JP2004157484A - Joint case for optical fiber cable - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a joint case for an optical fiber cable, which permits a high degree of freedom in the attachment position, and which can watertightly partition the inside of the joint case from the outside of the joint case. <P>SOLUTION: A casing 11, in which a housing space 16 for housing a connection part and an optical fiber 5 exposed in the vicinity thereof is formed, in which first-fourth cable insertion through-holes 25a-25d for extending the optical cable 4 over the housing space 16 and the outer space outside the housing space 16 are formed, and in which a seal member charging recessed part 13 to be filled with a seal member for watertightly partitioning the housing space 16 from the outer space outside the housing space is formed, a hold pieces 34 and 35 capable of holding the connection parts of the number equal to or more than the number of the optical fibers 5 of the optical cable 4, lock pieces 37a and 37b for locking a support wire 8, and an engagement part for engaging a fixation jig fixed to a building structure are provided. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a joint case that covers a connection portion where optical fibers exposed from an optical fiber cable in which an optical fiber and a protection line for protecting the optical fiber are covered with a common jacket are connected.
[0002]
[Prior art]
A communication network for transmitting and receiving signals representing information is constructed so as to connect communication equipment of a base station and terminal equipment at a terminal installation place such as a general house. This communication network is constructed using optical fibers in order to realize large-capacity information transmission, high-speed information transmission, and highly reliable information transmission. Since an optical fiber is easily damaged by an external factor by itself, an optical fiber cable in which the optical fiber is covered with a jacket is used in constructing a communication network. More specifically, a switch called a node is provided between the communication equipment of the base station and the terminal equipment, and a communication network portion between the communication equipment and the switch is, for example, 100 cores or 1000 cores. A multi-core optical fiber is constructed by a multi-core cable covered with a jacket. A communication network portion between the branching device and the terminal device is constructed by a drop-in cable such as a drop cable. The drop cable is a cable having one or two optical fibers. The drop cable is branched from the multi-core cable by a branching device and is led to a terminal installation location. The multi-core cable has a connection between the communication equipment and the branching device, and a jacket is removed at and around the connection, and the multi-core cable is covered by a joint case for protecting the exposed optical fiber. . As described above, by providing a connection part in the middle of the communication equipment and the branching device, it is possible to construct a communication network over a wide range.
[0003]
A single drop cable may be used between the branching device and the terminal device, but a connection portion may be provided to facilitate repair and inspection. The multi-core cable and the drop cable have different specifications such as the number of optical fibers and the thickness of the cable, so the connection provided between the branching device and the terminal device is used for the multi-core cable connection. The joint case cannot be used as it is. Therefore, a dedicated joint case is used for a connection portion provided between the branching device and the terminal device.
[0004]
FIG. 38 is a sectional view showing a joint case 220 of a conventional optical fiber cable. The joint case 220 of the related art is formed in a cylindrical shape, and cable insertion holes for extending the optical fiber cable inside and outside the joint case 220 are formed on both longitudinal sides of the joint case. I have. In the joint case 220, the exposed optical fibers in the vicinity of the connection part are housed in the joint case 220 in a state of being arranged substantially linearly. The joint case 220 is configured to be supported by an optical fiber housed inside the joint case.
[0005]
[Problems to be solved by the invention]
Since the joint case 220 has a configuration in which the cable insertion holes are formed on both sides in the longitudinal direction of the joint case 220, the optical fiber cable is inserted through the two cable insertion holes on both sides in the longitudinal direction of the joint case 220. Therefore, they can only be arranged in a straight line.
[0006]
In addition, in the joint case 220, no consideration is given to infiltration of water into the joint case 220.
[0007]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a joint case for an optical fiber cable capable of increasing a degree of freedom of an attaching position.
[0008]
Another object of the present invention is to provide a joint case of an optical fiber cable which can partition the inside of the joint case from the outside of the joint case in a watertight manner.
[0009]
[Means for Solving the Problems]
According to the first aspect of the present invention, an optical fiber is exposed from an optical fiber cable in which protective wires are arranged on both sides thereof and covered with a common jacket, and the exposed optical fibers are connected to each other. A joint case that covers the part,
A connection space where the optical fibers are connected to each other and a storage space in which the exposed optical fiber in the vicinity thereof is stored are formed, and extend from the storage space to an external space outside the storage space in different directions from each other, and the storage space and An optical fiber cable joint case including a casing in which at least three or more cable insertion holes for extending the optical fiber cable over an external space are formed.
[0010]
According to the present invention, the optical fiber cable is drawn out from the inside of the joint case for protecting the exposed optical fiber near the connection portion and the vicinity thereof, through the two cable insertion holes to the outside of the joint case. The casing has at least three or more cable insertion holes extending from the storage space to the external space outside the storage space in different directions from each other and extending the optical fiber cable over the storage space and the external space. ing. Therefore, two cable insertion holes can be arbitrarily selected from at least three or more cable insertion holes.
[0011]
In this way, the connection part to which the optical fiber is connected and the exposed optical fiber in the vicinity thereof are stored in the joint space in a state where the optical fiber cable is not burdened according to the shape of the wiring path in which the optical fiber cable is to be wired. Can be stored in Conversely, even when the posture of the joint case is restricted due to the shape of the installation place of the joint case itself, the connection portion to which the optical fiber is connected without burdening the optical fiber cable and The exposed optical fiber in the vicinity can be stored in the storage space of the joint case.
[0012]
According to a second aspect of the present invention, an optical fiber is exposed from an optical fiber cable in which protective wires are arranged on both sides thereof and covered with a common jacket, and the exposed optical fibers are connected to each other. A joint case that covers the part,
A connection space for connecting the optical fibers to each other and a storage space for storing the exposed optical fiber in the vicinity thereof are formed, and a cable insertion for extending the optical fiber cable over the storage space and an external space outside the storage space. A casing in which a hole is formed;
A joint case for an optical fiber cable, comprising: a holding piece capable of holding at least the same number of connection portions as the number of optical fibers of the optical fiber cable.
[0013]
ADVANTAGE OF THE INVENTION According to this invention, the same number or more connection parts as the number of optical fibers of an optical fiber cable can be gripped by a gripping piece. Therefore, even when the optical fiber cable has a plurality of optical fibers, the plurality of exposed optical fibers near the connection portion are stored in the storage space of the joint case that protects the connection portion and the exposed optical fibers near the connection portion. can do. In addition, the degree of freedom of arrangement of the connection portion in the joint case is increased, and the storage of the optical fiber in the connection portion and its vicinity can be facilitated.
[0014]
According to a third aspect of the present invention, an optical fiber is exposed from an optical fiber cable in which protective wires are arranged on both sides thereof and covered with a common jacket, and the exposed optical fibers are connected to each other. A joint case that covers the part,
A connection portion where each optical fiber is connected to each other and a storage space in which the exposed optical fiber in the vicinity thereof is stored are formed, and the storage space is filled with a sealing material for partitioning the storage space from an external space outside the storage space in a watertight manner. A joint case for an optical fiber cable, comprising a casing in which the sealing material filling recess is formed.
[0015]
According to the present invention, by filling the sealing material filling recess with the sealing material, the storage space of the joint case for protecting the connection portion and the exposed optical fiber in the vicinity thereof is water-tightly separated from the external space outside the storage space. Can be Therefore, it is possible to prevent water from entering the storage space from the outside, and it is possible to protect the connection portion from water.
[0016]
According to a fourth aspect of the present invention, an optical fiber is exposed from an optical fiber cable in which protective wires are arranged on both sides thereof and covered with a common jacket, and the exposed optical fibers are connected to each other. A joint case that covers the part,
A connection space for connecting the optical fibers to each other and a storage space for storing the exposed optical fiber in the vicinity thereof are formed, and a cable insertion for extending the optical fiber cable over the storage space and an external space outside the storage space. A casing in which a hole is formed;
A hook piece provided on the outer side of the storage space to hook a suspension line for hanging an optical fiber cable,
An optical fiber cable joint case, comprising: a hook provided on an outer side of the storage space for hooking a fixing jig fixed to a building structure.
[0017]
According to the present invention, a suspension line for suspending an optical fiber cable is hooked on a hooking piece provided on the outer side of a storage space of a joint case for protecting an exposed optical fiber near the connection portion. Stop it. The joint case can be provided so as to be hung on a hanging line hooked on the hooking piece. The weight of the joint case is supported by the suspension line. This prevents the weight of the joint case from acting on the connection portion housed in the storage space and the optical fiber in the vicinity thereof, and the connection state of the connection portion can be maintained.
[0018]
The joint case can be provided on the building structure by hooking the fixing jig fixed to the building structure on the hook provided on the outer side of the storage space. The own weight of the joint case is supported by a building structure which is attached by attaching a fixing jig to the engaging portion. This prevents the weight of the joint case from acting on the connection portion housed in the storage space and the optical fiber in the vicinity thereof, and the connection state of the connection portion can be maintained.
[0019]
Thus, the joint case can be attached, for example, in the middle of an optical fiber cable erected between the branching device and a general house, and also can be attached to a building structure. Therefore, the degree of freedom of the mounting position of the joint case can be increased, and, as described above, the own weight of the joint case is prevented from acting on the connection portion housed in the housing space and the optical fiber in the vicinity thereof, The connection state of the connection portion can be maintained.
[0020]
According to a fifth aspect of the present invention, an optical fiber is exposed from an optical fiber cable in which protective wires are arranged on both sides thereof and covered with a common jacket, and the exposed optical fibers are connected to each other. A joint case that covers the part,
A connection space where the optical fibers are connected to each other and a storage space in which the exposed optical fiber in the vicinity thereof is stored are formed, and extend from the storage space to an external space outside the storage space in different directions from each other, and the storage space and At least three or more cable insertion holes for extending the optical fiber cable over the external space are formed, and a seal material filling recess for filling a seal material for partitioning the storage space from the external space outside the storage space in a watertight manner. A casing in which a place is formed;
Gripping pieces capable of gripping at least the same number of connection portions as the number of optical fibers of the optical fiber cable;
A hook piece provided on the outer side of the storage space to hook a suspension line for hanging an optical fiber cable,
An optical fiber cable joint case, comprising: a hook provided on an outer side of the storage space for hooking a fixing jig fixed to a building structure.
[0021]
According to the present invention, the optical fiber cable is drawn out from the inside of the joint case for protecting the exposed optical fiber near the connection portion and the vicinity thereof, through the two cable insertion holes to the outside of the joint case. The casing has at least three or more cable insertion holes extending from the storage space to the external space outside the storage space in different directions from each other and extending the optical fiber cable over the storage space and the external space. ing. Therefore, two cable insertion holes can be arbitrarily selected from at least three or more cable insertion holes.
[0022]
In this way, the connection part to which the optical fiber is connected and the exposed optical fiber in the vicinity thereof are stored in the joint space in a state where the optical fiber cable is not burdened according to the shape of the wiring path in which the optical fiber cable is to be wired. Can be stored in Conversely, even when the posture of the joint case is restricted due to the shape of the installation place of the joint case itself, the connection portion to which the optical fiber is connected without burdening the optical fiber cable and The exposed optical fiber in the vicinity can be stored in the storage space of the joint case.
[0023]
The number of connecting portions equal to or more than the number of optical fibers of the optical fiber cable can be gripped by the gripping pieces. Therefore, even if the optical fiber cable has a plurality of optical fibers, the plurality of optical fibers exposed near the connection portion can be stored in the storage space of the joint case. In addition, the degree of freedom of arrangement of the connection portion in the joint case is increased, and the storage of the optical fiber in the connection portion and its vicinity can be facilitated.
[0024]
By filling the sealing material filling recess with the sealing material, the storage space of the joint case is separated from the external space outside the storage space in a watertight manner. Therefore, it is possible to prevent water from entering the storage space from the outside, and it is possible to protect the connection portion from water.
[0025]
A suspension line for suspending the optical fiber cable is hooked on a hook piece provided outside the storage space of the joint case. The joint case can be provided so as to be hung on a hanging line hooked on the hooking piece. The weight of the joint case is supported by the suspension line. This prevents the weight of the joint case from acting on the connection portion housed in the storage space and the optical fiber in the vicinity thereof, and the connection state of the connection portion can be maintained.
[0026]
The joint case can be provided on the building structure by hooking the fixing jig fixed to the building structure on the hook provided on the outer side of the storage space. The own weight of the joint case is supported by a building structure which is attached by attaching a fixing jig to the engaging portion. This prevents the weight of the joint case from acting on the connection portion housed in the storage space and the optical fiber in the vicinity thereof, and the connection state of the connection portion can be maintained.
[0027]
Thus, the joint case can be attached, for example, in the middle of an optical fiber cable erected between the branching device and a general house, and also can be attached to a building structure. Therefore, the degree of freedom of the mounting position of the joint case can be increased, and, as described above, the own weight of the joint case is prevented from acting on the connection portion housed in the housing space and the optical fiber in the vicinity thereof, The connection state of the connection portion can be maintained.
[0028]
The present invention according to claim 6 is characterized in that it has a holding piece that can be elastically deformed and that can elastically hold the connection portion of the optical fiber.
[0029]
According to the present invention, the holding piece is elastically deformable, deforms in accordance with the connection part, and can hold the connection part regardless of the structure of the connection part. For example, a plurality of types of connecting portions such as a mechanical splice and a fusion sleeve can be gripped by the same gripping piece.
[0030]
In each of the above-described embodiments of the present invention, the exposed optical fiber in the vicinity of the connection portion may be accommodated by being curved in the accommodation space of the joint case. This allows the optical fiber to be stored in the storage space of the joint case regardless of the length of the optical fiber exposed. The exposed portion is an extra length for facilitating the connection operation when connecting by the connection portion. If the extra length is large, the connection operation can be facilitated. As described above, even if the exposed optical fiber is long, it can be stored in the storage space of the joint case. Therefore, by using such a joint case, the exposed optical fiber portion (extra length) can be sufficiently reduced. , And it can contribute to improving the workability of the connection work.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a perspective view showing a joint case 1 of an optical fiber cable according to a first embodiment of the present invention. FIG. 2 is a perspective view showing an installation location of the joint case 1 of the optical fiber cable. FIG. 3 is a sectional view showing the optical fiber cable 4. An optical fiber cable joint case (hereinafter sometimes simply referred to as a “joint case”) 1 is composed of two optical fiber cables (hereinafter sometimes simply referred to as an “optical cable”) 4a and 4b, respectively. This is a case that covers and protects the exposed optical fibers 5a and 5b and a connection portion where the optical fibers 5a and 5b are connected to each other. Hereinafter, when referring to an unspecified optical cable and optical fiber, the suffixes “a” and “b” may be omitted in the reference numerals, such as “optical cable 4” and “optical fiber 5”.
[0032]
The optical fiber 5 is, for example, a communication network for transmitting and receiving a signal representing information. In order to construct a communication network capable of realizing large-capacity information transmission, high-speed information transmission, and highly reliable information transmission. The used optical fiber may be used. The optical fiber 5 is constructed so as to connect a communication facility 101 of the base station 100 and a communication terminal device 103 installed in a building 102 such as a general house. More specifically, a branching device 104 called a node is provided between the communication equipment 101 of the base station 100 and the communication terminal device 103. A communication network portion between the communication facility 101 and the branching device 104 is constructed by a multi-core cable 105 in which a multi-core optical fiber 5 such as 100 cores or 1000 cores is covered with a jacket 7. A communication network portion between the branching device 104 and the communication terminal device 103 is constructed by a drop-in cable such as a drop cable 106. The drop cable 106 has one or two optical fibers 5 and is a cable that covers the optical fibers 5 with the jacket 7. The building 103 such as a general house where the 103 is installed is pulled in.
[0033]
As described above, the communication network portions between the communication equipment 101 and the branching device 104 and between the branching device 104 and the communication terminal device 103 are connected to the optical fiber 5 in order to prevent the optical fiber 5 from being damaged by an external force. And the optical cable 4 such as the multi-core cable 105 and the drop cable 106. As a result, the portion arranged outdoors can be protected from external stimuli such as wind and rain. As shown in FIG. 3, the optical cable 4 includes one or more optical fibers 5, two optical fibers 5 in the present embodiment, two protective wires 6 arranged on both sides of the optical fiber 5, and one protective wire 6. The optical fiber 5 and the support wire 8 disposed on the opposite side are arranged so as not to be in contact with each other, and are covered with a common jacket 7.
[0034]
Each optical fiber 5 has a core covered with a clad, and the clad further covered with a protective coating. The core and the clad are made of, for example, glass, and the protective coating is made of, for example, a synthetic resin. Each protection line 6 is provided to protect each optical fiber 5 from bending due to an external force such as a wind pressure load, and the support line 8 is provided to protect the optical fiber 5 from a tensile force acting on the optical cable 4 due to its own weight or the like. Is provided. Each of the protection line 6 and the support line 8 is made of, for example, steel or a fiber reinforced synthetic resin (Fiber Reinforced Plastic; abbreviation: FRP).
[0035]
If the communication equipment 101 and the branch device 104, and the branch device 104 and the communication terminal device 103 are connected by only one optical cable 4, repair and inspection become difficult, so the communication equipment 101 and the branch device 104 and the branch device 104 are difficult. The communication terminal device 103 is connected using a plurality of, for example, two optical cables 4a and 4b that are connected to each other. When a plurality of optical cables 4 are used as described above, the optical fibers 5 of each optical cable 4 are connected. More specifically, the optical fiber 5 of one optical cable 4a, for example, one optical fiber 5 of the optical cable 4a on the base station 100 side, and the optical fiber 5 of the other optical cable 4b, for example, one of the optical cable 4b on the demand side The optical fiber 5 is connected. Also, the optical fiber 5 of one optical cable 4a, for example, the other optical fiber 5 of the optical cable 4a on the base station 100 side, and the optical fiber 5 of the other optical cable 4b, for example, the other optical fiber 5 of the optical cable 4b on the demand side, Connected. The ends of the optical fibers 5 that are connected to each other are exposed by removing the jacket 7 and are connected to each other so as to be able to perform optical communication using, for example, a mechanical splice or by fusion bonding. .
[0036]
In order to house and protect the connection portion to which such an optical fiber 5 is connected together with each optical fiber 5 exposed from the optical cable 4, the connection portion between the communication facility 101 and the branching device 104 and the branching device 104 A joint case 1 is provided between the communication terminal device 103 and the communication terminal device 103.
[0037]
The joint case 1 has a case body 2 and a lid 3. The case body 2 and the lid 3 are configured to be detachable. The joint case 1 can be opened and closed by attaching and detaching the case body 2 and the lid 3. The case main body 2 and the lid 3 are made of a material having weather resistance, for example, polyethylene, polypropylene, acrylonitrile butadiene styrene (abbreviation: ABS) copolymer resin, or the like.
[0038]
In the description of the case body 2, unless otherwise limited, the longitudinal direction refers to the longitudinal direction of the case body 2, the width direction refers to the width direction of the case body 2, and the thickness direction refers to the thickness direction of the case body 2. Means In the description of the lid 3, unless otherwise limited, the longitudinal direction refers to the longitudinal direction of the lid 3, the width direction refers to the width direction of the lid 3, and the thickness direction refers to the thickness of the lid 3. Means direction.
[0039]
The case main body 2 has a main body bottom 15 formed in a rectangular flat plate shape. The case main body 2 has a substantially flat and rectangular shape, and extends around the entire circumference, and has a main body peripheral portion 12 protruding from the main body bottom 15 in one thickness direction. Further, a first side wall portion 14a, a second side wall portion 14b, a third side wall portion 14c, and a fourth side wall portion 14d are formed inside the main body peripheral edge portion 12 at an interval from the main body peripheral edge portion 12. The first to fourth side wall portions 14a to 14d are provided along the peripheral portion 12 of the main body in the circumferential direction. The first side wall portion 14a is formed in a plate shape so as to protrude in one thickness direction from a main body bottom portion 15 near one end in the width direction of the case main body 2. The central portion in the longitudinal direction of the first side wall portion 14a is formed so as to be parallel to the longitudinal direction of the case body 2. The portion of the first side wall portion 14a from the center in the longitudinal direction to both ends in the longitudinal direction is formed to be inclined so as to approach the other end in the width direction toward both ends in the longitudinal direction.
[0040]
The second side wall portion 14b is formed in a plate shape that protrudes in one thickness direction from the main body bottom portion 15 at one longitudinal end of the case main body 2 and extends in the width direction, and a portion near the other end in the width direction has a width. It is formed so as to be inclined in the other longitudinal direction toward the other end in the direction. The third side wall portion 14c is formed in a plate shape protruding in one thickness direction from the main body bottom portion 15 at the other end in the width direction of the case main body 2, and is parallel to the longitudinal center portion of the first side wall portion 14a. Formed. The fourth side wall portion 14d is formed in a plate shape protruding in one thickness direction from the main body bottom portion 15 at the other end portion in the longitudinal direction of the case main body 2 and extending in the width direction, and has a portion near the other end portion in the width direction. It is formed so as to be inclined in one longitudinal direction toward the other end in the width direction.
[0041]
Between the main body peripheral portion 12 and the first to fourth side wall portions 14a to 14d, a sealing material filling recess 13 for filling a sealing material is formed extending endlessly over the entire circumference. The case main body 2 is provided with a main body recess 16 which faces the main body bottom portion 15 and opens in one direction in the thickness direction.
[0042]
The lid 3 is substantially flat and rectangular, and has a lid bottom 51 formed in a rectangular flat plate shape. The casing 11 includes the main body bottom 15 and the lid bottom 51. With the joint case 1 closed, a storage space 16 facing the main body recess 16 and the lid bottom 51 is formed. In the storage space 16 formed in this manner, the connection portion to which each optical fiber 5 is connected and the exposed optical fiber 5 in the vicinity thereof can be stored. Since the main body recess of the case main body 2 and the storage space are substantially the same space, they are denoted by the same reference numeral “16”.
[0043]
FIG. 4 is a front view showing the case main body 2. FIG. 5 is a plan view showing the case main body 2. FIG. 6 is a rear view showing the case main body 2. FIG. 7 is a cross-sectional view taken along the line AA of FIG. 4. FIG. 8 is a cross-sectional view taken along line BB of FIG. FIG. 9 is a right side view showing the case main body 2.
[0044]
A first locking portion 17 is provided at a position near one end in the width direction of one end in the longitudinal direction of the case main body 2. A plurality of, in this embodiment, five first locking pieces 21a are formed in the first locking portion 17 at intervals in the longitudinal direction. In the first locking portion 17, a plurality of, in this embodiment, five second locking pieces 21b are formed at intervals in the longitudinal direction, and have a width different from that of the first locking piece 21a. They are arranged facing each other with an interval in the direction. However, in FIG. 1, a part of the first and second locking pieces 21a and 21b is omitted for easy understanding. More specifically, as shown in FIG. 4, the shape of the first locking piece 21a projected on an imaginary plane extending parallel to the main body bottom portion 15 is substantially rectangular, and one side thereof is formed on the first side wall portion 14a. The five first locking pieces 21a are formed to be inclined such that the first locking piece 21a closer to the other end in the longitudinal direction is closer to one end in the width direction. More specifically, as shown in FIG. 4, the shape of the second locking piece 21 b projected on an imaginary plane extending parallel to the main body bottom portion 15 is substantially rectangular, and one side thereof is formed on the second side wall portion 14 b. The second locking pieces 21b that are connected to each other and that are closer to the other end in the longitudinal direction of the five second locking pieces 21b are inclined so as to be closer to one end in the width direction.
[0045]
A second locking portion 18 is provided at a position near one end in the width direction at the other end in the longitudinal direction of the case main body 2. A plurality of, in this embodiment, five first locking pieces 22a are formed in the second locking portion 18 at intervals in the longitudinal direction. Further, a plurality of, in this embodiment, five second locking pieces 22b are formed on the second locking portion 18 at intervals from each other in the longitudinal direction, and have a width different from that of the first locking piece 22a. They are arranged facing each other with an interval in the direction. However, in FIG. 1, a part of the first and second locking pieces 22a and 22b is omitted for easy understanding. More specifically, as shown in FIG. 4, the shape of the first locking piece 22a projected on an imaginary plane extending parallel to the main body bottom portion 15 is substantially rectangular, and one side thereof is formed on the first side wall portion 14a. The first locking pieces 22a are formed so as to be continuous and inclined such that the first locking piece 22a closer to one longitudinal end of the five first locking pieces 22a approaches one end in the width direction. More specifically, as shown in FIG. 4, the shape of the second locking piece 22b projected on an imaginary plane extending parallel to the main body bottom portion 15 is substantially rectangular, and one side thereof is formed on the fourth side wall portion 14d. The second locking pieces 22b that are connected to each other and that are closer to one end in the longitudinal direction of the five second locking pieces 22b are formed to be inclined so as to approach one end in the width direction.
[0046]
A third locking portion 19 is provided at a position of one end in the longitudinal direction of the case body 2 near the other end in the width direction. A plurality of, in this embodiment, five first locking pieces 23a are formed in the third locking portion 19 at intervals in the width direction. Further, a plurality of, in this embodiment, five second locking pieces 23b are formed in the third locking portion 19 at an interval from each other in the width direction. They are arranged facing each other with an interval in the direction. However, in FIG. 1, a part of the first and second locking pieces 23a and 23b is omitted for easy understanding. More specifically, as shown in FIG. 4, the shape of the first locking piece 23a projected on an imaginary plane extending parallel to the main body bottom portion 15 is substantially rectangular, and one side thereof is formed on the second side wall portion 14b. The first locking pieces 23a that are connected to each other and that are closer to one end in the width direction of the five first locking pieces 23a are formed to be inclined so as to approach one end in the longitudinal direction. More specifically, as shown in FIG. 4, the shape of the second locking piece 23b projected on an imaginary plane extending parallel to the main body bottom 15 is substantially rectangular, and one side of the second locking piece 23b is formed on the third side wall 14c. The second locking pieces 23b that are connected to each other and that are closer to one end in the width direction of the five second locking pieces 23b are formed to be inclined so as to approach one end in the longitudinal direction.
[0047]
A fourth locking portion 20 is provided at a position near the other end in the width direction of the other end in the longitudinal direction of the case main body 2. A plurality of, in this embodiment, five first locking pieces 24a are formed on the fourth locking portion 20 at intervals in the width direction. In the fourth locking portion 20, a plurality of, in this embodiment, five second locking pieces 24b are formed at an interval from each other in the width direction. They are arranged facing each other with an interval in the direction. However, in FIG. 1, a part of the first and second locking pieces 24a and 24b is omitted for easy understanding. More specifically, as shown in FIG. 4, the shape of the first locking piece 24a projected on an imaginary plane extending parallel to the main body bottom portion 15 is substantially rectangular, and one side thereof is formed on the fourth side wall portion 14d. The first locking pieces 24a are formed so as to be continuous and inclined so that the first locking piece 24a closer to one end in the width direction of the five first locking pieces 24a approaches the other side in the longitudinal direction. More specifically, as shown in FIG. 4, the shape of the second locking piece 24b projected on an imaginary plane extending parallel to the main body bottom portion 15 is substantially rectangular, and one side thereof is formed on the third side wall portion 14c. It is formed so as to be continuous and inclined such that the second locking piece 24b closer to one end in the width direction of the five second locking pieces 24b approaches the other end in the longitudinal direction.
[0048]
In addition, the optical cable 4 is opened at one side in the thickness direction of the main body peripheral portion 12 of the case main body 2, extends from the storage space 16 to an external space outside the storage space 16 in different directions, and extends over the storage space 16 and the external space. A first cable insertion hole 25a, a second cable insertion hole 25b, a third cable insertion hole 25c, and a fourth cable insertion hole 25d are formed. The first cable insertion hole 25a is formed at a position near one end in the width direction at one end in the length direction so as to be inclined toward one side in the width direction toward one side in the length direction. The second cable insertion hole 25b is formed at a position near one end in the width direction at the other end in the longitudinal direction and is inclined so as to approach the other in the width direction toward the other end in the longitudinal direction. The third cable insertion hole 25c is formed at a position near one end in the longitudinal direction at one end in the longitudinal direction, and is inclined so as to approach one end in the width direction toward one end in the longitudinal direction. The fourth cable insertion hole 25d is formed at a position near the other end in the width direction at the other end in the longitudinal direction and is inclined so as to approach the other in the width direction toward the other end in the longitudinal direction.
[0049]
The case main body 2 has a plurality of, in this embodiment, four mounts 28a, 28b, 28c, 28d. The first mounting base 28a is provided at a position near one widthwise end of one end in the longitudinal direction of the case main body 2 so as to protrude from the main body bottom 15 in one thickness direction, and is connected to the second side wall 14b. The second mounting base 28b is provided at a position near one end in the width direction at the other end in the longitudinal direction of the case main body 2 so as to protrude from the main body bottom 15 in one thickness direction, and is connected to the fourth side wall 14d. . The third mounting base 28c is provided at a position on the other end side in the longitudinal direction of the third locking portion 19 so as to protrude from the main body bottom portion 15 in one thickness direction, and the second locking piece of the third locking portion 19 is provided. 23b and the third side wall 14c. The fourth mounting base 28 d is provided at a position on one end side in the longitudinal direction of the fourth locking part 20 so as to protrude from the main body bottom part 15 in one thickness direction, and the second locking piece 24 b of the fourth locking part 20 is provided. And the third side wall portion 14c. On the first to fourth mounting bases 28a to 28d, cylindrical screw grooves 29 which are further depressed in the other direction in the thickness direction are formed. Screws are carved on the inner peripheral surface of the screw groove 29 so that screw members such as wood screws can be attached.
[0050]
The case main body 2 has a first guide piece 26a, a second guide piece 26b, a third guide piece 26c, and a fourth guide piece 26d. The first guide piece 26 a is provided at a position in the widthwise central portion 10 at one longitudinal end of the case main body 2 so as to protrude from the main body bottom 15 in one thickness direction. Further, the first guide piece 26a is continuous with the first mount 28a and extends substantially in the width direction of the case body 2, and as shown in FIG. It is formed in a plate shape curved in an arc shape so as to protrude toward the portion 14b side. More specifically, the first guide piece 26 a has a side surface on the other side in the longitudinal direction formed into a cylindrical surface having a radius of curvature equal to or larger than the minimum allowable bending radius of the optical fiber 5 included in the optical cable 4. The second guide piece 26 b is provided at the position of the widthwise central portion 10 at the other end in the longitudinal direction of the case main body 2 so as to protrude from the main body bottom 15 in one thickness direction. Further, the second guide piece 26b is continuous with the second mount 28b, extends substantially in the width direction of the case body 2, and has a fourth side wall at the center as viewed in the thickness direction as shown in FIG. It is formed in a plate shape curved in an arc shape so as to protrude toward the portion 14d side. More specifically, the second guide piece 26b is formed on one side surface in the longitudinal direction into a cylindrical surface having a radius of curvature equal to or larger than the minimum allowable bending radius of the optical fiber 5 included in the optical cable 4.
[0051]
The third guide piece 26c is provided at the other end in the longitudinal direction of the third locking portion 19 so as to protrude from the main body bottom 15 in one thickness direction. Further, the third guide piece 26c is continuous with the third mounting base 28c and extends substantially in the longitudinal direction of the case body 2, and as shown in FIG. It is formed in a plate shape curved in an arc shape so as to protrude toward the portion 14c side. More specifically, the side surface on one side in the width direction of the third guide piece 26c is formed in a cylindrical shape having a radius of curvature equal to or larger than the minimum allowable bending radius of the optical fiber 5 included in the optical cable 4. The fourth guide piece 26d is provided on one end side in the longitudinal direction of the fourth locking portion 19 so as to protrude from the main body bottom 15 in one thickness direction. The fourth guide piece 26d is continuous with the fourth mounting base 28d, extends substantially in the longitudinal direction of the case body 2, and has a third side wall at the center as viewed in the thickness direction as shown in FIG. It is formed in a plate shape curved in an arc shape so as to protrude toward the portion 14c side. More specifically, the side surface of the fourth guide piece 26d on one side in the width direction is formed into a cylindrical surface having a radius of curvature equal to or larger than the minimum allowable bending radius of the optical fiber 5 included in the optical cable 4. In the present embodiment, the minimum allowable bending radius is 30 mm. In this way, the first to fourth guide pieces 26a to 26d are formed so as to form a substantially elliptical guide surface.
[0052]
The case main body 2 has a plurality of, in this embodiment, four pressing pieces 31a, 31b, 31c, 31d. The first to fourth pressing pieces 31a to 31d are plate members, and are formed in an elliptical shape when viewed from the thickness direction. The first to fourth holding pieces 31a to 31d are formed with through holes penetrating in the thickness direction. The first through fourth mounting bases 28a through 28d and the first through fourth mounting bases 28a through 28d are aligned so that the through holes of the first through fourth holding pieces 31a through 31d and the screw grooves 29 of the first through fourth mounting bases 28a through 28d match. The screw members are inserted into the through holes and the screw groove portions 29 by bringing the first to fourth pressing pieces 31a to 31d into contact with each other. Thereby, the first to fourth holding pieces 31a to 31d are attached to the first to fourth attachment bases 28a to 28d. However, the screw member is omitted in FIG. 1 for easy understanding. Further, the first to fourth pressing pieces 31a to 31d are provided so as to partially protrude inward of the storage space 16.
[0053]
The optical fiber 5 exposed from each optical cable 4 is guided by the first to fourth guide pieces 26a to 26d and the fifth to eighth guide pieces 27a to 27d described later, and is stored in the storage space 16 of the joint case 1. In this case, the other end face in the thickness direction of the first to fourth holding pieces 31a to 31d attached to the first to fourth attachment bases 28a to 28d comes into contact with the optical fiber 5. Accordingly, even when a force acts in a direction that changes the storage shape of the optical fiber 5, for example, when a force acts to float in one direction in the thickness direction, it is possible to restrict displacement in the direction in which the optical fiber 5 tends to float. it can. Accordingly, it is possible to prevent the housing shape of the optical fiber 5 from being changed, which may hinder the propagation of the optical signal.
[0054]
A first connection portion placement region portion 32a and a second connection portion placement region portion 32b are provided in a region near one end in the width direction of the storage space 16. The first connection portion arrangement area portion 32a is provided at a position near one end in the width direction of the central portion 9 in the longitudinal direction of the case main body 2 so as to face the first side wall portion 14a. The second connection portion placement region portion 32b is provided on the other end side in the width direction of the first connection portion placement region portion 32a and is spaced apart from the first connection portion placement region portion 32a in the width direction.
[0055]
The case body 2 is provided with a first gripping piece 34a and a second gripping piece 34b so as to face both the first and second connection portion arrangement area portions 32a and 32b. The first and second gripping pieces 34a, 34b are formed in a columnar shape protruding from the main body bottom 15 in one thickness direction. The first gripping piece 34a is arranged at a position closer to one end in the longitudinal direction of the central portion 9 in the longitudinal direction, and the second gripping piece 34b is arranged at a position closer to the other end in the longitudinal direction of the central portion 9 in the longitudinal direction. The first gripping piece 34a and the second gripping piece 34b are arranged at intervals in the longitudinal direction. The case main body 2 is provided with a third gripping piece 34c, a fourth gripping piece 34d, and a fifth gripping piece 34e so as to face the second connection portion arrangement area 32b. The third to fifth gripping pieces 34c to 34e are formed in a columnar shape projecting from the main body bottom 15 in one thickness direction. The third gripping piece 34c is arranged at a position closer to one longitudinal end of the longitudinal central portion 9, and the fourth gripping piece 34d is arranged at a position closer to the other longitudinal end of the longitudinal central portion 9. The fifth gripping piece 35e is disposed at an intermediate position between the third gripping piece 34c and the fourth gripping piece 34d. The third to fifth gripping pieces 34c to 34e are arranged at intervals in the longitudinal direction. Hereinafter, when the unspecified first to fifth gripping pieces are indicated, the suffixes “a” to “e” may be omitted in reference numerals, such as “grip piece 34”.
[0056]
The case body 2 has a fifth guide piece 27a and a sixth guide piece 27b. The fifth and sixth guide pieces 27a and 27b are formed in a columnar shape that protrudes from the main body bottom 15 in one thickness direction. The fifth guide piece 27a is arranged at a distance from the third gripping piece 34c in the width direction and at the other end in the width direction of the third gripping piece 34c and at a position closer to one longitudinal end of the central portion 9 in the longitudinal direction. You. The sixth guide piece 27b is spaced apart from the fourth gripping piece 34d in the width direction and is disposed at the other end in the width direction of the fourth gripping piece 34d and near the other end in the longitudinal direction of the central portion 9 in the longitudinal direction. Is done. Further, the fifth guide piece 27a and the sixth guide piece 27b are arranged at an interval in the longitudinal direction. The first and third gripping pieces 34a, 34c and the fifth guide piece 27a are arranged in a straight line. The above-described second and fourth gripping pieces 34b, 34d and the sixth guide piece 27b are arranged in a straight line.
[0057]
In a region near the other end in the width direction of the storage space 16, a third connection portion arrangement region portion 33a and a fourth connection portion arrangement region portion 33b are provided. The third connection portion arrangement region portion 33a is provided at a position near the other end in the width direction of the central portion 9 in the longitudinal direction of the case main body 2 so as to face the third side wall portion 14c. The fourth connection portion placement region portion 33b is provided at a position near one end in the width direction of the third connection portion placement region portion 33a and is spaced apart from the third connection portion placement region portion 33a in the width direction.
[0058]
The case body 2 is provided with a sixth gripping piece 35a and a seventh gripping piece 35b so as to face both the third and fourth connection portion arrangement area portions 33a and 33b. The sixth and seventh gripping pieces 35a and 35b are formed in a columnar shape that protrudes from the main body bottom 15 in one thickness direction. The sixth gripping piece 35a is arranged at a position closer to one longitudinal end of the longitudinal central portion 9, and the seventh gripping piece 35b is arranged at a position closer to the other longitudinal end of the longitudinal central portion 9. The sixth gripping piece 35a and the seventh gripping piece 35b are arranged spaced apart from each other in the longitudinal direction. The case body 2 is provided with an eighth gripping piece 35c, a ninth gripping piece 35d, and a tenth gripping piece 35e so as to face the fourth connection portion arrangement area portion 33b. The eighth to tenth gripping pieces 35c to 35e are formed in a columnar shape protruding from the main body bottom 15 in one thickness direction. The eighth gripping piece 35c is arranged at a position closer to one longitudinal end of the longitudinal central portion 9, and the ninth grasping piece 35d is arranged at a position closer to the other longitudinal end of the longitudinal central portion 9. The tenth gripping piece 35e is disposed at an intermediate position between the eighth gripping piece 35c and the ninth gripping piece 35d. The eighth to tenth gripping pieces 35c to 35e are arranged at intervals in the longitudinal direction. Hereinafter, when indicating the unspecified sixth to tenth grip pieces, the suffixes “a” to “e” may be omitted in the reference numerals, such as “grip piece 35”.
[0059]
The case body 2 has a seventh guide piece 27c and an eighth guide piece 27d. The seventh and eighth guide pieces 27c and 27d are formed in a columnar shape that protrudes from the main body bottom 15 in one thickness direction. The seventh guide piece 27c is spaced apart from the eighth gripping piece 35c in the width direction, and is disposed at one end side in the width direction of the eighth gripping piece 35c and at a position closer to one longitudinal end of the central portion 9 in the longitudinal direction. . The eighth guide piece 27d is spaced apart from the ninth gripping piece 35d in the width direction, and is disposed at a position on one end side in the width direction of the ninth gripping piece 35d and near the other end in the longitudinal direction of the central portion 9 in the longitudinal direction. You. The seventh guide piece 27c and the eighth guide piece 27d are arranged at an interval in the longitudinal direction. The aforementioned sixth and eighth gripping pieces 35a, 35c and the seventh guide piece 27a are arranged in a straight line. The seventh and ninth gripping pieces 35b and 35d and the eighth guide piece 27b are arranged in a straight line.
[0060]
As described above, the present embodiment is provided with the connection portion arrangement area where the same number or more connection portions as the number of the optical fibers 5 of the optical cable 4 are arranged, and the holding piece that can hold the connection portion. More specifically, in the present embodiment, two optical fibers 5 are provided with four connecting portion arrangement region portions and ten gripping pieces. Therefore, even if the number of the optical fibers 5 of the optical cable 4 is plural, and four in the present embodiment, the exposed optical fibers 5 near the connecting portion can be stored in the storage space 16 of the joint case 1. Further, the degree of freedom in the arrangement of the storage space 16 of the connection portion is increased, and the storage of the optical fiber 5 in the connection portion and the vicinity thereof can be facilitated.
[0061]
The gripping pieces 34 and 35 in the present embodiment are elastically deformable, deform in accordance with the connection part, and can grip the connection part regardless of the structure of the connection part. For example, a plurality of types of connecting portions such as a mechanical splice and a fusion sleeve can be gripped by the same gripping piece.
[0062]
The case main body 2 is provided with a plurality of, in this embodiment, two main body engaging portions 36a and 36b. The first main body engaging portion 36a is provided so as to protrude in one width direction from one end portion in the width direction and the peripheral portion 12 of the main body in the central portion 9 in the longitudinal direction. The second main body engaging portion 36b is provided so as to protrude from the other end in the width direction and the peripheral portion 12 of the main body in the central portion 9 in the width direction to the other side in the width direction.
[0063]
The case body 2 is provided with a plurality of, in this embodiment, two, locking pieces 37a and 37b. The first latching piece 37a is provided at a position at one end in the longitudinal direction and one end in the width direction of the case main body 2 so as to extend in the longitudinal direction and protrude from the peripheral edge 12 of the main body in one thickness direction. The second latching piece 37b is provided at the position of the other end in the longitudinal direction and one end in the width direction of the case main body 2 so as to extend in the longitudinal direction and protrude from the peripheral edge 12 of the main body in one thickness direction. The first and second hooking pieces 37a and 37b are formed with hooking holes 38 extending in the longitudinal direction and penetrating in the thickness direction.
[0064]
When the joint case 1 is used, the support wire 8 is hooked into two hook holes 38 formed in the first and second hook pieces 37a and 37b. Thus, the joint case 1 can be provided so as to be hung on the support wire 8 hooked on the hook hole 38. Therefore, the weight of the joint case 1 is supported by the support wire 8. As a result, the weight of the joint case 1 is prevented from acting on the connection portion housed in the storage space 16 and the optical fiber 5 near the connection portion, and the connection state of the connection portion can be maintained.
[0065]
The case main body 2 is provided with a plurality of, in this embodiment, four main body engaging portions 39a, 39b, 39c and 39d penetrating in the thickness direction. The first main body engaging portion 39a is provided at a position near one end in the width direction of one end in the longitudinal direction of the case main body 2. The second main body engaging portion 39b is provided at a position near one end in the width direction at the other end in the longitudinal direction of the case main body 2. The third main body engaging portion 39c is provided at a position at the other end in the width direction at one end in the longitudinal direction of the case main body 2. The fourth main body engaging portion 39d is provided at a position at the other end in the width direction of the other end in the longitudinal direction of the case main body 2.
[0066]
FIG. 10 is a front view showing the lid 3. FIG. 11 is a rear view showing the lid 3. FIG. 12 is a cross-sectional view taken along line CC of FIG. FIG. 13 is a right side view showing the lid 3.
[0067]
The lid 3 is provided with a lid bottom 51, a first lid wall 52a, a second lid wall 52b, a third lid wall 52c, and a fourth lid wall 52d. The lid bottom 51 is formed in a rectangular flat plate shape. The first lid wall portion 52a is formed in a plate shape that protrudes in one thickness direction from the lid bottom portion 51 at one end in the width direction of the lid 3 and extends in the longitudinal direction. The second lid wall portion 52b is formed in a plate-like shape that protrudes in one thickness direction from the lid bottom portion 51 at one longitudinal end of the lid 3 and extends in the width direction, and has a portion near one end in the width direction. It is formed so as to be inclined in the other longitudinal direction toward one end in the width direction. The third lid wall portion 52c is formed in a plate shape that protrudes in one thickness direction from the lid bottom portion 51 at the other end in the longitudinal direction of the lid 3 and extends in the width direction, and a portion near one end in the width direction. Is formed so as to be inclined in one longitudinal direction toward one end in the width direction. The fourth lid wall portion 52d is formed to protrude in one thickness direction from the lid bottom portion 51 near the other end in the width direction of the lid 3. The portion of the fourth lid wall portion 52d from the center in the longitudinal direction to both ends in the longitudinal direction is formed to be inclined so as to approach one end in the width direction toward both ends in the longitudinal direction.
[0068]
In the lid 3, one longitudinal end of the first lid wall 52a and the other longitudinal end of the second lid wall 52b are spaced apart in the longitudinal direction, and the longitudinal direction of the first lid wall 52a is extended. The other end in the direction and one end in the longitudinal direction of the third lid wall portion 52c are arranged at an interval in the longitudinal direction. The other end in the width direction of the second lid wall portion 52b and one end in the width direction of the fourth lid wall portion 52d are arranged at an interval in the width direction, and the other end in the width direction of the third lid wall portion 52c. And one end in the width direction of the fourth lid wall 52d are arranged at an interval in the width direction.
[0069]
As described above, the first to fourth lid walls 52a to 52d are formed so as to protrude from the lid bottom 51 in one thickness direction. In other words, the first to fourth lid walls 52a to 52d are formed so that the lid 3 projects in the direction facing the case body 2 with the joint case 1 closed. More specifically, the first to fourth lid walls 52a to 52d are formed so as to fit into the sealing material filling recesses 13 in the case body 2 when the joint case 1 is closed.
[0070]
The lid 3 is formed with a first lid communication portion 53a, a second lid communication portion 53b, a third lid communication portion 53c, and a fourth lid communication portion 53d. The first lid communication portion 53a is formed by one longitudinal end of the first lid wall 52a and the other longitudinal end of the second lid wall 52b. The second lid communication portion 53b is formed by the other longitudinal end of the first lid wall 52a and one longitudinal end of the third lid wall 52c. The third lid communication portion 53c is formed by the other end in the width direction of the second lid wall 52b and one end in the width direction of the fourth lid wall 52d. The fourth lid communication portion 53d is formed by the other end in the width direction of the third lid wall 52c and one end in the width direction of the fourth lid wall 52d. The first to fourth lid communication portions 53a to 53d communicate the outside of the lid 3 with a portion surrounded by the first to fourth lid wall portions 52a to 52d.
[0071]
The lid 3 is provided with a plurality of, in this embodiment, four lid engaging portions 54a, 54b, 54c, 54d. The first lid engaging portion 54a is provided so as to protrude in one thickness direction from the lid bottom portion 51 at the longitudinal central portion 55 at one end in the width direction. The second lid engaging portion 54b is provided so as to protrude in one thickness direction from the lid bottom 51 at the widthwise central portion 56 at one end in the longitudinal direction. The third lid engaging portion 54c is provided so as to protrude in one thickness direction from the lid bottom 51 at the widthwise central portion 56 at the other end in the longitudinal direction. The fourth lid engaging portion 54d is provided so as to protrude in one thickness direction from the lid bottom 51 at the longitudinal central portion 55 at the other end in the width direction. At the free ends of the first to fourth lid engaging portions 54a to 54d, as shown in FIGS. 12 and 13, engaging claws protrude so as to face the first to fourth lid wall portions 52a to 52d. 57 are formed. In addition, as shown in FIGS. 12 and 13, the central portion of the first to fourth lid engaging portions 54a to 54d has a through hole penetrating in the direction facing the first to fourth lid wall portions 52a to 52d. A hole 59 is formed.
[0072]
A plurality of, in this embodiment, four cover through-holes 60a, 60b, 60c, 60d penetrating in the thickness direction are formed in the cover 3. The first lid through-hole 60a is formed in the longitudinal central portion 55 at one end in the width direction. The second lid through-hole 60b is formed in the widthwise central portion 56 at one end in the longitudinal direction. The third lid through-hole 60c is formed in the widthwise central portion 56 at the other end in the longitudinal direction. The fourth lid through-hole 60d is formed in the longitudinal central portion 55 at the other end in the width direction.
[0073]
The lid 3 is provided with a plurality of, in the present embodiment, four lid engaging portions 58a, 58b, 58c, 58d penetrating in the thickness direction. The first lid engaging portion 58 a is provided at a position at one end in the width direction at one end in the longitudinal direction of the lid 3. The second lid engaging portion 58 b is provided at a position at one end in the width direction at the other end in the longitudinal direction of the lid 3. The third lid engaging portion 58c is provided at a position closer to one longitudinal end of the other end of the lid 3 in the width direction. The fourth lid engaging portion 58d is provided at a position near the other longitudinal end of the other end of the lid 3 in the width direction.
[0074]
With the joint case 1 closed, the first main body engaging portion 39a and the third lid engaging portion 58c, the second main body engaging portion 39b and the fourth lid engaging portion 58d, and the third main body engaging portion are provided. 39c and the first lid engaging portion 58a, and the fourth body engaging portion 39d and the second lid engaging portion 58b face each other. Therefore, when the joint case 1 is closed, the first body engaging portion 39a and the third lid engaging portion 58c, the second main body engaging portion 39b and the fourth lid engaging portion 58d, and the third main body engaging portion are provided. The portion 39c, the first lid engaging portion 58a, the fourth body engaging portion 39d, and the second lid engaging portion 58b provide four engaging portions that penetrate the joint case 1 in the thickness direction.
[0075]
In this embodiment, the joint case 1 can be provided in the building 102 by hooking a fixing jig fixed to the building 102 such as a general house to the four hooks. The own weight of the joint case 1 is supported by a building 102 which is attached by attaching a fixing jig to the four engaging portions. As a result, the weight of the joint case 1 is prevented from acting on the connection portion housed in the storage space 16 and the optical fiber 5 near the connection portion, and the connection state of the connection portion can be maintained.
[0076]
As described above, the joint case 1 is configured such that the support wire 8 is hooked into the two hook holes 38 formed in the first and second hook pieces 37a and 37b, for example, so that the branch 104 and the building 102 The optical cable 4 can be attached in the middle of the optical cable 4 that is laid overhead. In addition, the joint case 1 can be provided in the building 102 by, for example, hooking a fixing jig fixed to the building 102 such as a general house to the first to fourth main body hooking portions 39a to 39d. Therefore, the degree of freedom of the mounting position of the joint case 1 can be increased, and as described above, the weight of the joint case 1 acts on the connection portion stored in the storage space 16 and the optical fiber 5 in the vicinity thereof. Thus, the connection state of the connection portion can be maintained.
[0077]
The first main body engaging portion 36a of the case main body 2 is engaged with the engaging claw 57 of the fourth lid engaging portion 54d of the lid 3, and the second main body engaging portion 36b of the case main body 2 is engaged with the first main body engaging portion 36a. Then, the engaging claw 57 of the first lid engaging portion 54a of the lid 3 is locked. In addition, engaging claws of the second and third lid engaging portions 54b, 54c of the lid 3 are provided at the width central portion 10 at one longitudinal end of the case main body 2 and the width central portion 10 at the other longitudinal end. 57 are respectively locked. As a result, the joint case 1 is in a closed state, and by releasing this locked state, the joint case 1 is in an open state.
[0078]
The first to fourth lid walls 52a to 52d of the lid 3 are tightly fitted into the sealing material filling recesses 13 of the case body 2 filled with the sealing material when the joint case 1 is closed. Thus, the storage space 16 of the joint case 1 can be partitioned from the external space outside the storage space 16 in a watertight manner. Accordingly, it is possible to prevent water from entering from outside into at least the first and second connection portion arrangement region portions 32a and 32b and the third and fourth connection portion arrangement region portions 33a and 33b of the storage space 16, and And the exposed optical fiber 5 in the vicinity thereof can be protected from water. Here, the sealing material may be made of synthetic rubber such as butyl rubber which is a copolymer of isobutylene and a small amount of isoprene.
[0079]
Further, the first and second cable insertion holes 25a and 25b of the joint case 1 are formed to be inclined so as to approach the other in the width direction from the storage space 16 to the external space outside the storage space 16. Therefore, when the joint case 1 is provided in the building 102 with one end in the width direction of the case body 2 at the top and the other end in the width direction of the case body 2 at the bottom, the cable insertion holes 25a and 25b Water does not easily enter the storage space 16 from the external space outside the storage space 16 as compared with a joint case formed to be parallel to the longitudinal direction of the storage case. Thus, the connecting portion of the optical fiber 5 and the exposed optical fiber 5 in the vicinity thereof can be protected from water.
[0080]
FIG. 14A is a front view illustrating a first arrangement example of the optical fibers 5 in the case main body 2. FIG. 14B is a front view showing a second arrangement example of the optical fibers 5 in the case main body 2. FIG. 14C is a front view illustrating a third arrangement example of the optical fibers 5 in the case main body 2. FIG. 14D is a front view illustrating a fourth arrangement example of the optical fibers 5 in the case main body 2. FIG. 14 (5) is a front view showing a fifth arrangement example of the optical fibers 5 in the case body 2. FIG. 14 (6) is a front view showing a sixth arrangement example of the optical fibers 5 in the case body 2.
[0081]
Although the optical cable 4 of the present embodiment is composed of two optical fibers 5, in FIGS. 14 (1) to 14 (6), there is one optical fiber 5a and an optical cable 4b exposed from the optical cable 4a. An example in which one exposed optical fiber 5b is connected and housed in the joint case 1 is shown. The remaining optical fiber 5 connects, for example, the communication equipment 101 of the base station 100 to an electricity, water, gas meter, or the like provided in a building 102 such as a general house, to automatically control the electricity, water, and gas usage. When performing a needle reading or the like, the needle may be stored in the joint case 1 later.
[0082]
The casing 11 has first to fourth cable insertion holes 25a to extend from the storage space 16 to the external space outside the storage space 16 in different directions, and to extend the optical cable 4 over the storage space 16 and the external space. 25d are formed. Therefore, two cable insertion holes can be arbitrarily selected from the four first to fourth cable insertion holes 25a to 25d. In the present embodiment, two optical cables 4 are pulled out from the inside of the joint case 1 to the outside of the joint case 1 through the two selected cable insertion holes. 14 (1) and FIG. 14 (2) show, in detail, an arrangement example of the optical fiber 5 when the first and second cable insertion holes 25a and 25b are selected. 14 (3) and FIG. 14 (4) show, in detail, an arrangement example of the optical fiber 5 when the first and fourth cable insertion holes 25a and 25d are selected. 14 (5) and FIG. 14 (6) show an example of the arrangement of the optical fibers 5 when the third and fourth cable insertion holes 25c and 25d are selected.
[0083]
As described above, the case main body 2 is formed with the first to fourth connection portion arrangement region portions 32a and 32b; 35a and 35b, which are regions where connection portions are arranged. Therefore, one connection portion arrangement region portion can be arbitrarily selected from the first to fourth connection portion arrangement region portions 32a, 32b; 35a, 35b. Here, FIGS. 14 (1) to 14 (6) are arrangement examples of the optical fiber 5 when the second connection portion arrangement region portion 32b is selected.
[0084]
When one optical cable 4a is attached to the joint case 1, for example, as shown in FIG. 14A, the jacket 7 is torn from the end of the optical cable 4a to a position having a predetermined tear length, and the optical fiber 5a is The first cable portion 41 including the protective wire 6 and the jacket 7 covering the optical fiber 5a and the pair of protective wires 6, and the second cable portion 42 including the support wire 8 and the jacket 7 covering the support wire 8. To separate. From the end of the first cable portion 41, the jacket 7 is removed to a predetermined exposed length shorter than the tear length, and one optical fiber 5a is exposed.
[0085]
When attaching the other optical cable 4b to the joint case 1, for example, as shown in FIG. 14 (1), the outer jacket 7 is torn from the end of the optical cable 4b to a position having a predetermined tear length, and the optical fiber 5b is The first cable portion 41 including the protective wire 6 and the jacket 7 covering the optical fiber 5b and the pair of protective wires 6, and the second cable portion 42 including the support wire 8 and the jacket 7 covering the support wire 8. To separate. From the end of the first cable portion 41, the jacket 7 is removed to a predetermined exposed length shorter than the tear length, and the other optical fiber 5b is exposed.
[0086]
As shown in FIG. 14A, the portion of the first cable portion 41 of the one optical cable 4a where the jacket coat 7 remains is the first locking piece 21a of the first locking portion 17 and the second locking portion. The pieces 21b are arranged so as to be sandwiched from both sides in the width direction of the case body 2. The one exposed optical fiber 5a is disposed so as to be wound around the first to fourth guide pieces 26a to 26d, and is stored in the storage space 16. The portion of the first cable portion 41 of the other optical cable 4b where the jacket coat 7 remains remains due to the first locking piece 22a and the second locking piece 22b of the second locking portion 18 and the width of the case main body 2. It is arranged so as to be sandwiched from both sides in the direction. The other exposed optical fiber 5b is disposed around the first to fourth guide pieces 26a to 26d so as to be wound in the opposite direction to the one optical fiber 5a, and is stored in the storage space 16. . As described above, the optical fibers 5a and 5b are guided by the first to fourth guide pieces 26a to 26d provided in the storage space 16 and stored in the storage space 16 in a curved state.
[0087]
Further, as shown in FIG. 14 (2), one exposed optical fiber 5a has a fifth gripping piece 34e, a sixth guiding piece 27b, a ninth gripping piece 35d, a sixth gripping piece 35a, and a third guiding piece 26c. Alternatively, it may be arranged so as to be wound around the first guide piece 26a and housed in the housing space 16. At this time, the other exposed optical fiber 5b is wound around the fifth gripping piece 34e, the fifth guide piece 27a, the eighth gripping piece 35c, the seventh gripping piece 35b, the fourth guide piece 26d, and the second guide piece 26b. And may be stored in the storage space 16.
[0088]
The fifth gripping piece 34e, the sixth guide piece 27b, the ninth gripping piece 35d, and the sixth gripping piece 35a allow the optical fiber 5a to have a minimum tolerance when one of the optical fibers 5a is wound and housed as described above. It is arranged at a position that bends with a radius of curvature equal to or greater than the bending radius. The fifth gripping piece 34e, the fifth guide piece 27a, the eighth gripping piece 35c, and the seventh gripping piece 35b allow the optical fiber 5b to have the minimum tolerance when the other optical fiber 5b is wound and housed as described above. It is arranged at a position that bends with a radius of curvature equal to or greater than the bending radius. As shown in FIGS. 14 (3) and 14 (5), each optical fiber 5 is wound around the first to fourth guide pieces 26a to 26d in the same manner as each optical fiber 5 shown in FIG. 14 (1). And may be stored in the storage space 16. Also, as shown in FIGS. 14 (4) and 14 (6), each optical fiber 5 has fifth and sixth guide pieces 27a, 27b, like the optical fiber 5 shown in FIG. 14 (2). It may be arranged so as to be wound around the fifth gripping piece 34 e and the sixth to ninth gripping pieces 35 a to 35 d and stored in the storage space 16.
[0089]
As described above, the optical fiber 5 exposed near the connection portion can be stored in the storage space 16 of the joint case 1 while being curved. Thus, the optical fiber 5 can be stored in the storage space 16 of the joint case 1 regardless of the length of the optical fiber 5 exposed. The exposed portion of the optical fiber 5 has an extra length for facilitating the connection operation when connecting by the connection portion. If the extra length is large, the connection operation can be facilitated. As described above, since the exposed optical fiber 5 can be stored in the storage space 16 of the joint case 1 even if it is long, by using such a joint case 1, the exposed optical fiber 5 portion ( Margin) can be sufficiently ensured, which can contribute to improvement in workability of the connection work.
[0090]
In the present embodiment, the two cable insertion holes can be arbitrarily selected from the four first to fourth cable insertion holes 25a to 25d, and the four first to fourth connection portion arrangement area portions 32a, 32b; One connection portion arrangement area portion can be arbitrarily selected from 35a and 35b. Therefore, no load is applied to the optical cable 4 in accordance with the shape of the wiring path through which the optical cable 4 is to be routed, for example, a state in which the optical fiber 5 does not bend with a radius of curvature smaller than the minimum allowable bending radius of the optical fiber 5. Thus, the joint to which the optical fiber 5 is connected and the exposed optical fiber 5 in the vicinity thereof can be housed in the joint case 1. Conversely, even when the posture of the joint case 1 is restricted due to the shape of the installation place of the joint case 1 itself, the optical fiber 5 has a radius of curvature smaller than the minimum allowable bending radius of the optical fiber 5. The connection part to which the optical fiber 5 is connected and the exposed optical fiber 5 in the vicinity thereof can be housed in the joint case 1 without bending and putting a load on the optical cable 4.
[0091]
FIG. 15 is a perspective view showing a joint case 111 of the optical fiber cable according to the second embodiment of the present invention. FIG. 16 is a front view showing the joint case 111 of the optical fiber cable. FIG. 17 is a plan view showing the joint case 111 of the optical fiber cable. FIG. 18 is a right side view showing the joint case 111 of the optical fiber cable. FIG. 19 is a rear view showing the joint case 111 of the optical fiber cable.
[0092]
An optical fiber cable joint case (hereinafter sometimes simply referred to as a “joint case”) 111 has a case main body 112 and a lid 113. The joint case 111 generally has a hinge structure, and one end in the width direction of the case main body 112 and the other end in the width direction of the lid 113 are connected by a thin hinge portion 114. As described above, the case body 112 and the lid 113 are integrally formed via the hinge 114. By deforming the hinge portion 114, the hinge portion 114 can be angularly displaced around the angular displacement axis L1 extending along the hinge portion 114. As described above, the joint case 111 can be opened and closed by angularly displacing the case body 112 and the lid 113. The case body 112 and the lid 113 are made of a weather-resistant material, for example, polyethylene, polypropylene, acrylonitrile butadiene styrene (abbreviation: ABS) copolymer resin, or the like.
[0093]
In the description of the case body 112, unless otherwise limited, the longitudinal direction refers to the longitudinal direction of the case body 112, the width direction refers to the width direction of the case body 112, and the thickness direction refers to the thickness direction of the case body 112. Means In addition, in the description of the lid 113, unless otherwise limited, the longitudinal direction refers to the longitudinal direction of the lid 113, the width direction refers to the width direction of the lid 113, and the thickness direction refers to the thickness of the lid 113. Means direction.
[0094]
The case main body 112 has a main body bottom 115 formed in a rectangular flat plate shape. The case main body 112 has a substantially flat and rectangular shape, and extends all around its outer periphery, and protrudes from the main body bottom 115 in one thickness direction to form a main body peripheral edge 116. A main body recess 117 is formed facing the main body bottom 115, which is a part of the case main body 112 excluding the main body peripheral part 116, and opening to one side in the thickness direction. The lid 113 has a lid bottom 118 formed in a rectangular flat plate shape. The lid 113 is substantially flat and rectangular in shape, and extends all around its outer periphery, and protrudes in one thickness direction from the lid bottom 118 to form a lid peripheral edge 119. A lid recess 120 is formed facing the lid bottom 118, which is a portion of the lid 113 excluding the lid peripheral edge 119, and opening in one direction in the thickness direction. The casing 121 is configured to include the main body bottom 115 and the lid bottom 118. With the joint case 111 closed, a storage space 117 facing the main body recess 117 and the lid recess 120 is formed. The connection space to which each optical fiber 5 is connected and the exposed optical fiber 5 in the vicinity thereof can be stored in the storage space 117 thus formed. Since the main body recess of the case main body 112 and the storage space are substantially the same space, they are denoted by the same reference numeral “117”.
[0095]
At a position near one end in the width direction of one end in the longitudinal direction of the case main body 112, a first locking portion 122 communicating with the main body peripheral portion 116 and the main body bottom 115 is provided. In the first locking portion 122, a plurality of, in this embodiment, three first locking pieces 124a are formed at intervals in the longitudinal direction. In the first locking portion 122, a plurality of, in this embodiment, three second locking pieces 124b are formed at intervals in the longitudinal direction, and have a width different from that of the first locking piece 124a. They are arranged facing each other with an interval in the direction.
[0096]
More specifically, as shown in FIG. 16, the shape of the first locking piece 124a projected on an imaginary plane extending parallel to the main body bottom 115 is a substantially right triangle, and the sides of the first locking piece 124 excluding the hypotenuse are the peripheral edges of the main body. It is connected to the portion 116 and is parallel to the longitudinal direction of the case main body 112, and its oblique side faces one direction in the longitudinal direction. More specifically, as shown in FIG. 16, the shape of the second locking piece 124b projected on an imaginary plane extending parallel to the main body bottom 115 is substantially rectangular, and one side thereof is connected to the main body peripheral part 116. At the same time, it is parallel to the longitudinal direction of the case body 112.
[0097]
Further, a second locking portion 123 communicating with the main body peripheral portion 116 and the main body bottom portion 115 is provided at a position closer to one widthwise end of the other end in the longitudinal direction of the case main body 112. A plurality of, in this embodiment, three first locking pieces 125a are formed on the second locking portion 123 at intervals in the longitudinal direction. In the second locking portion 123, a plurality of, in this embodiment, three second locking pieces 125b are formed at intervals in the longitudinal direction, and have a width different from that of the first locking pieces 125a. They are arranged facing each other with an interval in the direction. More specifically, as shown in FIG. 16, the shape of the first locking piece 125a projected on an imaginary plane extending parallel to the main body bottom 115 is a substantially right triangle, and the sides of the first locking piece 125a except for the hypotenuse are the peripheral edges of the main body. It is connected to the portion 116 and is parallel to the longitudinal direction of the case main body 112, and its oblique side faces the direction toward the other longitudinal direction. More specifically, as shown in FIG. 16, the shape of the second locking piece 125 b projected on an imaginary plane extending parallel to the main body bottom 115 is substantially rectangular, and one side thereof is connected to the main body peripheral part 116. At the same time, it is parallel to the longitudinal direction of the case body 112.
[0098]
The main body peripheral portion 116 of the case main body 112 is opened to one side in the thickness direction, and the outside of the case main body 112 and the space between the first locking piece 124a and the second locking piece 124b of the first locking portion 122 are formed. A first body communication portion 126a that communicates is formed. In addition, the main body peripheral edge portion 116 of the case main body 112 is opened in one direction in the thickness direction, and the outside of the case main body 112 and the space between the first locking piece 125a and the second locking piece 125b of the second locking portion 123 are formed. Is formed, and a second body communication portion 126b that communicates with the second body is formed.
[0099]
The case main body 112 has a first guide piece 127a and a second guide piece 127b. The first guide piece 127a faces the main body recess 117 and is provided to protrude in one thickness direction from a position near one longitudinal end of the main body bottom 115. As shown in FIG. 16, the first guide piece 127a is formed in a plate-like shape that is curved in an arc shape so that the central portion thereof projects in one longitudinal direction when viewed from the thickness direction. More specifically, the first guide piece 127a has a side surface on one side in the longitudinal direction formed into a cylindrical surface having a radius of curvature equal to or larger than the minimum allowable bending radius of the optical fiber 5 included in the optical cable 4. The second guide piece 127b faces the main body recess 117 and is provided so as to protrude in one thickness direction from a position closer to the other longitudinal side of the main body bottom 115. As shown in FIG. 16, the second guide piece 127b is formed in a plate-like shape that is curved in an arc shape so that the central portion thereof projects in the other longitudinal direction when viewed from the thickness direction. More specifically, the second guide piece 127b has a side surface on the other longitudinal side formed in a cylindrical shape having a radius of curvature equal to or larger than the minimum allowable bending radius of the optical fiber 5 included in the optical cable 4. The first guide piece 127a and the second guide piece 127b are arranged at intervals in the longitudinal direction. In the present embodiment, the minimum allowable bending radius is 30 mm.
[0100]
The case main body 112 further has a third guide piece 128a, a fourth guide piece 128b, and a fifth guide piece 128c. The third to fifth guide pieces 128a to 128c are formed in a columnar shape that faces the main body recess 117 and protrudes from the main body bottom 115 in one thickness direction. The third guide piece 128a is disposed at a position closer to the first guide piece 127a between one end in the width direction of the first guide piece 127a and one end in the width direction of the second guide piece 127b. The fourth guide piece 128b is arranged at a position closer to the second guide piece 127b between one end in the width direction of the first guide piece 127a and one end in the width direction of the second guide piece 127b. The fifth guide piece 128c is located between the other end in the width direction of the first guide piece 127a and the other end in the width direction of the second guide piece 127b, and is located at a position closer to one end in the width direction.
[0101]
The case main body 112 further has a connection portion arrangement region defining wall (hereinafter, may be simply referred to as a “defining wall”) 131. The defining wall 131 is a flat plate that protrudes in one thickness direction from a position near one widthwise end of the case body 112 between one widthwise end of the first guide piece 127a and one widthwise end of the second guide piece 127b. Formed. A connecting portion arrangement area portion between one end in the width direction of the first guide piece 127a and one end in the width direction of the second guide piece 127b, and faces the defining wall and the third and fourth guide pieces 128a and 128b. 132 are provided. In the present embodiment, in order to connect the optical fibers 5a and 5b exposed from the two optical cables 4a and 4b, one connecting part arrangement area portion 132 is provided and one connecting part is arranged. However, when connecting a plurality of optical fibers 5 exposed from a plurality of, for example, four optical cables 4, two connection portion arrangement region portions 132 may be arranged.
[0102]
In the case main body 112, the main body peripheral edge 116 near the longitudinal one end of the other end in the width direction is opened to one side in the thickness direction, and faces the outside of the case main body 112 and the other end in the width direction of the first guide piece 127a. A first main body groove 133a communicating with the space is formed. In the case main body 112, the main body peripheral edge 116 near the other end in the longitudinal direction of the other end in the width direction is opened to one side in the thickness direction, and the outside of the case main body 112 and the other end in the width direction of the second guide piece 127b are opened. A second main body groove 133b communicating with the space facing the space is formed.
[0103]
The case main body 112 is provided with a plurality of, in this embodiment, two main body engaging portions 134a and 134b. The first main body engaging portion 134a is provided to protrude from the main body peripheral portion 116 at one end in the longitudinal direction and the other end in the width direction to the other side in the width direction. The second main body engaging portion 134b is provided so as to protrude in the other width direction from the main body peripheral edge 116 at the other end in the longitudinal direction and the other end in the width direction. The first and second main body engaging portions 134a, 134b are formed with an engaging hole 135 penetrating in the thickness direction.
[0104]
In the case main body 112, a first main body engaging hole 136a extending in the longitudinal direction and penetrating in the thickness direction is formed in the main body peripheral edge 116 at one end in the longitudinal direction and one end in the width direction. In the case main body 112, a second main body retaining hole 136b extending in the longitudinal direction and penetrating in the thickness direction is formed in the main body peripheral portion 116 at the other end in the longitudinal direction and one end in the width direction.
[0105]
A first screw that is depressed in the thickness direction on the body bottom 115 of the case body 112 at a position between the third and fourth guide pieces 128a and 128b and the fifth guide piece 128c at intervals in the longitudinal direction. A groove 137a and a second screw groove 137b are formed. This is a position where a screw member such as a wood screw is hooked when the joint case 111 is attached to a wall of the building 102 such as a general house. The joint case 111 can be provided in the building 102 by engaging a fixing jig fixed to the building 102, for example, a screw member such as a wood screw with the first screw groove 137a and the second screw groove 137b. The self-weight of the joint case 111 is supported by the building 102 which is attached to the first and second screw grooves 137a and 137b with a fixing jig. This prevents the own weight of the joint case 111 from acting on the connection portion housed in the storage space 117 and the optical fiber 5 near the connection portion, and the connection state of the connection portion can be maintained.
[0106]
The lid 113 is provided with a plurality of, in this embodiment, two lid engaging portions 141a and 141b. The first lid engaging portion 141a is provided so as to protrude in one thickness direction from the lid peripheral edge 119 at one end in the longitudinal direction and one end in the width direction. The second lid engaging portion 141b is provided so as to protrude in one thickness direction from the lid peripheral edge 119 at the other end in the longitudinal direction and one end in the width direction. With the joint case 111 closed, the first lid engaging portion 141a of the lid 113 is inserted into and engaged with the engaging hole 135 of the first main body engaging portion 134a of the case main body 112. When the joint case 111 is closed, the second lid engaging portion 141b of the lid 113 is inserted into and engaged with the engaging hole 135 of the second main body engaging portion 134b of the case main body 112. .
[0107]
A first lid communication portion 142a that opens to one side in the thickness direction and communicates with the outside of the lid 113 and the lid recess 120 is formed in the lid peripheral edge 119 at one end in the longitudinal direction of the lid 113. Further, a second lid communication portion 142b which is open in one direction in the thickness direction and communicates the outside of the lid 113 and the lid recess 120 is formed at the lid peripheral edge 119 at the other end in the longitudinal direction of the lid 113. You. With the joint case 111 closed, the first main body communication portion 126a of the case main body 112 and the first lid communication portion 142a of the lid 113 face each other, and the second main body communication portion 126b of the case main body 112 and the lid The second lid communication portion 142b of 113 is opposed to the second lid communication portion 142b. Thus, with the joint case 111 closed, two cable insertion holes communicating the storage space 117 of the joint case 111 and the external space outside the storage space 117 are formed.
[0108]
In the lid 113, the lid peripheral edge 119 at one end in the width direction is spaced apart from each other in the longitudinal direction and is opened in one direction in the thickness direction, so that the first part that communicates the outside of the lid 113 with the lid recess 120 is formed. A lid groove 143a and a second lid groove 143b are formed. With the joint case 111 closed, the first body groove 133a of the case body 112 and the first cover groove 143a of the cover 113 face each other, and the second body groove 133b of the case body 112 and the It faces the two lid groove 143b. Thereby, in a state where the joint case 111 is closed, two drain holes communicating the storage space 117 of the joint case 111 and the external space outside the storage space 117 are formed.
[0109]
By providing the drain hole in the joint case 111 in this way, even if water may enter the gap between the case body 112 and the lid 113 of the joint case 111 from the outside of the joint case 111, In addition, water can be discharged from the drain hole to the outside of the joint case 111.
[0110]
In the lid 113, a first lid locking hole 144 a extending in the longitudinal direction and penetrating in the thickness direction is formed in the lid peripheral edge 119 at one end in the longitudinal direction and the other end in the width direction. In the lid 113, a second lid retaining hole 144b is formed in the lid peripheral edge 119 at the other end in the longitudinal direction and the other end in the width direction, extending in the longitudinal direction and penetrating in the thickness direction. In a state where the joint case 111 is closed, the first main body retaining hole 136b of the case main body 112 faces the first main body retaining hole 136a of the case main body 112 and the first lid retaining hole 144a of the lid 113. And the second lid retaining hole 144b of the lid 113 are opposed to each other. Therefore, when the joint case 111 is closed, the first main body retaining hole 136a of the case main body 112 and the first lid retaining hole 144a of the lid 113, and the second main body retaining hole 136b and the lid of the case main body 112 are closed. Two hook holes that penetrate the joint case 111 in the thickness direction are provided by the second lid hook holes 144b of the body 113.
[0111]
These two hook holes are hook pieces for hooking a support wire 8 which serves as a hanging wire for hanging the optical cable 4. The support wire 8 is hooked on the two hook holes. Thus, the joint case 111 can be provided so as to be hung on the support wire 8 hooked on the hook hole. Therefore, the weight of the joint case 111 is supported by the support wire 8. This prevents the own weight of the joint case 111 from acting on the connection portion housed in the storage space 117 and the optical fiber 5 near the connection portion, and the connection state of the connection portion can be maintained.
[0112]
As shown in FIG. 16, a body sealing material 145a is applied and provided on at least a portion of the body peripheral portion 116 of the case body 112 facing the body recess 117. As shown in FIG. 16, a lid sealing material 145b is applied and provided at least on a portion of the lid peripheral portion 119 of the lid 113 facing the lid recess 120. The main body sealing material 145a and the lid sealing material 145b may be made of synthetic rubber such as butyl rubber which is a copolymer of isobutylene and a small amount of isoprene. When the joint case 111 is closed, the main body peripheral portion 116 and the lid peripheral portion 119 are in close contact with each other, and the main body sealing member 145a and the lid sealing member 145b are in close contact with each other. As a result, at least the connection portion arrangement region portion 132 of the storage space 117 where the connection portion of the optical fiber 5 is disposed is water-tightly partitioned by the main body seal member 145a and the lid seal member 145b. Therefore, it is possible to prevent water from intruding into at least the connection portion arrangement region 132 of the storage space 117 from the outside, and to protect the connection portion of the optical fiber 5 from water.
[0113]
FIG. 20 (1) is a front view showing a first arrangement example of the optical fibers 5 in the case main body 112, and FIG. 20 (2) is a front view showing a second arrangement example of the optical fibers 5 in the case main body 112. is there. When one of the optical cables 4a is mounted on the joint case 111, as shown in FIG. 20A, the jacket 7 is torn from the end of the optical cable 4a to a position where the optical cable 4a has a predetermined tear length, and the optical fiber 5a and the pair of protective films are protected. The first cable portion 41 including the sheath 6 covering the wire 6 and the optical fiber 5 a and the pair of protection wires 6 is separated into a second cable portion 42 including the support wire 8 and the jacket 7 covering the support wire 8. From the end of the first cable portion 41, the jacket 7 is removed to a predetermined exposed length shorter than the tear length, and one optical fiber 5a is exposed.
[0114]
When attaching the other optical cable 4b to the joint case 111, as shown in FIG. 20 (1), the outer jacket 7 is torn from the end of the optical cable 4b to a position where the optical fiber 4b has a predetermined tear length, and the optical fiber 5b and the pair of protective films are protected. The first cable portion 41 including the jacket 6 covering the wire 6 and the optical fiber 5 b and the pair of protection wires 6 is separated into the first cable portion 41 including the support wire 8 and the jacket 7 covering the support wire 8. The outer sheath 7 is removed from the end of the first cable portion 41 to a predetermined exposed length shorter than the tear length, and the other optical fiber 5b is exposed.
[0115]
The portion of the first optical cable 4a where the outer coating 7 of the first cable portion 41 is left is formed by the first locking piece 124a and the second locking piece 124b of the first locking portion 122 by the width of the case body 112. It is arranged so as to be sandwiched from both sides in the direction. The one exposed optical fiber 5a is arranged so as to be wound around the first and second guide pieces 127a and 127b, and is stored in the storage space 117. The portion of the other optical cable 4b where the outer coating 7 of the first cable portion 41 remains is formed by the first locking piece 125a and the second locking piece 125b of the second locking portion 123 so that the width of the case body 112 is reduced. It is arranged so as to be sandwiched from both sides in the direction. The other exposed optical fiber 5b is disposed around the second and first guide pieces 37b, 37a so as to be wound in the opposite direction to the one optical fiber 5a, and is stored in the storage space 117.
[0116]
As described above, the optical fibers 5a and 5b are guided by the first and second guide pieces 127a and 127b provided in the storage space 117, and are stored in the storage space 117 in a curved state. Therefore, compared with the case where each optical fiber 5a, 5b is stored linearly in the storage space 117, the dimension between the cable insertion holes where each optical fiber 5a, 5b extends from the joint case 111 is reduced, and the joint case 111 Can be miniaturized. The first and second guide pieces 127a and 127b guide the optical fibers 5a and 5b so as to bend with a radius of curvature equal to or larger than the minimum allowable bending radius. The optical fibers 5a and 5b can be housed in a curved state so that the optical fibers 5a and 5b are prevented from bending with a radius of curvature smaller than the radius and do not hinder the propagation of the optical signal.
[0117]
The shape of the first locking piece 124a of the first locking portion 122 projected on an imaginary plane extending parallel to the main body bottom portion 115 is substantially a right triangle, and the tip portion forming the acute angle has the first end in the one optical cable 4a. It abuts on the portion of the cable portion 41 where the outer coat 7 remains so as to resiliently bite. As a result, at least a portion of the one optical cable 4a sandwiched between the first locking piece 124a and the second locking piece 124b of the first locking portion 122, in which the jacket 7 of the first cable portion 41 remains, Displacement in one longitudinal direction of the case body can be prevented.
[0118]
The portion of the other optical cable 4b where the outer coating 7 of the first cable portion 41 remains is formed by the first locking piece 125a and the second locking piece 125b of the second locking portion 123, and the width of the case body 112 is reduced. Direction. The shape of the first locking piece 125a of the second locking portion 123 projected on an imaginary plane extending parallel to the main body bottom portion 115 is substantially a right triangle, and the tip portion forming an acute angle has the shape of the first locking piece in the other optical cable 4b. It abuts on the portion of the cable portion 41 where the outer coat 7 remains so as to resiliently bite. As a result, at least a portion of the other optical cable 4b sandwiched between the first locking piece 125a and the second locking piece 125b of the second locking portion 123, in which the outer coating 7 of the first cable portion 41 remains, Displacement in the other longitudinal direction of the case body can be prevented.
[0119]
The first cable portion 41 of each of the optical cables 4a and 4b includes a plurality of first locking pieces 124a and a second locking piece 124b of the first locking portion 122 and a first locking piece of the second locking portion 123. The case body 112 is sandwiched between both sides in the width direction by the second locking pieces 125b. Thereby, when an external force in the longitudinal direction of the case body 112 acts on each of the optical cables 4a and 4b, the plurality of first locking pieces 124a and the second locking pieces 124b of the first locking portion 122 and the second locking pieces 124b are formed. The longitudinal force received by the plurality of first locking pieces 125a and the second locking pieces 125b of the locking portion 123 from the optical cables 4a and 4b can be dispersed. Therefore, the plurality of first locking pieces 124a and second locking pieces 124b of the first locking portion 122 and the plurality of first locking pieces 125a and second locking pieces 125b of the second locking portion 123 are damaged. Can be prevented. Further, at this time, the optical cables 4 a and 4 b are partially actuated by the plurality of first locking pieces 124 a and the second locking pieces 124 b of the first locking section 122 and the plurality of first locking pieces of the second locking section 123. Since the forces received from the pieces 125a and the second locking pieces 125b are also distributed at a plurality of locations, it is possible to prevent the outer jacket 7 of the optical cables 4a and 4b from being damaged due to such a force acting locally.
[0120]
In this manner, the optical cables 4a and 4b are locked by the joint case 111 such that at least the portion of the first cable portion 41 of each of the optical cables 4a and 4b where the jacket coat 7 remains cannot be displaced.
[0121]
The second cable portion 42 of one of the optical cables 4a is inserted into and engaged with a locking hole on one side in the longitudinal direction of the case body 112. The second cable portion 42 of the other optical cable 4b is inserted into and latched on a hook hole on the other longitudinal side of the case body 112. Thus, when an external force in the longitudinal direction of the case body 112 acts on each of the optical cables 4a and 4b, the external force is applied not only to the portion of the first cable portion 41 where the jacket coat 7 remains but also to the support wire 8. Therefore, the external force acting on the portion of the first cable portion 41 where the jacket coat 7 remains can be reduced, and the portion can be prevented from being displaced in the longitudinal direction of the case main body 112.
[0122]
In the joint case 111 of this embodiment, first, the ends of one optical fiber 5a and the other optical fiber 5b are arranged in the connection portion arrangement region 132 of the case main body 112, and the first and second guides of the case main body 112 are arranged. The optical fibers 5a and 5b are wound and guided by the pieces 127a and 127b, respectively, so that the optical fibers 5a and 5b are stored in the storage space 117. The optical fibers 5a and 5b are connected to each other in the connection portion arrangement region 132. Next, on one side in the width direction, the lid 113 connected to the case main body 112 so as to be angularly displaceable around the angular displacement axis L1 extending in the longitudinal direction is covered with the main body engaging portions 134a and 134b of the case main body 112. The joint case 111 is closed by performing angular displacement so that the lid engaging portions 141a and 141b of the body 113 approach each other.
[0123]
Further, as shown in FIG. 20 (2), one exposed optical fiber 5a is arranged so as to be wound around the third guide piece 128a, the fifth guide piece 128c, and the first guide piece 127a and stored. You may make it accommodate in the space 117. At this time, the other exposed optical fiber 5b may be wound around the fourth guide piece 128b, the fifth guide piece 128c, and the second guide piece 127b and stored in the storage space 117. Good.
[0124]
The third and fifth guide pieces 128a and 128c are used when the one optical fiber 5a is wound around the third guide piece 128a, the fifth guide piece 128c, and the first guide piece 127a as described above and stored. The fiber 5a is arranged at a position where the fiber 5a bends with a radius of curvature equal to or larger than the minimum allowable bending radius. The fourth and fifth guide pieces 128b and 128c are used when the other optical fiber 5b is wound around the above-described fourth guide piece 128b, fifth guide piece 128c and second guide piece 127b and stored. The fiber 5b is arranged at a position where the fiber 5b is bent with a radius of curvature equal to or larger than the minimum allowable bending radius.
[0125]
As described above, the exposed optical fiber 5 in the vicinity of the connection portion can be stored in the storage space 117 of the joint case 111 by being curved. Thus, the optical fiber 5 can be stored in the storage space of the joint case 111 regardless of the length of the optical fiber 5 exposed. The exposed portion of the optical fiber 5 has an extra length for facilitating the connection operation when connecting by the connection portion. If the extra length is large, the connection operation can be facilitated. As described above, even if the exposed optical fiber 5 is long, it can be stored in the storage space 117 of the joint case 111. Therefore, by using such a joint case 111, the exposed optical fiber 5 portion ( Margin) can be sufficiently ensured, which can contribute to improvement in workability of the connection work.
[0126]
FIG. 21 is a perspective view showing a joint case 151 of an optical fiber cable according to the third embodiment of the present invention. An optical fiber cable joint case (hereinafter, may be simply referred to as a “joint case”) 151 has a substantially flat and long case body 152 and a substantially flat and long case body similarly. The case body 152 and the cover 153 are connected to each other on one side in the width direction so as to be angularly displaceable around an angular displacement axis L10 extending in the longitudinal direction. The joint case 151 can be opened and closed by angularly displacing the case body 152 and the lid 153. The case main body 152 and the lid 153 are made of a material having weather resistance, for example, polyethylene, polypropylene, and acrylonitrile butadiene styrene (abbreviation: ABS) copolymer resin.
[0127]
In the description of the case body 152, unless otherwise limited, the longitudinal direction refers to the longitudinal direction of the case body 152, the width direction refers to the width direction of the case body 152, and the thickness direction refers to the thickness direction of the case body 152. Means In the description of the lid 153, unless otherwise limited, the longitudinal direction refers to the longitudinal direction of the lid 153, the width direction refers to the width direction of the lid 153, and the thickness direction refers to the thickness of the lid 153. Means direction.
[0128]
The case main body 152 is substantially flat and long, and has a main body base 154 in which a main body recess 157 is formed. The lid 153 has a lid base 155 that is substantially flat and long and plate-shaped. The casing 156 is configured to include the main body base 154 and the lid base 155.
[0129]
The main body base 154 is opened in one direction in the thickness direction, and is opened in the longitudinal direction at one end 158a of the main body base that is one end in the longitudinal direction of the main body base 154 and the other end 158b of the main body base that is the other end in the longitudinal direction. A recess 157 is formed. In the casing 156, a storage space 157 defined by the main body recess 157 of the main body base 154 is formed. The connection space to which each optical fiber 5 is connected and the exposed optical fiber 5 in the vicinity thereof can be stored in the storage space 157 thus formed. Since the main body recess and the storage space of the main body base 154 are substantially the same space, they are denoted by the same reference numeral “157”.
[0130]
When the joint case 151 is closed, the lid base 155 is arranged and laminated on one side in the thickness direction of the main body base 154, and the peripheral edge of the main body base 154 and the peripheral edge of the lid base 155 are in contact with each other. It is in a state where it is done. At this time, the storage space 157 is opened by cable insertion holes 159a and 159b formed at one end 158a of the main body base and the other end 158b of the main body base, respectively. When the joint case 151 is open, the lid base 155 and the main body base 154 are separated from each other at least on the other side in the width direction, and the storage space 157 is also opened in the thickness direction of the case main body 152. Thereby, the storage space 157 can be largely opened.
[0131]
FIG. 22 is a front view showing the case main body 152. FIG. 23 is a plan view showing the case main body 152. FIG. 24 is a rear view showing the case main body 152. FIG. 25 is a right side view showing the case main body 152. FIG. 26 is a sectional view taken along section line FF in FIG. The main body base 154 has a main body bottom 161, a first side wall 162, and a second side wall 163. The main body bottom 161 is formed in a flat plate shape extending in the longitudinal direction. The first side wall portion 162 is formed in a flat plate shape that protrudes in one thickness direction from one end portion in the width direction of the main body bottom portion 161 and extends in the longitudinal direction. The second side wall portion 163 is formed in a plate shape that protrudes in one thickness direction from the other end in the width direction of the main body bottom portion 161 and extends in the longitudinal direction. The main body recess 157 faces the main body bottom 161, the first side wall 162, and the second side wall 163.
[0132]
More specifically, the first side wall portion 162 is formed in a flat plate shape extending in the longitudinal direction. More specifically, the second side wall portion 163 is formed in a flat plate shape in which a central portion 163c in the longitudinal direction excluding both end portions 163a and 163b in the longitudinal direction of the second side wall portion 163 extends substantially parallel to the first side wall portion 162. You. Further, the second side wall portion 163 is inclined so as to approach the first side wall portion 162 from the longitudinal center portion 163c toward one side in the longitudinal direction, and one end portion 163a in the longitudinal direction of the second side wall portion 163 is in the longitudinal direction. It is formed so as to be disposed closer to the second side wall portion 163 than the central portion 163c. Further, the second side wall portion 163 is inclined so as to approach the first side wall portion 162 from the longitudinal center portion 163c to the other side in the longitudinal direction, and the other longitudinal end portion 163b of the second side wall portion 163 is elongated. It is formed so as to be disposed closer to the first side wall 162 than the center 163c in the direction. Both ends 163 a and 163 b in the longitudinal direction of the second side wall 163 are arranged in parallel with the first side wall 162.
[0133]
As described above, the main body base 154 has the main body base one end 158a and the main body base other end 158b, which are both ends in the longitudinal direction, at the center 158c between the main body base one end 158a and the main body base other end 158b. It is formed so that the dimension in the width direction is smaller than that.
[0134]
Also, as shown in FIG. 23, the main body base 154 has a main body base central portion 158c, which is a central portion in the longitudinal direction of the main body base 154, having a thickness dimension larger than the main body base one end 158a and the main body base other end 158b. It is formed to be large. The first and second side walls 162, 163 are formed such that the end surfaces of the side walls 162, 163 on one side in the thickness direction of the main body base 154 are arranged on the same virtual plane.
[0135]
The one end 162a in the longitudinal direction of the first side wall 162 projects toward the one end 163a in the longitudinal direction of the second side wall 163 and communicates with the bottom 161 of the main body. One locking piece 164a is provided at an interval from each other. The other end 162b in the longitudinal direction of the first side wall 162 projects toward the other end 163b in the longitudinal direction of the second side wall 163 and communicates with the main body bottom 161. The second locking pieces 164b are provided at intervals from each other. However, in FIG. 21, a part of the first and second locking pieces 164a and 164b is omitted for easy understanding. More specifically, as shown in FIG. 22, the shape of the first locking piece 164a projected on an imaginary plane extending parallel to the main body bottom 161 is a substantially right triangle, and the sides of the first locking piece 164a except the hypotenuse are the first triangle. The oblique side is continuous with the side wall portion 162 and faces in one direction in the longitudinal direction of the case main body 152. More specifically, as shown in FIG. 22, the shape of the second locking piece 164b projected on an imaginary plane extending parallel to the main body bottom 161 is a substantially right triangle, and the sides of the second locking piece 164b except the hypotenuse are the first sides. The oblique side is continuous with the side wall portion 162 and faces in the direction toward the other longitudinal direction of the case main body 152.
[0136]
At one longitudinal end 163a of the second side wall 163, a plurality of third locking pieces 164c projecting toward the first locking piece 164a and communicating with the main body bottom 161 in this embodiment are provided. Is provided. Further, a plurality of, in this embodiment, five fourth locking members project from the other end 163b in the longitudinal direction of the second side wall portion 163 so as to face the second locking pieces 164b and communicate with the main body bottom portion 161. A piece 164d is provided. However, in FIG. 21, a part of the third and fourth locking pieces 164c and 164d is omitted for easy understanding. The third locking piece 164c and the fourth locking piece 164d have a substantially rectangular shape projected on an imaginary plane extending parallel to the main body bottom portion 161 and one side thereof is formed on the first side wall portion 162. Be connected.
[0137]
The case main body 152 further has a first partition wall 165 and a second partition wall 166. The first partition wall portion 165 protrudes from the position near the first side wall portion 162 of the main body bottom portion 161 to one side in the thickness direction of the case main body 152, and is made parallel to a portion of the first side wall portion 162 except for both longitudinal end portions 162a and 162b. It is formed in a flat plate shape extending in the longitudinal direction of the case main body 152 at intervals. The second partition wall portion 166 protrudes in a thickness direction of the case main body 152 from a position near the second side wall portion 163 of the main body bottom portion 161 and is parallel to a portion of the second side wall portion 163 except for both ends 163a and 163b in the longitudinal direction. It is formed in a plate shape extending at intervals. More specifically, the second partition wall section 166 is inclined so as to approach the first partition wall section 165 as it advances toward both ends in the longitudinal direction of the case main body 152. One end in the longitudinal direction of the first partition wall 165 and one end in the longitudinal direction of the second partition wall 166 are spaced apart in the width direction, and the other end of the first partition wall 165 in the longitudinal direction is connected to the second end. The partition wall 166 is arranged at an interval in the width direction from the other end in the longitudinal direction.
[0138]
The first and second partition walls 165 and 166 divide the central portion of the main body recess 157 in the longitudinal direction into three regions. More specifically, the central portion in the longitudinal direction of the main body concave portion 157 has a deep region 167 facing both the first partition wall portion 165 and the second partition wall portion 166, and the first side wall portion 162 and the first partition wall portion 165. And a second shallow region 168b facing both the second side wall portion 163 and the second partition wall portion 166. The first and second shallow regions 168a and 168b have a smaller dimension in the thickness direction than the deep region 167. The deep region 167 communicates with the first and second shallow regions 168a and 168b at a first communication port 171 formed by one longitudinal end of the first partition wall 165 and the second partition wall 166. Further, the deep region 167 communicates with the first and second shallow regions 168a and 168b at a second communication port 172 formed by the other longitudinal end of the first partition wall portion 165 and the second partition wall portion 166.
[0139]
The first side wall portion 162 is closer to the other longitudinal end portion 162b than the one longitudinal end portion 162a of the first side wall portion 162, and is closer to the one longitudinal end portion 162a than the first communication port 171 is connected to the second side wall portion 163. A first inner locking piece 173a protruding toward the main body and communicating with the bottom 161 is provided. In addition, the first side wall portion 162 is located closer to one longitudinal end portion 162a than the other longitudinal end portion 162b of the first side wall portion 162 and is located closer to the other longitudinal end portion 162b than the second communication port 172. A second inner locking piece 173 b that projects toward 163 and communicates with the main body bottom 161 is provided. However, in FIG. 21, the first and second inner locking pieces 173a and 173b are omitted for easy understanding. More specifically, as shown in FIG. 22, the shape of the first inner locking piece 173a projected on an imaginary plane extending parallel to the main body bottom 161 is a substantially right triangle, and the sides excluding the hypotenuse are the fourth sides. The oblique side is continuous with the one side wall portion 162 and faces in one direction in the longitudinal direction of the case main body 152. More specifically, as shown in FIG. 22, the shape of the second inner locking piece 173b projected on an imaginary plane extending parallel to the main body bottom 161 is a substantially right triangle, and the sides except the hypotenuse of the second inner locking piece 173b are the fourth sides. The oblique side is continuous with the one side wall portion 162 and faces in the direction toward the other longitudinal direction of the case main body 152.
[0140]
The second side wall portion 163 is provided with a third inner locking piece 174a protruding toward the first inner locking piece 173a and communicating with the main body bottom 161. The second side wall portion 163 is provided with a fourth inner locking piece 174b projecting toward the second inner locking piece 173b and communicating with the main body bottom 161. However, in FIG. 21, the third and fourth inner locking pieces 174a and 174b are omitted for easy understanding. More specifically, as shown in FIG. 22, the shape of the third inner locking piece 174a projected on an imaginary plane extending parallel to the main body bottom 161 is a substantially right triangle, and the sides except the hypotenuse are the fourth The oblique side is continuous with the one side wall portion 162 and faces in one direction in the longitudinal direction of the case main body 152. More specifically, as shown in FIG. 22, the shape of the fourth inner locking piece 174 b projected on an imaginary plane extending parallel to the main body bottom 161 is a substantially right-angled triangle, and the sides excluding the hypotenuse are the fourth sides. The oblique side is continuous with the one side wall portion 162 and faces in the direction toward the other longitudinal direction of the case main body 152.
[0141]
The case main body 152 further includes a first outer guide piece 175a, a first inner guide piece 176a, a second outer guide piece 175b, and a second inner guide piece 176b. The first outer guide piece 175a, the first inner guide piece 176a, the second outer guide piece 175b, and the second inner guide piece 176b face the deep region 167, and are provided to protrude from the main body bottom 161 in one thickness direction.
[0142]
The first outer guide piece 175a extends substantially in the longitudinal direction of the case body 152, and is curved in an arc shape such that the center of the first outer guide piece 175a projects toward the second partition wall 166. Formed. One end of the first outer guide piece 175a in the longitudinal direction faces the first communication port 171 and the first partition wall section 165 and the second partition wall section 166 are arranged with an interval therebetween, and the first outer guide piece 175a is provided. In the other end in the longitudinal direction, the first partition wall 165 and the second partition wall 166 are arranged at an interval. The first inner guide piece 176a extends substantially in the longitudinal direction of the case body 152, and is inclined toward the second partition wall portion 166 toward the one end from the other end in the longitudinal direction so as to be curved in an arc shape. It is formed. One end in the longitudinal direction of the first inner guide piece 176a faces the other end in the longitudinal direction of the first outer guide piece 175a and is arranged at an interval, and the other end in the longitudinal direction of the first inner guide piece 176a is It is arranged at an interval from one partition wall portion 165.
[0143]
The second outer guide piece 175b extends substantially in the longitudinal direction of the case main body 152, and is curved in an arc shape such that the central portion of the second outer guide piece 175b projects toward the second partition wall portion 166. Formed. The other end in the longitudinal direction of the second outer guide piece 175b faces the second communication port 172, and the first partition wall part 165 and the second partition wall part 166 are arranged with an interval therebetween, and the second outer guide piece is provided. At one end in the longitudinal direction of 175b, the first partition wall portion 165 and the second partition wall portion 166 are arranged with an interval. The second inner guide piece 176b extends substantially in the longitudinal direction of the case body 152, and is inclined toward the second partition wall portion 166 from the one end in the longitudinal direction to the other end so as to be curved in an arc shape. It is formed. The other end in the longitudinal direction of the second inner guide piece 176b faces one end in the longitudinal direction of the second outer guide piece 175b and is arranged at an interval, and the one end in the longitudinal direction of the second inner guide piece 176b is connected to the first end. The partition wall 165 is arranged at an interval.
[0144]
The other end in the longitudinal direction of the first inner guide piece 176a and the one end in the longitudinal direction of the second inner guide piece 176b are spaced from each other in the longitudinal direction of the case body 152. As described above, the first outer guide piece 175a and the second outer guide piece 175b are formed and arranged to be plane-symmetric with respect to a virtual plane passing through the center in the longitudinal direction of the case main body 152 and perpendicular to the longitudinal direction of the case main body 152. You. Further, the first inner guide piece 176a and the second inner guide piece 176b are formed and arranged symmetrically with respect to the virtual plane. The case main body 152 further has a connection portion arrangement area defining wall (hereinafter, may be simply referred to as a “defining wall”) 177. The defining wall 177 is disposed between the first inner guide piece 176a and the second inner guide piece 176b. A connection portion arrangement region portion between the other end in the longitudinal direction of the first inner guide piece 176a and one end in the longitudinal direction of the second inner guide piece 176b, and faces the defining wall 177 and the first partition wall portion 165. 178 are provided.
[0145]
In the deep region 167, connecting portions are arranged from the first communication port 171 along the second partition wall portion 166 side of the first outer guide piece 175 a and the first partition wall portion 165 side of the first inner guide piece 176 a. A first optical fiber guiding region portion 181 is provided which is a region portion extending over the region portion 178 and which protrudes in a direction substantially from the first partition wall portion 165 toward the second partition wall portion 166 and curves. In the deep region 167, the connection portion extends from the second communication port 172 along the second partition wall portion 166 side of the second outer guide piece 175 b and the first partition wall portion 165 side of the second inner guide piece 176 b. A second optical fiber guide region portion 182 is provided, which is a region portion extending over the arrangement region portion 178 and protruding from the first partition wall portion 165 toward the second partition wall portion 166 and curved.
[0146]
The side surface of the first outer guide piece 175a and the first inner guide piece 176a facing the first optical fiber guide area portion 181 has a cylindrical surface shape having a radius of curvature equal to or larger than the minimum allowable bending radius of the optical fiber 5 included in the optical cable 4. It is formed. The side faces of the second outer guide piece 175b and the second inner guide piece 176b facing the second optical fiber guide area portion 182 have a cylindrical surface shape having a radius of curvature equal to or larger than the minimum allowable bending radius of the optical fiber 5 included in the optical cable 4. Formed.
[0147]
In the present embodiment, the connecting portion between one optical fiber 5a and the other optical fiber 5b is arranged in the connecting portion arrangement region portion 178, and one of the optical fibers is assigned to the first outer guide piece 175a and the first inner guide piece 176a. By guiding the fiber 5a, the first optical fiber guide area portion 181 accommodates one optical fiber 5a, and the second outer guide piece 175b and the second inner guide piece 176b guide the other optical fiber 5b. The other optical fiber 5b is housed in the second optical fiber guide area 182. Each of the guide pieces 175 and 176 guides each optical fiber 5 so as to be curved at a radius of curvature equal to or larger than the minimum allowable bending radius of each optical fiber 5, in this embodiment, 30 mm. Therefore, each optical fiber 5 is prevented from bending with a radius of curvature smaller than the minimum allowable bending radius, and the optical fiber 5 is bent in a state where each optical fiber 5 is bent so as not to hinder the propagation of optical signals. It can be stored in the guide area portions 181 and 182.
[0148]
Further, since each optical fiber 5 is stored in a curved state in each of the optical fiber guide area portions 181 and 182 of the storage space 157, compared with the case where each optical fiber 5 is stored linearly in the storage space 157. Thus, the dimension L between the cable insertion holes 159a and 159b for extending the optical cable 4 of the joint case 151 can be reduced, and the joint case 151 can be downsized.
[0149]
Here, in the present embodiment, in order to connect the optical fibers 5a and 5b exposed from the two optical cables 4a and 4b, one connecting portion is arranged in the connecting portion arrangement area portion 178. For example, when connecting the optical fibers 5 exposed from the four optical cables 4, two connecting portions may be arranged in the connecting portion arrangement region 178.
[0150]
The case main body 152 is provided with a plurality of, in this embodiment, three main body hinge pieces 183a, 183b, 183c. The first main body hinge piece 183a is provided so as to protrude in one width direction from one longitudinal end 162a of the first side wall 162. The second main body hinge piece 183b is provided so as to protrude in one width direction from the other longitudinal end 162b of the first side wall 162. The third main body hinge piece 183c is provided so as to protrude in one width direction from the longitudinal central portion 162c of the first side wall portion 162.
[0151]
As shown in FIGS. 22, 25 and 26, each of the body hinge pieces 183a to 183c has a cross-sectional shape perpendicular to the longitudinal direction which is inclined in one direction in the width direction toward one side in the width direction and is inclined in the other direction in the thickness direction. It is formed so as to be substantially C-shaped to be opened. As a result, a hinge recess 184 that opens to the other side in the thickness direction is formed. At the other end in the thickness direction of the main body hinge pieces 183a to 183c, a pair of protrusions 185 are provided to protrude toward the hinge recess 184 in the width direction so as to approach each other.
[0152]
Further, a hinge piece through hole 186 penetrating in the thickness direction is formed at a central portion in the longitudinal direction and a central portion in the width direction of each of the body hinge pieces 183a to 183c. The hinge recess 184 is also opened in the thickness direction by the hinge piece through hole 186. By forming such a hinge piece through hole 186, the weight of the case main body 152 can be reduced. Furthermore, in the molding step of each of the body hinge pieces 183a to 183c in manufacturing the case body 152, the mold can be easily removed from the other side in the thickness direction by forming the hinge piece through hole 186.
[0153]
The case main body 152 is provided with a plurality of, in this embodiment, two, locking pieces 187a and 187b. The first latching piece 187a is provided so as to protrude in one width direction from the first side wall portion 162 between the first main body hinge piece 183a and the third main body hinge piece 183c. The second latching piece 187b is provided so as to protrude in one width direction from the first side wall 162 between the second body hinge piece 183b and the third body hinge piece 183c. As shown in FIG. 22 and FIG. 24, a locking hole 188 that penetrates in the thickness direction is formed at the center in the longitudinal direction of each of the locking pieces 187a and 187b.
[0154]
FIG. 27 is an enlarged cross-sectional view of section IX of FIG. A drain hole 191 penetrating in the width direction and communicating the deep region 167 with the outside of the case main body 152 may be formed in the central portion 163c in the longitudinal direction of the second side wall portion 163. Thus, even if water enters the joint case 151, the water is easily discharged from the water drain hole 191 to the outside of the joint case 151, and the connection between the one optical fiber 5a and the other optical fiber 5b is established. The exposed optical fiber 5 in and around the portion can be prevented from being flooded.
[0155]
The case main body 152 is provided with a plurality of, in this embodiment, four main body engaging portions 192a, 192b, 192c, 192d. The first main body engaging portion 192a is provided so as to protrude from the longitudinal one end 163a of the second side wall portion 163 to the other width direction. The second main body engaging portion 192b is provided to protrude from the other longitudinal end 163b of the second side wall 163 to the other width direction. The third main body engaging portion 192c is provided so as to protrude from the position near one longitudinal end of the longitudinal central portion 163c of the second side wall portion 163 to the other width direction. The fourth body engaging portion 192d is provided so as to protrude from the position near the other longitudinal end of the longitudinal central portion 163c of the second side wall portion 163 to the other width direction. Each of the first to fourth main body engaging portions 192a to 192d has an engaging hole 193 penetrating in the thickness direction.
[0156]
As described above, in the present embodiment, the case main body 152 is formed to be plane-symmetric with respect to a virtual plane passing through the center of the case main body 152 in the longitudinal direction and perpendicular to the longitudinal direction of the case main body 152.
[0157]
FIG. 28 is a front view showing the lid 153. FIG. 29 is a plan view showing the lid 153. FIG. 30 is a rear view showing the lid 153. FIG. 31 is a right side view showing the lid 153. FIG. 32 is a cross-sectional view taken along the line GG of FIG. 28. As described above, the lid 153 has the lid base 155 that is substantially flat and elongated. The lid base 155 has a lid bottom 201 and a lid wall 202. The lid bottom 201 is formed in a flat plate shape. The cover wall portion 202 is formed so as to protrude in the thickness direction, that is, in a state where the joint case 151 is closed, so that the cover body 153 projects in a direction facing the case body 152 and extends endlessly. More specifically, the lid wall portion 202 is formed so as to fit into the first and second shallow regions 168a and 168b when the joint case 151 is closed. The central portion in the longitudinal direction of the lid bottom portion 201 is depressed in the other direction in the thickness direction, whereby the joint case 151 is closed, and the lid concave portion opens toward the connection portion arrangement region 178 of the case main body 152 in a closed state. 203 is formed.
[0158]
The lid bottom 201 is formed in such a shape that one longitudinal end 201a and the other longitudinal end 201b of the lid bottom 201 have a smaller width dimension than the remaining part. More specifically, the lid bottom 201 is formed such that the other end in the width direction is closer to one end in the width direction from the center in the longitudinal direction to both ends in the longitudinal direction. One end portion 201a in the longitudinal direction and the other end portion 201b in the longitudinal direction of the lid bottom portion 201 are substantially in the shape of a rectangular flat plate, and are formed to have the same dimension in the width direction.
[0159]
A plurality of first lid locking pieces 204a, which protrude in one direction in the thickness direction, in this embodiment, five first lid locking pieces 204a are provided at intervals at one end 201a in the longitudinal direction of the lid bottom 201. A plurality of, in this embodiment, five second lid locking pieces 204b protruding in one direction in the thickness direction are provided at the other end 201b in the longitudinal direction of the lid bottom 201 at an interval from each other. Here, the first and second lid locking pieces 204a and 204b shown in FIG. 21 are partially omitted for easy understanding. More specifically, as shown in FIG. 29, the shape of the first lid locking piece 204a projected on an imaginary plane perpendicular to the width direction of the lid bottom 201 is a substantially right triangle, and its hypotenuse is The removed side is connected to the lid bottom 201, and the oblique side faces the direction toward one longitudinal direction of the lid 153. More specifically, as shown in FIG. 29, the shape of the second lid locking piece 204b projected on an imaginary plane perpendicular to the width direction of the lid bottom 201 is a substantially right triangle, and its hypotenuse is The removed side continues to the lid bottom 201, and the oblique side faces in the direction toward the other longitudinal direction of the lid 153.
[0160]
The lid 153 is provided with a plurality of, in this embodiment, three lid hinge pieces 205a, 205b, and 205c. The first lid hinge piece 205a is provided so as to protrude in one width direction from one longitudinal end 201a of the width bottom one end of the lid bottom 201. The first lid hinge piece 205a has a pair of shaft support portions 206a projecting in the width direction from the lid bottom 201 at an interval from each other, and an axis parallel to the longitudinal direction of the lid 153. A shaft portion 207a supported by the shaft support portion 206a at a distance from the bottom portion 201; The second lid hinge piece 205b is provided so as to protrude in one width direction from the other longitudinal end 201b of one width end of the lid bottom 201. The second lid hinge piece 205b has a pair of shaft support portions 206b projecting in the width direction from the lid bottom 201 at an interval from each other, and an axis parallel to the longitudinal direction of the lid 153. A shaft portion 207b supported by the shaft support portion 206b at a distance from the bottom portion 201.
[0161]
The third lid hinge piece 205c is provided so as to protrude in one width direction from a longitudinal central portion 201c of one end in the width direction of the lid bottom 201. The third lid hinge piece 205c has a pair of shaft support portions 206c projecting in the width direction from the lid bottom 201 at an interval from each other, and an axis parallel to the longitudinal direction of the lid 153. A shaft portion 207c supported by the shaft support portion 206c at a distance from the bottom portion 201; As shown in FIGS. 31 and 32, the shaft portions 207a to 207c of the first to third lid hinge pieces 205a to 205c have an outer peripheral surface formed in a cylindrical shape, and each of the shaft portions 207a to 207c has a cylindrical shape. The axes are arranged coaxially.
[0162]
The lid 153 is provided with a plurality of, in this embodiment, four, lid engagement portions 211a, 211b, 211c, and 211d. The first lid engaging portion 211a is provided to protrude in one thickness direction from one longitudinal end 201a of the other end in the width direction of the lid bottom 201. The second lid engaging portion 211b is provided so as to protrude in one thickness direction from the other longitudinal end 201b of the widthwise other end of the lid bottom 201. The third lid engaging portion 211c is provided so as to protrude in one thickness direction from a position near one longitudinal end in a longitudinal central portion 201c of the other end in the width direction of the lid bottom 201. The fourth lid engaging portion 211d is provided so as to protrude in one thickness direction from a position near the other end in the longitudinal central portion 201c of the other end in the width direction of the bottom 201 of the lid. At the free ends of the first to fourth lid engaging portions 211a to 211d, as shown in FIGS. 31 and 32, engaging claws 212 projecting to the other side in the width direction are formed.
[0163]
As described above, in the present embodiment, the lid 153 is formed to be plane-symmetric with respect to a virtual plane passing through the center of the lid 153 in the longitudinal direction and perpendicular to the longitudinal direction of the lid 153.
[0164]
FIG. 33 is a cross-sectional view taken along the line EE of FIG. 21. The shaft portion 207a of the first lid hinge piece 205a of the lid 153 fits into a hinge recess 184 formed by the main body hinge piece 183a of the case main body 152. The shaft portion 207b of the second lid hinge piece 205b of the lid 153 fits into a hinge recess 184 formed by the main body hinge piece 83b of the case main body 152. The shaft portion 201c of the third lid hinge piece 205c of the lid 153 fits into a hinge recess 184 formed by the main body hinge piece 183c of the case main body 152. In this way, the lid 153 is connected to the case main body 152 so as to be angularly displaceable about the axis of each of the shaft portions 207a to 207c, that is, the angular displacement axis L10.
[0165]
The lid 153 is angularly displaced around the angular displacement axis L10 in a direction approaching the case main body 152, and the first to fourth lid engaging portions 211a to 211d of the lid 153 are connected to the first to fourth lids of the case main body 152. The joints are respectively inserted into the respective engaging holes 193 of the fourth body engaging portions 192a to 192d to lock the respective engaging claws 212 of the first to fourth lid engaging portions 211a to 211d. The case 151 is in a closed state, and by releasing this locked state, the joint case 151 is in an open state. When the joint case 151 is closed, the lid wall 202 of the lid 153 fits tightly into the first and second shallow regions 168a and 168b of the case main body 152.
[0166]
FIG. 34 is an enlarged front view showing one longitudinal side of the case main body 152. FIG. 35 is a sectional view taken along section line HH in FIG. 34. FIG. 36 is a cross-sectional view taken along section line KK in FIG. When one of the optical cables 4a is attached to the joint case 151, the jacket 7 is torn from the end of the optical cable 4a to a position having a predetermined tear length, and the optical fiber 5a, the pair of protection wires 6, and the optical fiber 5a and the pair of protection are provided. The first cable portion 41 including the jacket 7 covering the wire 6 is separated into the second cable portion 42 including the support wire 8 and the jacket 7 covering the support wire 8. The outer sheath 7 is removed from the end of the first cable portion 41 to a predetermined exposed length shorter than the tear length, and the optical fiber 5a is exposed.
[0167]
The portion of the first cable portion 41 where the outer coating 7 remains remains in the width direction of the case body 152 by the first and third locking pieces 164a and 164c and the first and third inner locking pieces 173a and 174a. It is arranged so as to be sandwiched from both sides. The exposed optical fiber 5a is disposed in the first optical fiber guiding area portion 181 of the deep area 167. At this time, when the joint case 151 is closed, the first cable portion 41 is connected to the first lid locking piece 204a of the lid 153 and the main body bottom 161 of the main body base 154 of the case main body 152 as shown in FIG. Thus, the sheet is sandwiched from both sides in the thickness direction.
[0168]
The portion of the first cable portion 41 where the outer coating 7 remains remains in the width direction of the case body 152 by the first and third locking pieces 164a and 164c and the first and third inner locking pieces 173a and 174a. It is pinched from both sides. Further, the first cable portion 41 is sandwiched from both sides in the thickness direction by the first lid locking piece 204a of the lid 153 and the main body bottom 161 of the main body base 154 of the case main body 152. The shape of the first locking piece 164a and the first and third inner locking pieces 173a and 174a projected on an imaginary plane extending parallel to the main body bottom 161 is a substantially right-angled triangle, and the acute-angled tip portions thereof are formed. Abuts on the portion of the first cable portion 41 where the jacket 7 remains so as to resiliently bite. The shape of the first lid locking piece 204a projected on an imaginary plane perpendicular to the width direction of the lid bottom 201 is substantially a right triangle, and the acute-angled end of the first lid locking piece 204a is a jacket of the first cable portion 41. The portion where the coating film 7 remains is brought into contact with the portion so as to resiliently bite. Thus, the first and third locking pieces 164a and 164c, the first and third inner locking pieces 173a and 174a, the first lid locking piece 204a of the lid 153, and the main body of the main body base 154 of the case main body 152 are formed. It is possible to prevent the portion of the first cable portion 41, which is sandwiched by the bottom portion 161, where the outer coating 7 remains, from being displaced at least in one longitudinal direction of the case main body 152.
[0169]
The first cable portion 41 includes a plurality of first and third locking pieces 164a and 164c, a first and third inner locking pieces 173a and 174a, and a plurality of first lid locking pieces 204a of the lid 153. The case body 152 is sandwiched not only by both sides in the width direction but also both sides in the thickness direction by the body bottom 161 of the body base 154 of the case body 152. Thus, when an external force acts on one optical cable 4a such that the optical cable 4a moves toward one side in the longitudinal direction of the case main body 152, the first and third locking pieces 164a and 164c, the first and third inner portions, respectively. Since the locking pieces 173a and 174a and the first lid locking pieces 204a of the lid 153 can distribute the force from the optical cable 4a toward the one side in the longitudinal direction, the first and third locking pieces can be dispersed. The pieces 164a and 164c, the first and third inner locking pieces 173a and 174a, and the first lid locking pieces 204a of the lid 153 can be prevented from being damaged. Further, at this time, the optical cable 4a is connected to the first and third locking pieces 164a and 164c, the first and third inner locking pieces 173a and 174a, and the first lid locking pieces of the lid 153 at a half acting force. Since the force received from the cable 204a is also distributed to a plurality of locations, it is possible to prevent the outer jacket 7 of the optical cable 4a from being damaged due to such a local force.
[0170]
In this manner, the optical cable 4a is locked by the joint case 151 so that at least the portion of the first cable portion 41 where the jacket film 7 remains cannot be displaced. The other optical cable 4b is also stably and safely locked by the joint case 151 in the same manner as the above-mentioned one optical cable 4a.
[0171]
The second cable portion 42 of the one optical cable 4a is inserted into the hooking hole 188 of the hooking piece 187a of the case main body 152 and is hooked on the hooking piece 187a. Thus, when an external force acts on one of the optical cables 4a such that the optical cable 4a is directed to one side in the longitudinal direction of the case body 152, the external force is limited only to the portion of the first cable portion 41 where the jacket coat 7 remains. In addition, since it is dispersed to the support wire 8, the external force acting on the portion of the first cable portion 41 where the jacket coat 7 remains is reduced, and the portion is displaced in the longitudinal direction of the case body 152. Can be prevented.
[0172]
In the joint case 151 of the present embodiment, first, the ends of the one optical fiber 5a and the other optical fiber 5b are arranged in the connection portion arrangement region 178 of the case main body 152, and the first outer guide piece 175a of the case main body 152 is provided. By guiding one optical fiber 5a near the connection portion to the first inner guide piece 176a, the one optical fiber 5a is housed in the first optical fiber guide area portion 181. Further, the other outer optical fiber 5b near the connection portion is guided by the second outer guide piece 175b and the second inner guide piece 176b of the case body 152, so that the other optical fiber 5b is moved to the second optical fiber guide area portion 182. Let it be stored. In the connection portion arrangement region portion 178, the optical fibers 5a and 5b housed in the optical fiber guide region portions 181 and 182 are connected to each other. Next, on one side in the width direction, around the angular displacement axis L10 extending in the longitudinal direction, the lid 153 connected to the case main body 152 so as to be angularly displaceable is attached to the main body engaging portion 192 of the case main body 152. The joint case 151 is closed by angular displacement so that the lid engaging portion 211 approaches.
[0173]
The first and second shallow regions 168a and 168b of the case main body 152 are filled with a first sealing material 213A having a weather resistance, for example, a synthetic rubber such as butyl rubber which is a copolymer of isobutylene and a small amount of isoprene. You. When the joint case 151 is closed, the lid wall portion 202 fits into the first and second shallow regions 168a and 168b, and the lid wall portion 202 comes into close contact with the first sealant 213A. Thereby, at least the connection portion of the storage space 157 and the region where the optical fiber 5 exposed from the optical cable 4 is stored can be partitioned in a watertight manner. Therefore, it is possible to prevent water from entering from the outside into at least the region of the storage space 157 where the connection portion and the optical fiber 5 exposed from the optical cable 4 are stored, and the light exposed from the connection portion and the optical cable 4 can be prevented. The fiber 5 can be protected from water.
[0174]
In a state where the optical fiber 5a exposed from the one optical cable 4a is guided by the first outer guide piece 175a and is housed in the first optical fiber guide region portion 181, the optical fiber 5a and the second partition wall portion 166 are provided. The second sealing member 213B is arranged so as to contact the first outer guide piece 175a and the main body bottom portion 161. The second sealing material 213B is a substantially cylindrical tube having flexibility and elasticity. The same second sealing material 213B is used when the optical fiber 5b exposed from the other optical cable 4b is guided by the second outer guide piece 175b and housed in the second optical fiber guide area portion 182. The fiber 5b, the second partition wall 166, the second outer guide piece 175b, and the main body bottom 161 are arranged so as to come into contact with each other. Accordingly, even when a force acts in a direction that changes the storage shape of the optical fiber 5, for example, when a force acts to float in one direction in the thickness direction, it is possible to restrict displacement in the direction in which the optical fiber 5 tends to float. it can. Accordingly, it is possible to prevent the housing shape of the optical fiber 5 from being changed, which may hinder the propagation of the optical signal.
[0175]
FIG. 37 is a cross-sectional view taken along the line MM of FIG. A screw groove 214 that is depressed in the thickness direction may be provided at an intermediate portion between the first partition wall 165 and the first outer guide piece 175a of the case main body 152. When the joint case 151 is fixed to a wall of a building such as a house via a screw member such as a wood screw, the screw groove portion 214 is a hole through which the screw member is inserted and penetrates in a thickness direction. This is a position where a screw member such as a wood screw is mounted when the joint case 111 is mounted on the wall of the building 102 such as a general house. The joint case 111 can be provided in the building 102 by engaging the fixing jig fixed to the building 102 with the screw groove 214. The own weight of the joint case 111 is supported by the building 102 which is mounted on the screw groove 214 by hanging a fixing jig. This prevents the weight of the joint case 111 from acting on the connecting portion housed in the housing space 157 and the exposed optical fiber 5 near the connecting portion, and the connection state of the connecting portion can be maintained.
[0176]
Further, the joint case 151 is formed in such a shape that both ends in the longitudinal direction have a smaller dimension in the width direction than the central portion in the longitudinal direction. More specifically, as the joint case 151 approaches from the center in the longitudinal direction to both ends in the longitudinal direction, the other side in the width direction is inclined so as to be closer to one side in the width direction, and the dimension in the width direction is reduced. It is formed in a tapered shape. Therefore, the area projected on the virtual plane perpendicular to the thickness direction is smaller than that of the joint case 151 formed in a rectangular parallelepiped shape in which the longitudinal dimension and the width direction of the joint case 151 of the present embodiment are the same. Thereby, the resistance force received from the wind flowing in the thickness direction can be reduced. Therefore, the rotation of the joint case 151 around the axis of the optical cable outside the joint case 151 due to such resistance is suppressed as much as possible, and the joint case 151 is stably held, so that the optical signal propagation trouble is hardly caused. Can be.
[0177]
In the joint case 151 of the present embodiment, in order to further increase the locking force of the optical cable 4 locked by the locking pieces 164a to 164d and the lid locking pieces 204a and 204b, both ends of the joint case 151 in the longitudinal direction are increased. Adhesive tape is wound around the part. As described above, the joint case 151 is formed so as to be inclined so that the other side in the width direction approaches the one side in the width direction, and to taper so as to reduce the dimension in the width direction as it goes to both ends in the longitudinal direction. ing. Therefore, in the joint case 151, the adhesive tape can be easily wound in the width direction as compared with the joint case 151 formed in the same size over the entire longitudinal direction, for example, in a rectangular parallelepiped shape.
[0178]
The present invention is not limited to the above-described first, second and third embodiments, but includes a connection portion where each optical fiber is connected to each other and a storage space for storing an exposed optical fiber in the vicinity thereof, A cable insertion hole for extending an optical fiber cable over the storage space and an external space outside the storage space is formed, and a seal material for filling a seal material for partitioning the storage space from the external space outside the storage space in a watertight manner. A casing in which a filling recess is formed, and a hook piece provided on the outer side of the storage space for hanging a suspension line for hanging an optical fiber cable, and provided on the outer side of the storage space. In addition, the present invention can be similarly implemented as long as it is a joint case of an optical fiber cable including a hook portion for hooking a fixing jig fixed to a building structure.
[0179]
【The invention's effect】
As described above, according to the present invention, in a state where the optical fiber cable is not strained according to the shape of the wiring path through which the optical fiber cable is to be routed, the connection portion to which the optical fiber is connected and the exposed light in the vicinity thereof are connected. The fiber can be stored in the joint case. Conversely, even when the posture of the joint case is restricted due to the shape of the installation place of the joint case itself, the connection portion to which the optical fiber is connected without burdening the optical fiber cable and The exposed optical fiber in the vicinity can be stored in the joint case.
[0180]
Further, according to the present invention, even when the optical fiber cable has a plurality of optical fibers, a plurality of exposed optical fibers near the connecting portion are provided in the housing space of the joint case for protecting the exposed optical fiber near the connecting portion. An optical fiber can be accommodated. In addition, the degree of freedom of arrangement of the connection portion in the joint case is increased, and the storage of the optical fiber in the connection portion and its vicinity can be facilitated.
[0181]
Further, according to the present invention, it is possible to prevent water from entering the storage space from the outside, and it is possible to protect the connection portion from water.
[0182]
Further, according to the present invention, a suspension line for suspending an optical fiber cable is provided on a hook provided on an outer side of a housing space of a joint case for protecting an exposed optical fiber near a connection portion. Hang it. The joint case can be provided so as to be hung on a hanging line hooked on the hooking piece. The weight of the joint case is supported by the suspension line. This prevents the weight of the joint case from acting on the connection portion housed in the storage space and the optical fiber in the vicinity thereof, and the connection state of the connection portion can be maintained. The joint case can be provided on the building structure by hooking the fixing jig fixed to the building structure on the hook provided on the outer side of the storage space. The own weight of the joint case is supported by a building structure which is attached by attaching a fixing jig to the engaging portion. This prevents the weight of the joint case from acting on the connection portion housed in the storage space and the optical fiber in the vicinity thereof, and the connection state of the connection portion can be maintained.
[0183]
Thus, the joint case can be attached, for example, in the middle of an optical fiber cable erected between the branching device and a general house, and also can be attached to a building structure. Therefore, the degree of freedom of the mounting position of the joint case can be increased, and, as described above, the own weight of the joint case is prevented from acting on the connection portion housed in the housing space and the optical fiber in the vicinity thereof, The connection state of the connection portion can be maintained.
[0184]
Further, according to the present invention, the gripping piece can be elastically deformed, deformed in accordance with the connecting portion, and can grip the connecting portion regardless of the structure of the connecting portion. For example, a plurality of types of connecting portions such as a mechanical splice and a fusion sleeve can be gripped by the same gripping piece.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an optical fiber connection portion cover device 1 according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing an installation location of the optical fiber connection unit cover device 1;
FIG. 3 is a sectional view showing the optical cable 4;
FIG. 4 is a front view showing the case main body 2.
FIG. 5 is a plan view showing the case main body 2. FIG.
FIG. 6 is a rear view showing the case main body 2.
FIG. 7 is a cross-sectional view taken along line AA of FIG. 4;
FIG. 8 is a cross-sectional view taken along line BB of FIG. 4;
FIG. 9 is a right side view showing the case main body 2.
FIG. 10 is a front view showing the lid 3;
11 is a rear view showing the lid 3. FIG.
FIG. 12 is a cross-sectional view taken along the line CC of FIG. 10;
13 is a right side view showing the cover 3. FIG.
FIG. 14A is a front view showing a first arrangement example of the optical fibers 5 in the case main body 2; FIG. 14B is a front view showing a second arrangement example of the optical fibers 5 in the case main body 2. FIG. 14C is a front view illustrating a third arrangement example of the optical fibers 5 in the case main body 2. FIG. 14D is a front view showing a fourth arrangement example of the optical fibers 5 in the case main body 2. FIG. 14 (5) is a front view showing a fifth arrangement example of the optical fibers 5 in the case body 2. FIG. 14 (6) is a front view showing a sixth arrangement example of the optical fibers 5 in the case body 2.
FIG. 15 is a perspective view showing a joint case 111 of the optical fiber cable according to the second embodiment of the present invention.
FIG. 16 is a front view showing a joint case 111 of the optical fiber cable.
FIG. 17 is a plan view showing a joint case 111 of the optical fiber cable.
FIG. 18 is a right side view showing the joint case 111 of the optical fiber cable.
FIG. 19 is a rear view showing the joint case 111 of the optical fiber cable.
20A is a front view showing a first arrangement example of the optical fibers 5 in the case main body 112, and FIG. 20B is a front view showing a second arrangement example of the optical fibers 5 in the case main body 112. FIG. FIG.
FIG. 21 is a perspective view showing a joint case 151 of an optical fiber cable according to a third embodiment of the present invention.
FIG. 22 is a front view showing a case main body 152.
FIG. 23 is a plan view showing a case main body 152.
24 is a rear view showing the case main body 152. FIG.
FIG. 25 is a right side view showing the case main body 152.
FIG. 26 is a cross-sectional view taken along the line FF of FIG. 22;
FIG. 27 is an enlarged sectional view of section IX in FIG. 26;
FIG. 28 is a front view showing a lid 153.
FIG. 29 is a plan view showing a lid 153.
FIG. 30 is a rear view showing the lid 153.
FIG. 31 is a right side view showing the lid 153.
FIG. 32 is a sectional view taken along section line GG in FIG. 28;
FIG. 33 is a sectional view taken along section line EE in FIG. 21;
34 is an enlarged front view showing one longitudinal side of the case body 2. FIG.
FIG. 35 is a sectional view taken along the line HH in FIG. 34;
FIG. 36 is a sectional view taken along section line KK in FIG. 34;
FIG. 37 is a sectional view taken along section line MM in FIG. 34;
FIG. 38 is a cross-sectional view showing a joint case 220 of a conventional optical fiber cable.
[Explanation of symbols]
1: 111; 151; 220 Optical fiber cable joint case
4a, 4b optical fiber cable
5a, 5b optical fiber
6 Protection line
7 Mantle coating
8 support lines
13 Seal material filling recess
25a, 25b, 25c, 25d; 159a, 159b Cable insertion hole
34a, 34b, 34c, 34d, 34e; 35a, 35b, 35c, 35d, 35e
37a, 37b; 187a, 187b Hanging pieces
38; 188 Hook hole
39a, 39b, 39c, 39d Main body hooking part
58a, 58b, 58c, 58d Lid engaging portion
136a, 136b Main body retaining hole
144a, 144b Cover hole

Claims (6)

An optical fiber is exposed from an optical fiber cable in which protective lines are arranged on both sides of the optical fiber and covered by a common jacket, and a joint case that covers a connection portion where the exposed optical fibers are connected to each other,
A connection portion where each optical fiber is connected to each other and a storage space in which the exposed optical fiber in the vicinity thereof is stored are formed, and extend from the storage space to an external space outside the storage space in mutually different directions, and the storage space and A joint case for an optical fiber cable, comprising a casing in which at least three or more cable insertion holes for extending the optical fiber cable over an external space are formed. An optical fiber is exposed from an optical fiber cable in which protective lines are arranged on both sides of the optical fiber and covered by a common jacket, and a joint case that covers a connection portion where the exposed optical fibers are connected to each other,
A connection space for connecting the optical fibers to each other and a storage space for storing the exposed optical fiber in the vicinity thereof are formed, and a cable insertion for extending the optical fiber cable over the storage space and an external space outside the storage space. A casing in which a hole is formed;
A joint case for an optical fiber cable, comprising: a holding piece capable of holding at least the same number of connection portions as the number of optical fibers of the optical fiber cable. An optical fiber is exposed from an optical fiber cable in which protective lines are arranged on both sides of the optical fiber and covered by a common jacket, and a joint case that covers a connection portion where the exposed optical fibers are connected to each other,
A connection portion where each optical fiber is connected to each other and a storage space in which the exposed optical fiber in the vicinity thereof is stored are formed, and the storage space is filled with a sealing material for partitioning the storage space from an external space outside the storage space in a watertight manner. A joint case for an optical fiber cable, comprising a casing in which the sealing material filling recess is formed. An optical fiber is exposed from an optical fiber cable in which protective lines are arranged on both sides of the optical fiber and covered by a common jacket, and a joint case that covers a connection portion where the exposed optical fibers are connected to each other,
A connection space for connecting the optical fibers to each other and a storage space for storing the exposed optical fiber in the vicinity thereof are formed, and a cable insertion for extending the optical fiber cable over the storage space and an external space outside the storage space. A casing in which a hole is formed;
A hook piece provided on the outer side of the storage space to hook a suspension line for hanging an optical fiber cable,
A joint case for an optical fiber cable, comprising: a hook provided on an outer side of the storage space to hook a fixing jig fixed to a building structure. An optical fiber is exposed from an optical fiber cable in which protective lines are arranged on both sides of the optical fiber and covered by a common jacket, and a joint case that covers a connection portion where the exposed optical fibers are connected to each other,
A connection space where the optical fibers are connected to each other and a storage space in which the exposed optical fiber in the vicinity thereof is stored are formed, and extend from the storage space to an external space outside the storage space in different directions from each other, and the storage space and At least three or more cable insertion holes for extending the optical fiber cable over the external space are formed, and a seal material filling recess for filling a seal material for partitioning the storage space from the external space outside the storage space in a watertight manner. A casing in which a place is formed;
Gripping pieces capable of gripping at least the same number of connection portions as the number of optical fibers of the optical fiber cable;
A hook piece provided on the outer side of the storage space to hook a suspension line for hanging an optical fiber cable,
A joint case for an optical fiber cable, comprising: a hook provided on an outer side of the storage space to hook a fixing jig fixed to a building structure. The joint case for an optical fiber cable according to any one of claims 1 to 5, further comprising a gripping piece that can be elastically deformed and that elastically grips a connection portion of the optical fiber. .

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