JP2006337499A - Optical fiber drop cable - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an optical fiber drop cable, wherein a single cable is used for both indoors and outdoors. <P>SOLUTION: The optical fiber drop cable is provided with a coated optical fiber, at least a pair of tension bodies arranged across and on both sides of the coated optical fiber, and a first cable sheath covering the coated optical fiber and the tension bodies. The optical fiber drop cable is further provided with a support line and a second cable sheath covering the first cable sheath and the support line, wherein a notch is formed around the first cable sheath on the surface of the second cable sheath. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an optical fiber drop cable that can be connected from an outdoor connection point to an indoor optical terminal line device or an optical outlet without connection.

In recent years, with the development of the Internet, the number of subscribers of high-speed Internet connection called broadband has increased rapidly, and in order to realize a high-speed Internet access network, the installation of optical fiber cables at each subscriber's house has been promoted. Yes. Conventionally, when an optical fiber cable is installed in each subscriber's house, etc., a multi-core cable for aerial installation, an optical fiber core wire, and a support wire at the point of withdrawal to the subscriber's house provided on a utility pole etc. Is connected to an optical fiber drop cable, and the optical fiber drop cable is drawn into an outdoor optical termination box provided under the eaves of each subscriber house. And an optical fiber drop cable without a support line is laid to the indoor optical terminal line device or the optical outlet. In an outdoor optical termination box, an optical fiber drop cable with a support line and an optical fiber drop cable without a support line are connected outdoors if there is a support line. This is because it is possible to support the optical fiber in the cable, and if there is no support line indoors, the cable can be easily routed along the walls, floors, and the like.
JP 2003-68149 A

  However, in the above-described laying method, it is necessary to prepare different cables for indoor use and for outdoor use, and it is necessary to perform connection work in an outdoor optical termination box. It was a condition.

  Accordingly, the present invention has been made in view of the above problems, and an object thereof is to more efficiently and economically install an optical fiber cable from an outdoor connection point to an indoor optical terminal line device or an optical outlet without connection.

  In order to solve the above problems, an optical fiber drop cable according to claim 1 is an optical fiber core wire, at least one pair of strength members disposed on both sides of the optical fiber core wire, and the optical fiber. A light having a first cable sheath that covers a fiber core and the tensile body, and further includes a support line and a second cable sheath that covers the first cable sheath and the support line. In the fiber drop cable, a notch is formed around the first cable sheath on the surface of the second cable sheath.

  The optical fiber drop cable according to claim 2, wherein the optical fiber core wire, at least one pair of strength members disposed on both sides of the optical fiber core wire, the optical fiber core wire and the first tensile strength are disposed. A first cable sheath that covers the body, and further includes a support line, a tear string, and a second cable sheath that covers the first cable sheath, the support line, and the tear string. It is the optical fiber drop cable which has.

  The optical fiber drop cable according to claim 3, further comprising: an optical fiber core wire; at least one pair of strength members disposed on both sides of the optical fiber core wire; and a support wire; An optical fiber drop cable having a first cable sheath that covers a fiber core wire, the strength member, and the support wire, and a second cable sheath that covers the first cable sheath, On the surface of the cable sheath, a pair of notches are formed in a portion between the strength member and the support line.

  5. The optical fiber drop cable according to claim 4, wherein the optical fiber core wire, at least one pair of strength members disposed on both sides of the optical fiber core wire, the optical fiber core wire and the first tensile strength are disposed. An optical fiber drop cable having a first cable sheath covering the body, and further comprising a support wire and a second cable sheath covering the first cable sheath and the support wire. A peeling means for peeling the second cable sheath is provided.

  The optical fiber drop cable according to claim 5 is the optical fiber drop cable according to claims 1 to 4, wherein both sides of the optical fiber core wire and the first cable sheath sandwich the optical fiber core wire. At least one pair of notches is formed on the surface of the two, and the openings of the pair of notches are closed by the second cable sheath.

  The optical fiber drop cable according to claim 6 is the optical fiber drop cable according to claims 1 to 5, wherein the color of the second cable sheath is black, and the first cable sheath and the second cable sheath The cable sheath is different in color.

  According to the first aspect of the present invention, the second cable sheath is formed in a portion that covers the periphery of the first cable sheath. Since the cable sheath can be torn so that the second cable sheath and the supporting wire can be peeled off together with the second cable sheath during indoor wiring, the optical fiber drop cable of the present invention does not cut one cable, It can be used as an optical fiber drop cable with a support line suitable for outdoor use in a part of the longitudinal direction, and as an optical fiber drop cable without a support line suitable for indoor use in the remaining part of the longitudinal direction. it can. Therefore, since the optical fiber core wire can be wired without connection from the outdoor connection point to the indoor optical terminal line device, it is possible to realize an efficient, economical and low loss withdrawal.

  According to the second aspect of the present invention, it is possible to tear out the second cable sheath with the tear string and take out an optical fiber drop cable without a support line. Thus, as in the first aspect of the invention, the optical fiber drop cable according to the present invention has an optical fiber drop with a support line suitable for outdoor use in a part of the longitudinal direction without cutting one cable. As the cable, the remaining portion in the longitudinal direction can be used as an optical fiber drop cable without a supporting wire suitable for indoor use. Therefore, since the optical fiber core wire can be wired without connection from the outdoor connection point to the indoor optical terminal line device, it is possible to realize an efficient, economical and low loss withdrawal.

  According to a third aspect of the present invention, the pair of notches according to the second aspect of the second cable sheath, which is formed in a portion between the strength member and the support line, is cut in the longitudinal direction. By doing so, the second cable sheath can be torn and an optical fiber drop cable without a support line can be taken out. Thus, as in the first aspect of the invention, the optical fiber drop cable according to the present invention has an optical fiber drop with a support line suitable for outdoor use in a part of the longitudinal direction without cutting one cable. As the cable, the remaining portion in the longitudinal direction can be used as an optical fiber drop cable without a supporting wire suitable for indoor use. Therefore, since the optical fiber core wire can be wired without connection from the outdoor connection point to the indoor optical terminal line device, it is possible to realize an efficient, economical and low loss withdrawal.

  According to the fourth aspect of the present invention, since the second cable sheath is peeled from the optical fiber drop cable by having a peeling means for peeling the second cable sheath, the light without the support line is provided. The fiber drop cable can be taken out. Thus, as in the first aspect of the invention, the optical fiber drop cable according to the present invention has an optical fiber drop with a support line suitable for outdoor use in a part of the longitudinal direction without cutting one cable. As the cable, the remaining portion in the longitudinal direction can be used as an optical fiber drop cable without a supporting wire suitable for indoor use. Therefore, since the optical fiber core wire can be wired without connection from the outdoor connection point to the indoor optical terminal line device, it is possible to realize an efficient, economical and low loss withdrawal.

  According to the invention described in claim 5, when used as an optical fiber drop cable with a support wire suitable for outdoor use, the opening of the notch described in claim 5 is closed, so that Etc. are prevented from spawning in the notch and the optical fiber is disconnected.

  According to the invention described in claim 6, by making the second cable sheath the outermost layer outdoors, the black color makes the cable dirt inconspicuous and makes it difficult to transmit ultraviolet rays. It is possible to protect against deterioration due to ultraviolet rays, and by making the first cable sheath the outermost layer indoors, it is possible to make the color of the cable match the wall etc. The optical fiber drop cable is inconspicuous and is preferable from an aesthetic point of view.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a cross section of an optical fiber drop cable according to an embodiment of the present invention. In this figure, 1 is an optical fiber drop cable, which is a component thereof, 11 is an optical fiber core wire, 12a and 12b are strength members, 13 is a first cable sheath, 14 is a support wire, and 15 is a second wire. The cable sheath 16 indicates a notch formed in the second cable sheath, and it can be seen that 1 is an optical fiber drop cable with a support line. In the present embodiment, the optical fiber core wire 11 has two cores, a pair of strength members 12 a and 12 b are disposed on both sides thereof, and the first cable sheath 13 and the pair of strength members of the optical fiber core wire 11. 12a and 12b are coated in common to prevent the optical fiber core 11 from being distorted by an external force or an environmental temperature change. Further, the first cable sheath 13 and the support wire 14 are covered in common by the second cable sheath 15, and the optical fiber drop cable 2 is supported by pulling the support wire 14 at both ends or at a plurality of points in the longitudinal direction. Can do. Further, a notch 16 having a V-shaped cross section is formed in a portion of the second cable sheath 15 that covers the periphery of the first cable sheath 13, and the second cable sheath 15 is torn from the notch 16 and the second cable sheath 15 is torn. The first cable sheath 13 in the two cable sheaths 15, that is, the optical fiber drop cable without the support line can be taken out.

  In the present embodiment, the first cable sheath 13 is formed with notches 17a and 17b having a V-shaped cross section on both sides of the optical fiber core 11, and the two strength members 12a and 12b are connected to each other. By applying a force in the pulling direction, the first cable sheath 13 can be torn by using the notches 17a and 17b as the base points of the cuts, and the optical fiber core wire 11 in the first cable sheath 13 can be taken out. Further, the second cable sheath 15 closes the openings of the notches 17a and 17b formed in the first cable sheath, and the outer surface of the second cable sheath 15 is not V-shaped in cross section and is smooth. Therefore, the ridges are formed so as not to pierce the egg-laying tube into the notches 17a and 17b and damage the optical fiber core wire 11.

  FIG. 2 also shows a cross section of an optical fiber drop cable according to an embodiment of the present invention. In this figure, 2 is an optical fiber drop cable, which is a component thereof, 21 is an optical fiber core wire, 22a and 22b are strength members, 23 is a first cable sheath, 24 is a support wire, and 25 is a second wire. It can be seen that the cable sheath 26 is a tear string for tearing the second cable sheath, and 2 is an optical fiber drop cable with a support line. Also in the present embodiment, the optical fiber core wire 21 has four cores, a pair of strength members 22a and 22b are disposed on both sides thereof, and the first cable sheath 23 and the pair of strength members of the optical fiber core wire 21. 22a and 22b are commonly coated to prevent the optical fiber core wire 21 from being distorted by an external force or environmental temperature change. Further, the first cable sheath 23, the support wire 24, and the tearing cord 25 are commonly covered by the second cable sheath 25, and the optical fiber drop cable is pulled by pulling the support wire 24 at both ends or at a plurality of points in the longitudinal direction. 2, and the first cable sheath 23 in the second cable sheath 25 by tearing the second cable sheath 25 from both ends by the tear string 25, that is, an optical fiber drop cable without a support line Can be taken out.

  Also in this embodiment, notches 27a and 27b having a triangular cross section are formed on both sides of the first cable sheath 23 with the optical fiber core 21 sandwiched therebetween, and the two strength members 22a and 22b are separated. By applying a force in the direction, the first cable sheath 23 can be torn, and the optical fiber core wire 21 in the first cable sheath 23 can be taken out. Further, the second cable sheath 25 closes the openings of the notches 27a and 27b formed in the first cable sheath, and the outer surface of the second cable sheath 15 is not a triangular cross section but a smooth surface. Therefore, the ridges are formed so as not to pierce the egg-laying tube into the notches 27a and 27b and damage the optical fiber core wire 21.

  FIG. 3 shows a cross section of an optical fiber drop cable according to another embodiment of the present invention. In this figure, 3 is an optical fiber drop cable, hereinafter, its components, 31 is an optical fiber core wire, 32a and 32b are strength members, 33 is a first cable sheath, 34 is a support wire, and 35 is a second wire. The cable sheaths 36a and 36b show notches formed in the second cable sheath, and it can be seen that 3 is an optical fiber drop cable with a support line. In this embodiment, the optical fiber core 31 has a single core, a pair of strength members 32 a and 32 b are disposed on both sides thereof, and the first cable sheath 33 and the pair of strength members of the optical fiber core wire 31. In addition to 32a and 32b, the support wire 34 is covered in common. In addition, the first cable sheath 33 is covered with the second cable sheath 35, and two arcs are joined to the second cable sheath 35 between the strength member 32 a and the support wire 34. Notches 36a and 36b having a substantially γ-shaped cross section are formed. In the present embodiment, similar to the embodiment shown in FIG. 1, the optical fiber core 31 and the pair of strength members 32a and 32b are commonly covered. Since the support wire 34 is coated with other components in the optical fiber drop cable 3 in a common manner, the support wire 34 is pulled by pulling the support wire 34 at both ends or at a plurality of points in the longitudinal direction. The fiber drop cable 3 can be supported. Further, the second cable sheath 35 is torn by cutting between the two notches 36 a and 36 b in the longitudinal direction, so that the optical fiber core wire 31 and the strength members 32 a and 32 b are part of the first cable sheath 33. Thus, it is possible to take out an optical fiber drop cable that is commonly coated and integrated, that is, without a support line.

  Also in this embodiment, notches 37a and 37b having a triangular cross section are formed on both sides of the first cable sheath 33 with the optical fiber core 31 interposed therebetween, and force is applied in a direction to separate the two strength members. The first cable sheath 33 can be torn and the optical fiber core wire 31 in the first cable sheath 33 can be taken out. Further, the second cable sheath 35 closes the openings of the notches 37a and 37b formed in the first cable sheath, and the outer surface of the second cable sheath 35 is not γ-shaped in cross section and is smooth. Therefore, the wrinkles are formed so as not to pierce the egg-laying tube and damage the optical fiber core wire 31.

  In the above embodiment FIGS. 1 to 3, the second cable sheath as the outer layer is black, and the first cable sheath as the inner layer is white. Therefore, in the outdoors used as an optical fiber drop cable with a support line, it is possible to use it with the second cable sheath attached, and the black color makes the cable dirt inconspicuous, The black color makes it difficult to transmit ultraviolet rays, so that the inner layer of the cable can be protected from deterioration due to ultraviolet rays. In addition, in an indoor environment that is used as an optical fiber drop cable without a support line, the second cable sheath is peeled off so that the first cable sheath is exposed. It is possible to make the cable inconspicuous indoors when the cable is laid on the wall or floor. The color of the first cable sheath is not limited to white when the cable is laid on an indoor wall / floor, etc., which is light in color, such as white, and is not limited to white. For example, a color with relatively high brightness may be used.

  As shown in the above embodiment, in FIGS. 1 to 3, the second cable sheath which is the outer layer is partly in the longitudinal direction using a notch or a tear string formed in the second cable sheath. Because it can be peeled off, the shape and color of the cable is suitable for outdoor use in a part of the longitudinal direction of one optical fiber drop cable, easily and without connecting optical fiber core wires at the same time. Can be changed to one suitable for indoor use.

  An optical fiber core, at least a pair of strength members disposed on both sides of the optical fiber core, and a first cable covering the optical fiber core and the first strength body And a second cable sheath that covers the first cable sheath and the support line, and peels off the second cable sheath. If the stripping means is provided, the second cable sheath, which is the outer layer, can be stripped at a part in the longitudinal direction, and at the same time, without further connecting the optical fiber core wire. The shape of the cable can be changed from one suitable for outdoor use to one suitable for indoor use in a part of the length of one optical fiber drop cable. Therefore, the peeling means for peeling off the second cable sheath is not limited to a notch or a torn string, and an inner layer of the second cable sheath may be provided with an easily peelable layer, or A release agent may be added to the second cable sheath itself.

  In the present invention, the type and shape of the optical fiber core wire in the optical fiber drop cable are not particularly limited. However, as an example that is preferably used, an ultraviolet ray is provided on the outer periphery of a glass body optical fiber composed of a core and a clad. Examples include those coated with a cured resin. In FIG. 1, two optical fiber cores are provided, four in FIG. 2, and one in FIG. 3. However, a larger number of optical fiber cores may be provided, or a plurality of optical fibers may be tapes. It may be an optical fiber core wire integrated into a shape. The material of the other constituent elements is not limited, but steel, aramid FRP (fiber reinforced plastic), or the like can be used as the strength member, and steel wire, FRP wire, or the like can be used as the support wire. Preferably, zinc aluminum alloy plated steel wire is used, and the first and second cable sheaths are preferably made of flame retardant polyethylene (FRPE). In the coloring of the first and second cable sheaths, the coloring is preferably performed by including a coloring pigment in the outermost layer of the cable sheath to be colored.

  Next, an example of use of the optical fiber drop cable of the present invention will be described with reference to FIG. In this figure, 41 is an optical fiber drop cable of the present invention, 42 is an aerial laying optical fiber cable, 43 is a utility pole, 44 is an aerial closure, 45 is a subscriber's house, 46 is an outdoor optical termination box, 47 is An optical terminal line device, that is, an optical network unit or less ONU is shown. An aerial laying optical fiber cable 42 having a large number of optical fiber cores is connected to an optical fiber drop cable 41 to be pulled down to each subscriber's home in an aerial closure 44 installed on a utility pole 43. The optical fiber drop cable 41 is drawn from the aerial closure 44 through the outdoor optical termination box 46 installed under the eaves of the subscriber's house 45 into the subscriber's house 45 and wired to the ONU 47 and connected. The Between the aerial closure 44 and the outdoor optical termination box 46, the optical fiber drop cable 41 is used as an optical fiber drop cable with a support line in a state in which a second cable sheath as a component is attached. A line is supported between the aerial closure 44 and the outdoor light termination box 46. Further, between the outdoor optical termination box 46 and the ONU 47, the optical fiber drop cable 41 is used as an optical fiber drop cable without a support line in a state where the second cable sheath which is a constituent element thereof is peeled off. It is laid on the wall and floor of the room. In the outdoor optical termination box 46, the boundary between the portion where the second cable sheath is peeled and the portion where the second cable sheath is not peeled is fixed in the longitudinal direction of the optical fiber drop cable 41. Therefore, the aerial closure 44 installed outdoors and the ONU 47 installed indoors can be connected by a single optical fiber drop cable. In the optical fiber drop cable of the present invention, the indoor and outdoor optical fiber drop cables can be used as a single optical fiber drop cable, so two cables for indoor and outdoor are prepared. Compared with the case of connection, since there is no insertion loss at the connection point, the optical characteristics can be improved. In addition, since the second cable sheath can be easily peeled off in a part of the cable longitudinal direction by a peeling means such as a notch provided in the second cable sheath, it is economically and efficiently not time-consuming. An optical fiber drop cable can be laid between the aerial closure 44 installed outdoors and the ONU 47 installed indoors.

  As described above, the optical fiber drop cable of the present invention is useful for realizing laying economically and efficiently.

It is sectional drawing which shows one Example of the optical fiber drop cable concerning this invention. It is sectional drawing which shows another Example of the optical fiber drop cable concerning this invention. It is sectional drawing which shows another Example of the optical fiber drop cable concerning this invention. It is a block diagram which shows the usage example of the optical fiber drop cable concerning this invention.

Explanation of symbols

1, 2, 3, 41 ... Optical fiber drop cable 11, 21, 31 ... Optical fiber core wire 12a, 12b, 22a, 22b, 32a, 32b ... Strength member 13, 23, 33 ... 1st cable sheath 14, 24, 34 ... support line 15, 25, 35 ... 2nd cable sheath 16, 17a, 17b, 27a, 27b, 36a, 36b, 37a, 37b ... notch 26 ... Rear string 42 ... Aerial fiber optic cable 43 ... Electric pole 44 ... Aerial closure 45 ... Subscriber's house 46 ... Outdoor optical termination box 47 ... ONU

Claims (6)

  An optical fiber core, at least one pair of strength members disposed on both sides of the optical fiber core, and a first cable sheath covering the optical fiber core and the first strength body And an optical fiber drop cable having a support line and a second cable sheath covering the first cable sheath and the support line, wherein the optical fiber drop cable is formed on the surface of the second cable sheath. An optical fiber drop cable, wherein a notch is formed around the first cable sheath.   An optical fiber core, at least one pair of strength members disposed on both sides of the optical fiber core, and a first cable sheath covering the optical fiber core and the first strength body And a second cable sheath covering the support cable, the tear cable, the first cable sheath, and the support cable and the tear cable.   An optical fiber core, at least one pair of tension members disposed on both sides of the optical fiber core, and a support wire; and the optical fiber core, the strength member, and the support wire An optical fiber drop cable having a first cable sheath covering the first cable sheath and a second cable sheath covering the first cable sheath, wherein the strength member is formed on the surface of the second cable sheath. A pair of notches is formed in a portion between the support line and the optical fiber drop cable.   An optical fiber core, at least one pair of strength members disposed on both sides of the optical fiber core, and a first cable sheath covering the optical fiber core and the first strength body And an optical fiber drop cable having a support line and a second cable sheath covering the first cable sheath and the support line, for peeling off the second cable sheath. An optical fiber drop cable characterized in that a stripping means is provided.   At least one pair of notches is formed on both sides of the optical fiber core wire with the optical fiber core wire in between and on the surface of the first cable sheath, and the openings of the pair of notches are formed in the first notch portion. The optical fiber drop cable according to any one of claims 1 to 4, wherein the optical fiber drop cable is blocked by two cable sheaths. 6. The optical fiber according to claim 1, wherein the color of the second cable sheath is black, and the colors of the first cable sheath and the second cable sheath are different. Drop cable.