop cable 10 ₂ of the front end portion 10a ₂₁ may be flat. However, FIG. 7 (a), the as of the specific example illustrated in (b), the first tip portion of the optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second optical drop cable 10 ₂ in a groove-like portion by so holding the 10a _21, it is possible to stably hold the first optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second optical drop cable 10 ₂ of the front end portion 10a _21.

In the specific example shown in FIGS. 8A and 8B, as shown in FIG. 8B, the first cable fixing structure 41 ₁ includes the tip portion 10a ₁₁ of the _first optical drop cable 10 ₁ and the first optical drop cable 10 ₁ . A first cable support 47a ₁ on which the tip portion 10a _{21 of the second} optical drop cable 10 ₂ is placed and supported; and a first cable hinge-opened to the first cable support 47a _{1 so as} to be openable and closable. and a cable holding portion 47b ₁ of the. Here, the first cable support section 47a ₁ and the first cable holding portion 47b _1, may be constituted by an integral member.

Between the first cable support portion 47a ₁ and the first cable holding portion 47b ₁ , the distal end portion 10a ₁₁ of the _first optical drop cable 10 ₁ and the distal end portion 10a _{21 of the second} optical drop cable 10 ₂ are arranged. A recess is formed to hold the pin. As shown in FIG. 8B, the concave portion may be formed in both the first cable support portion 47a ₁ and the first cable pressing portion 47b ₁ or only in one of them. May be.

The first cable support portion 47a ₁ and the first cable holding portion 47b _1, the first engaging structure 47c ₁ formed of the engaging claw and the engaging groove is formed. By the first engagement structure 47c ₁ , the first cable support portion 47a ₁ and the first cable pressing portion 47b ₁ can be held in a closed state. FIG. 8B shows an example in which the first cable pressing portion 47b ₁ is provided with an engaging claw and the first cable support portion 47a ₁ is provided with an engaging groove. Good.

Similarly to the _first cable fixing structure 41 ₁ , the _second cable fixing structure 41 ₂ includes the tip portion 10a ₁₂ of the _first optical drop cable 10 ₁ and the tip portion 10a _{22 of the second} optical drop cable 10 _2. There is a second cable support 47a ₂ (not shown) that is placed and supported, and a second cable presser 47b ₂ that is hinged to the second cable support 47a _{2 so as} to be openable and closable. The second cable support part 47a ₂ and the second cable pressing part 47b ₂ are formed with a _second engagement structure 47c ₂ (not shown) including an engagement claw and an engagement groove.
Thus, narrow by the first optical drop cable 10 ₁ of the front end portion 10a ₁₂ and the second optical drop cable 10 ₂ of the front end portion 10a ₂₂ second cable support section 47a ₂ and the second cable holding portion 47b ₂ Can have.

In the specific example shown in FIGS. 9A and 9B, as shown in FIG. 9B, the first cable fixing structure 41 ₁ is located on the side of the tip portion 10a ₁₁ of the first optical drop cable 10 _1. a pair of clamp jaws 48a _11, 48a ₁₂ sandwiching from the side, comprises a pair of clamp jaws 48a ₁₃ sandwiching the second optical drop cable 10 ₁ of the front end portion 10a ₂₁ from the side, 48a ₁₄ (not shown). Here, the clamping claws 48a ₁₁ ~48a ₁₄ may be constituted by a metal plate can be plastically deformed by a simple tool such as a pliers.

First optical drop cable 10 ₁ of the front end portion 10a ₁₁ and the second optical drop cable 10 ₂ of the front end portion 10a ₂₁ includes a pair of clamp jaws 48a _11, 48a _12, and a pair of clamp jaws 48a _13, 48a ₁₄ opens In this state, they are inserted between the pair of clamp claws 48a ₁₁ and 48a ₁₂ and the pair of clamp claws 48a ₁₃ and 48a ₁₄ , respectively. Closing a pair of clamp jaws 48a _11, 48a _12, and a pair of clamp jaws 48a _13, 48a ₁₄ in this state, the first tip portion 10a ₁₁ and the second tip portion of the optical drop cable 10 ₂ of the optical drop cable 10 ₁ by sandwiching each 10a ₂₁ a pair of clamp jaws 48a _11, 48a _12, and a pair of clamp jaws 48a _13, 48a _14, the first optical drop cable 10 ₁ and the second optical drop cable 10 ₂ is fixed.

Similarly to the _first cable fixing structure 41 ₁ , the _second cable fixing structure 41 ₂ includes a pair of clamp claws 48a ₂₁ and 48a ₂₂ that sandwich the tip portion 10a ₁₂ of the first optical drop cable 10 ₁ from the side. comprises a pair of clamp jaws 48a ₂₃ sandwiching the second optical drop cable 10 ₁ of the front end portion 10a ₂₂ from the side, 48a ₂₄ (not shown).
Thus, a first optical drop cable 10 ₁ of the front end portion 10a ₁₂ and the second optical drop cable 10 ₂ of the front end portion 10a ₂₂ a pair of clamping claws 48a _21, 48a _22, and a pair of clamp jaws 48a _23, 48a ₂₄ The first optical drop cable 10 ₁ and the second optical drop cable 10 ₂ are fixed by sandwiching each of them.

The specific structure of the first and second cable fixing structures 41 ₁ and 41 ₂ has been described above. In the present invention, the tip portions 10a ₁₁ and 10a ₁₂ of the _first optical drop cable 10 1 and the second cable fixing structures 41 ₁ and 41 ₂ are described. As long as the front end portions 10a ₂₁ and 10a ₂₂ of the optical drop cable 10 ₂ can be detachably fixed, they are not limited to these specific structures.

Next, the installation method in the building of the optical cable connector 1,100 is demonstrated.
The optical cable connectors 1 and 100 may be installed in the building as they are, but are preferably fixed to a wall surface or a floor surface.

10A and 10B show an example in which the optical cable connector 1 can be attached to the indoor wall surface of a building. In this example, as shown in FIG. 5A, first and second mounting holes 50 ₁ and 50 ₂ are formed on the back surface of the optical cable connector 1, and as shown in FIG. The first and second hooks 51 ₁ and 51 ₂ (the second hook 51 ₂ is not shown) provided on the indoor wall surface 55 are inserted into the second mounting holes 50 ₁ and 50 ₂ , respectively. It has become.

Here, as shown in FIG. 10B, the first hook 51 ₁ includes a first shaft portion 51a ₁ protruding from the wall surface 55, and a first shaft portion 51a _{1 at} the tip of the first shaft portion 51a 1. And a first head portion 51b ₁ having a diameter larger than that of the shaft portion 51a ₁ . Further, as shown in FIG. 10A, the first mounting hole 50 ₁ is formed with a first hook insertion portion 50a ₁ having a size that allows the first head 51a ₁ of the first hook 51 ₁ to be inserted. The first hook insertion portion 50a ₁ is formed to extend upward from the first hook insertion portion 50a ₁ for hooking the first head portion 51b ₁ of the first hook 51 ₁ inserted into the first hook insertion portion 50a ₁ . with 1 of a hook portion 50b _1.
Similarly to the first hook 51 ₁ , the _second hook 51 ₂ includes a second shaft portion 51a ₂ (not shown) projecting from the wall surface 55, and a second shaft portion 51a _{2 at} the tip of the _second shaft portion 51a ₂ . And a second head portion 51b ₂ (not shown) having a diameter larger than that of the _two shaft portions 51a ₂ . The second mounting holes 50 _2, like the first mounting hole 50 _1, the second hook insertion portion 50a having a size second head 51a ₂ of ₂ second hook 51 can be inserted ₂ (not shown), the second for hooking the second head 51b ₂ of the hook 51 ₂ inserted second into the hook insertion portion 50a _2, extends upwardly from the second hook insertion portion 50a ₂ And a second hook portion 50b ₂ (not shown) formed.

Thus, the first mounting hole 50 ₁ of the first hook inserting portion 50a ₁ in the first with inserting the hooks 51 ₁ of the second mounting hole 50 of the second _second hook insertion portion 50a ₂ to the second When the hook 51 ₂ is inserted and the optical cable connector 1 is moved downward in the figure with respect to the wall surface 55 in this state, the optical cable connector 1 is engaged with the first and second hooks 51 ₁ and 51 ₂ . The optical cable connector 1 can be fixed to the wall surface 55.

The first and second mounting holes 50 ₁ , 50 ₂ and the first and second hooks 51 ₁ , 51 ₂ can be configured as shown in FIGS. It is not limited to the form shown in ().
In addition, the means for fixing the optical cable connector 1 to the wall surface 55 is not limited to the one using the above-described engagement, and any other means such as one using a screw or a double-sided tape may be used. Can do.

Next, a method for protecting the optical cable connector 1,100 will be described.
The optical cable connector 1,100 may be protected by a protective sleeve.

In the example shown in FIGS. 11A and 11B, the protective sleeve 60 has first and second tubes 61 ₁ and 61 ₂ made of rubber. Here, the first and second tubes 61 ₁ , 61 ₂ are connected to the first and second optical drop cables 10 ₁ , 10 ₂ with _one ends extending from the housing 20 in the vicinity of the housing 20 of the optical cable connector ₁ . Each is attached.
In FIGS. 11A and 11B, the first and second tubes 61 ₁ and 61 ₂ are shown in cross section.

At the time of connecting the first and second optical drop cables 10 ₁ and 10 ₂ , as shown in FIG. 11A, the opened other end side of the first and second tubes 61 ₁ and 61 ₂ is fixed. It faces the side away from the housing 20 rather than the one end. After the connection of the first and second optical drop cables 10 ₁ and 10 ₂ is completed, as shown in FIG. 11B, the other ends of the first and second tubes 61 ₁ and 61 ₂ are opened. The side is inverted so as to pass through the housing 20 of the optical cable connector 1. Thereby, the housing 20 of the optical cable connector 1 is entirely covered with the first and second tubes 61 ₁ and 61 ₂ .

In addition, although the example using the 1st and 2nd tube 61 ₁ and 61 ₂ was shown, when the length of the tube has a sufficient length to cover the optical cable connector 1, Only one tube may be used.
Further, in order to prevent the first and second tubes 61 _1, 61 ₂ of the damage to the optical cable connector 1 is in contact, the first and second tubes 61 of the optical cable connector 1 _1, 61 ₂ and the contact It is preferable to apply R processing (rounding processing) to the place to be performed.

In the example shown in FIGS. 12A and 12B, the protective sleeve 70 has a configuration in which the first and second cup-shaped members 71 ₁ and 71 ₂ face each other so as to surround the optical cable connector 1. It is a cylindrical sleeve.

The first and second cup-shaped members 71 ₁ and 71 ₂ have first and second cable insertion holes 72 ₁ and 72 ₂ through which the first and second optical drop cables 10 ₁ and 10 ₂ are inserted, respectively. The first and second screw grooves 73 ₁ , 73 ₂ are formed on the inner peripheral surface of the open end, while being formed at the bottom end.
On the outer surface of the optical cable connector ₁ , a ring-shaped portion 74 that supports the open side end portions of the first and second cup-shaped members 71 ₁ and 71 ₂ is formed at the center in the longitudinal direction. Here, on the outer peripheral surface of the ring-shaped portion 74, threads corresponding to the first and second thread grooves 73 ₁ and 73 ₂ of the first and _second cup-shaped members 71 ₁ and 71 ₂ are formed. Yes.

The connecting operation of the first and second optical drop cables 10 ₁ and 10 ₂ is performed with the first and second cup-shaped members 71 ₁ and 71 ₂ opened. When the connection work is completed, the first and second cup-shaped members 71 ₁ and 71 ₂ are brought close to each other and screwed into the ring-shaped portion 74 of the optical cable connector 1. As a result, the housing 20 of the optical cable connector 1 is entirely covered by the first and second cup-shaped members 71 ₁ , 71 ₂ .

  As shown in FIGS. 11A and 11B and FIGS. 12A and 12B, when the optical cable connector 1 is protected by the protective sleeves 60 and 70, the cover 30 shown in FIG. Is not necessarily provided.

  In each of the embodiments described above, the optical cable connector 1, 100 (housing 20) has been described as having a substantially rectangular parallelepiped shape as a whole. However, the shape is not particularly limited, and there are requirements for installation location and design. It may be any shape according to the above. In particular, when a cylindrical protective sleeve 70 as shown in FIGS. 12 (a) and 12 (b) is provided, it is desirable that the structure accommodated therein is also cylindrical as a whole.

Further, as shown in FIG. 1, the first to third engagement claws 30a ₁ , 30a ₂ , 20a and the first to third engagement recesses 20b ₁ , 20b ₂ , 30b are arranged to cover the cover. Although the 30 is prevented from being opened carelessly, a housing fixture 80 as shown on the right side of FIG. 13A may be used.

The housing fixture 80 includes first and second clamping surfaces 81 ₁ and 81 ₂ that elastically sandwich the cover 30 and the housing 20, and a back surface 82 between the first and second clamping surfaces 81 ₁ and 81 _2. Is provided.
The first and second clamping surfaces 81 ₁ , 81 ₂ are provided with first and second grooves 85 ₁ , 85 ₂ (the first and second grooves 85 ₁ , 85 ₂ formed in the center of the upper surface of the cover 30 and the center of the bottom of the housing 20, respectively. The first and second recesses 83 ₁ and 83 ₂ are respectively formed so as to be respectively fitted to the _second groove 852 (not shown).
Further, first and second claws are provided at the tips of the first and second clamping surfaces 81 ₁ and 81 ₂ , and the first and second claws are used when the cover 30 and the housing 20 are sandwiched. The cover 30 and the housing 20 are grasped.

As shown in FIG. 13 (b), the housing fixture 80 is connected to the optical cable connector 1 with the cover 30 closed, and the first and second recesses 83 ₁ , 83 ₂ are the first and second grooves 85 ₁ , 85. _The cover 30 and the housing 20 are sandwiched between the housing fixtures 80 using the force that the first and second sandwiching surfaces 81 ₁ and 81 ₂ try to close inward. Thereby, it is possible to prevent the cover 30 from being opened carelessly.

  As described above, the optical cable connector of the present invention is used to connect, for example, an optical drop cable drawn into the building from outside the building and an optical drop cable laid in the building within the building. Can do.

1 is a perspective view of an optical cable connector according to a first embodiment of the present invention. It is a top view in the state where the cover 30 of the optical cable connector 1 shown in FIG. 1 was removed. FIG. 2 is a cross-sectional view of the _first optical drop cable 101 shown in FIG. ₁ . It is a principal part perspective view which shows the example of a change of the fixation structure of the 1st and 2nd optical drop cables 10 ₁ and 10 ₂ of the optical cable connector ₁ shown in FIG. It is a principal part top view of the optical cable connector by the 2nd Example of this invention. Is a view showing the first and second embodiment of a cable fixing structure 41 _1, 41 ₂ shown in FIG. 5, (a) its plan view, (b) a sectional view along line A-A of (a) It is. Is a view showing the first and second other embodiment of the cable fixing structure 41 _1, 41 ₂ shown in FIG. 5, (a) a plan view, B-B line of (b) is (a) It is sectional drawing. Is a diagram showing still another example of Figure 5 the first and second cable fixing structure 41 shown in _1, 41 _2, (a) is a plan view, C-C of (b) is (a) It is line sectional drawing. Is a view showing the first and second alternative embodiment of a cable fixing structure 41 _1, 41 ₂ shown in FIG. 5, (a) a plan view, D-D line of (b) is (a) It is sectional drawing. It is a figure which shows an example of the attachment structure to the wall surface in the building of the optical cable connector by this invention, (a) is a rear view of an optical cable connector, (b) shows the relationship between an optical cable connector and a wall surface from a side. Show. It is a figure which shows an example of the protection sleeve for the optical cable connector of this invention. It is a figure which shows the other example of the protection sleeve for the optical cable connection tools of this invention. It is a figure which shows an example of the housing fixture for the optical cable connector of this invention.

Explanation of symbols

1,100 Optical cable connector 10 ₁ , 10 ₂ First and second optical drop cables 10a ₁₁ , 10a ₁₂ , 10a ₂₁ , 10a ₂₂ tip portions 11 ₁ , 11 ₂ First and second optical fiber core wires 12 ₁₁ 12 ₁₂ Tension member 13 ₁ First covering 20 Housing 20a Third engaging claw 20b ₁ , 20b ₂ First and second engaging recesses 21 ₁ , 21 ₂ First and second cable receiving grooves 22 Fiber Connecting portions 22a ₁ and 22a ₂ First and second holding claws 25 Mechanical splices 26 ₁ and 26 ₂ First and second cable holders 26a ₁ and 26a ₂ First and second shaft members 27 ₁ and 27 ₂ First and second screws 30 Covers 30a ₁ and 30a ₂ First and second engaging claws 30b Third engaging recess 32 ₁ First convex portions 41 ₁ and 41 ₂ First and second cable fixing structures 42 ₁ 42 ₄ The first to fourth guide pin 43 _1, 43 ₂ first and second cable support section 43a ₁ first cable insertion hole 43 b ₁₁ a first screw hole 44 _11, 44 ₂₁ screws 45 _1, 45 ₂ the first and second cable support section 45a _1, 45a ₂ the first and second grooves 45b ₁₁ screw holes 46 _11, 46 ₂₁ screw 46a ₁₁ head 47a ₁ first cable support portion 47b _1, 47b ₂ first And second cable presser 47c ₁ first engaging structure 48a ₁₁ , 48a ₁₂ , 48a ₂₁ , 48a ₂₂ clamp claws 50 ₁ , 50 ₂ first and second mounting holes 50a ₁ , 50a ₂ first and second Two hook insertion portions 50b ₁ and 50b ₂ First and second hook portions 51 ₁ First hook 51a ₁ First shaft portion 51b ₁ First head portion 55 Wall surface 60 Protective sleeves 61 ₁ and 61 ₂ 1 and 2nd tube 70 protective sleeve 1 _1, 71 ₂ first and second cup-shaped member 72 _1, 72 ₂ first and second cable insertion hole 73 _1, 73 ₂ first and second screw grooves 74 ring-shaped portion 80 housing the fixture 81 ₁ , 81 ₂ First and second clamping surfaces 82 Back surface 83 ₁ , 83 ₂ First and second recesses 85 ₁ First groove

Claims (15)

An optical cable connector for connecting a first optical drop cable (10 ₁ ) drawn into the building from outside the building and a second optical drop cable (10 ₂ ) laid in the building inside the building. And
A housing (20) for securing the first and second optical drop cables in a connected state;
First and second cable housing grooves (21 ₁ , 21 ₂ ) for housing the first and second optical drop cables, respectively, are formed on the upper surface of the housing from both ends of the housing to the center of the housing. Each extending towards the part,
In the region between the first and second cable receiving grooves, the first and second optical drop cables are cut and removed from the tip together with the tension member by a predetermined length together with the tension member. A fiber connecting portion (22) for connecting the first and second optical fiber core wires (11 ₁ , 11 ₂ ) exposed from the optical drop cable is formed as a recess on the upper surface of the housing;
First and second holding claws for holding optical fiber core connecting means for connecting the first and second optical fiber cores to the fiber connecting portion from both sides in the width direction of the optical fiber core connecting means ( 22a ₁ , 22a ₂ )
In the housing, the distal ends of the first and second optical drop cables including the tension member (12 ₁₁ , 12 ₁₂ , 12 ₂₁ , 12 ₂₂ ) , the first and second optical fiber core wires and the coating are attached to the housing. An optical drop cable fixing means for fixing is provided,
An optical cable connector characterized by that. The optical drop cable fixing means is
The first cable housing groove is attached to the upper surface of the housing so as to cross the width direction of the first cable housing groove, and one end thereof is supported by the _first shaft member (26a ₁ ). A first cable presser (26 ₁ ) rotatably supported by the housing and having the other end fixed to the housing by a _first screw (27 ₁ );
The second cable housing groove is attached to the upper surface of the housing so as to traverse the width direction of the second cable housing groove, and one end thereof is formed by the second shaft member (26a ₂ ). A second cable presser (26 ₂ ) rotatably supported by the housing and having the other end fixed to the housing by a _second screw (27 ₂ );
The optical cable connector according to claim 1, further comprising:   The depths of the first and second cable receiving grooves are made shallower than the thicknesses of the first and second optical drop cables, and the portion protruding from the first and second cable receiving grooves is the first. The optical cable connector according to claim 2, wherein the optical cable connector is pressed by the second cable presser.   In a state where the first and second cable holders are fixed to the housing, the first and second cable holders are arranged in regions facing the first and second cable receiving grooves of the first and second cable holders. The optical cable connector according to claim 2, wherein a convex portion is provided, and the first and second optical drop cables are respectively pressed by the first and second convex portions. A cover (30) for protecting the first and second optical fiber core wires of the first and second optical drop cables after connection;
The optical drop cable fixing means includes first and second convex portions (32 ₁ , 32) provided in regions of the cover facing the first and second cable receiving grooves in a state where the cover is closed, respectively. ₂ )
The optical cable connector according to claim 1, wherein: An optical cable connector for connecting a first optical drop cable (10 ₁ ) drawn into the building from outside the building and a second optical drop cable (10 ₂ ) laid in the building inside the building. And
A housing (20) for securing the first and second optical drop cables in a connected state;
Optical drop cable fixing means,
First and second cable housing grooves (21 ₁ , 21 ₂ ) for housing the first and second optical drop cables, respectively, are formed on the upper surface of the housing from both ends of the housing to the center of the housing. Each extending towards the part,
In the region between the first and second cable receiving grooves, the first coating (13 ₁ ) of the first optical drop cable extends along the longitudinal direction at the center in the width direction of the first optical drop cable. A first optical fiber core (11 ₁ ) exposed by opening the first optical drop cable into a two end portions (10a ₁₁ , 10a ₁₂ ) by opening the first optical drop cable by a predetermined length. The second cover (13 ₂ ) of the second optical drop cable is cut by a predetermined length along the longitudinal direction at the center in the width direction of the second optical drop cable, and the second optical drop cable is cut. of the distal end portion of the two tips portion (10a _21, 10a ₂₂₎ a second optical fiber which is exposed by the branch (11 ₂₎ and the fiber connecting portion for connecting the (22) of said housing As a recess on the top surface Formed,
First and second holding claws for holding optical fiber core connecting means for connecting the first and second optical fiber cores to the fiber connecting portion from both sides in the width direction of the optical fiber core connecting means ( 22a ₁ , 22a ₂ )
The optical drop cable fixing means is
The fiber coupling portion is provided on one of both sides of the position where the first and second optical fiber core wires are connected, and includes the tension member and the first coating of the first optical drop cable. one of the two tips portion (10a ₁₁₎ one of the tension members and said two tip portion including a second coating of said second optical drop cable (10a ₂₁₎ and the first for securing to the housing Cable fixing structure (41 ₁ ),
The fiber connecting portion is provided on the other side of the both sides of the position where the first and second optical fiber core wires are connected, and includes the tension member and the first covering of the first optical drop cable. A second for fixing the other of the two tip portions (10a ₁₂ ) and the other of the two tip portions (10a ₂₂ ) including the tension member and the second covering of the second optical drop cable to the housing. Cable fixing structure (41 ₂ ) ,
The two tip portions (10a ₁₁ , 10a ₁₂ ) including the tension member and the first covering of the first optical drop cable, and the two members including the tension member and the second covering of the second optical drop cable. Tip portions (10a ₂₁ , 10a ₂₂ ) are led to the first and second cable fixing structures in the fiber connecting portion;
An optical cable connector characterized by that. The first cable fixing structure is:
A first cable insertion hole (43a ₁ ) into which one of the two tip portions of the first optical drop cable and one of the two tip portions of the second optical drop cable is inserted; and, the first cable support section longitudinal ends two screw holes on the outer surface reaches a first cable insertion hole (43 b _11, 43 b ₁₂₎ is opened (43 _1),
A second cable insertion hole (43a ₂ ) into which the other of the two tip portions of the first optical drop cable and the other of the two tip portions of the second optical drop cable are inserted is formed; and, a second cable support section longitudinal ends two screw holes on the outer surface reaches the cable insertion hole of the second (43 b _21, 43 b ₂₂₎ is opened and (43 _2),
Two screws (44 ₁₁ , 44 ₁₂ ) respectively screwed into the two screw holes opened in the first cable support;
Two screws (44 ₂₁ , 44 ₂₂ ) respectively screwed into the two screw holes opened in the second cable support,
The optical cable connector according to claim 6. The first cable fixing structure is:
A first cable formed with a _first groove (45a ₁ ) into which one of the two tip portions of the first optical drop cable and one of the two tip portions of the second optical drop cable are fitted. A support (45 ₁ );
Two screw holes (45b ₁₁ , 45b ₁₂ ) respectively formed at both longitudinal ends of the first cable support portion at positions adjacent to the first groove;
Two screws (46 ₁₁ , 46 ₁₂ ) respectively screwed into the two screw holes,
The second cable fixing structure is
A second cable in which a second groove (45a ₂ ) into which the other of the two tip portions of the first optical drop cable and the other of the two tip portions of the second optical drop cable are fitted is formed. A support (45 ₂ );
Two screw holes (45b ₂₁ , 45b ₂₂ ) respectively formed at both ends in the longitudinal direction of the second cable support portion at positions adjacent to the second groove;
Two screws (46 ₂₁ , 46 ₂₂ ) respectively screwed into the two screw holes,
The optical cable connector according to claim 6. The first cable fixing structure is:
A first cable support (47a ₁ ) for supporting one of the two tip portions of the first optical drop cable and one of the two tip portions of the second optical drop cable;
A first cable pressing portion (47b ₁ ) connected to the first cable support portion so as to be openable and closable,
The second cable fixing structure is
A second cable support (47a ₂ ) for supporting the other of the two tip portions of the first optical drop cable and the other of the two tip portions of the second optical drop cable;
A second cable pressing portion (47b ₂ ) connected to the second cable support portion so as to be openable and closable,
Between one of the two tip portions of the first optical drop cable and the two tip portions of the second optical drop cable between the first cable support portion and the first cable holding portion. A first recess for sandwiching one is formed,
Between the second cable support portion and the second cable holding portion, the other of the two tip portions of the first optical drop cable and the two tip portions of the second optical drop cable A second recess for sandwiching the other is formed,
A first engagement structure (47c ₁ ) including an engagement claw and an engagement groove is formed on the first cable support portion and the first cable pressing portion,
A second engagement structure (47c ₂ ) including an engagement claw and an engagement groove is formed on the second cable support portion and the second cable pressing portion,
The optical cable connector according to claim 6. The first cable fixing structure is:
A pair of clamp claws (48a ₁₁ , 48a ₁₂ ) sandwiching one of the two tip portions of the first optical drop cable from the side;
And a second optical drop the 2 horns one the pair of sandwiching from the side clamp jaws of the tip portion of the cable (48a _13, 48a _14),
The second cable fixing structure is
A pair of clamp claws (48a ₂₁ , 48a ₂₂ ) sandwiching the other of the two tip portions of the first optical drop cable from the side;
A pair of clamp claws (48a ₂₃ , 48a ₂₄ ) that sandwich the other of the two tip portions of the second optical drop cable from the side,
The optical cable connector according to claim 6. First and second mounting holes (50 ₁ , 50 ₂ ) are formed on the back surface of the optical cable connector,
First and second hooks (51 ₁ , 51 ₂ ) provided on the wall surface (55) and the floor surface of the room are inserted into the first and second mounting holes, respectively.
The optical cable connector according to any one of claims 1 to 10, wherein The optical cable connector is protected by a protective sleeve (60);
The protective sleeve has at least one rubber tube (61 ₁₎ attached to at least one of the first and second optical drop cables with one end extending from the housing in the vicinity of the housing of the optical cable connector. 61 ₂ )
The optical cable connector according to any one of claims 1 to 11 , wherein the optical cable connector is provided. The optical cable connector is protected by a protective sleeve (70);
The protective sleeve includes a cylindrical sleeve having a configuration in which the first and second cup-shaped members (71 ₁ , 71 ₂ ) face each other so as to surround the optical cable connector;
First and second cable insertion holes (72 ₁ , 72 ₂ ) through which the first and second optical drop cables are respectively inserted are formed at the bottom side end portions of the first and second cup-shaped members. And
First and second screw grooves (73 ₁ , 73 ₂ ) are formed on the inner peripheral surfaces of the open side end portions of the first and second cup-shaped members,
The outer surface of the optical cable connector supports the open side end portions of the first and second cup-shaped members at the longitudinal center of the optical cable connector, and the first and second outer peripheral surfaces support the first and second A ring-shaped portion (74) is formed in which threads corresponding to the first and second thread grooves of the cup-shaped member are formed;
The optical cable connector according to any one of claims 1 to 11 , wherein the optical cable connector is provided. The housing is further provided with a cover (30) that is openably and closably connected to sides along the longitudinal direction and that covers the housing when closed to the housing,
The sides of the cover and the housing that are opposite to the sides connected to each other are configured by engaging claws (30a ₁ , 30a ₂ , 20a) and engaging recesses (20b ₁ , 20b ₂ , 30b) that engage with each other. An engagement structure is provided,
The optical cable connector according to claim 1, wherein the optical cable connector is provided. A cover (30) that covers the housing in a state where sides along the longitudinal direction of the housing are connected to each other so as to be openable and closable with respect to the housing;
A housing fixture (80) comprising first and _second clamping surfaces (81 ₁ , 81 ₂ ) that elastically sandwich the cover and the housing and a back surface (82) between the first and second clamping surfaces. ) And
The first and second grooves are fitted into the first and second clamping surfaces respectively with first and second grooves (85 ₁ , 85 ₂ ) formed on the upper surface of the cover and the bottom surface of the housing, respectively. Recesses (83 ₁ , 83 ₂ ) are formed,
First and second claws are provided at the ends of the first and second clamping surfaces,
The optical cable connector according to claim 1, wherein the optical cable connector is provided.

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