JPH0514254Y2 - - Google Patents

Description

[Detailed Description of the Invention] "Industrial Application Field" The present invention relates to an optical undercarpet cable.

“Conventional technology” Conventional optical undercarpet cables
As shown in the figure, after forming a cable outer shell member 2 with optical fiber cable insertion grooves 1, 1 formed of aluminum material, optical fiber cables 3, 3 are inserted into the optical fiber cable insertion grooves 1, 1 of the cable outer shell member 2. , and cover the bottom surfaces of the optical fiber cable insertion grooves 1 and 1 with tape 4, or insert the optical fiber cables into plastic pipes 5, such as nylon, as shown in FIG. After inserting the optical fiber cables 3 and 3, the cable outer shell member 2A is covered with a plastic material such as vinyl so that the plastic pipes 5 and 5 into which the optical fiber cables 3 and 3 are inserted and the tension reinforcing material 6 are inside. Was.

Therefore, in both the former and the latter, the tensile force and lateral pushing pressure applied to the optical fiber cables 3, 3 can be blocked by the cable outer shell members 2, 2A, and an increase in transmission loss can be prevented.
Both had the disadvantage of high costs because they had a large number of parts and required time and effort to assemble.

``Purpose of the present invention'' In view of the above-mentioned drawbacks of the conventional technology, the present invention has been developed to efficiently prevent tensile force and lateral pressure from being applied to optical fiber cables, to reduce the number of parts, and to provide an inexpensive optical fiber cable. It's about getting the undercarpet cable.

"Means for Achieving the Object of the Present Invention" The present invention consists of a cable outer shell member molded into a trapezoidal shape from a synthetic resin material, and a tension reinforcement formed to penetrate in the longitudinal direction approximately at the center of the cable outer shell member. a tension reinforcing material having an outer diameter smaller than that of the tension reinforcing material insertion hole inserted into the tension reinforcing material insertion hole, and the cable outer shell member on both sides of the tension reinforcing material insertion hole. A pair of optical fiber cable insertion holes formed to penetrate in the longitudinal direction, and a light beam having an outer diameter smaller than that of the pair of optical fiber cable insertion holes respectively inserted into the pair of optical fiber cable insertion holes. It is characterized by consisting of a fiber cable.

"Embodiment of the Present Invention" The present invention will be described in detail below with reference to an embodiment shown in FIGS. 1 and 2.

In the embodiments shown in FIGS. 1 and 2, reference numeral 11 denotes a cable outer shell member formed by extruding a synthetic resin material such as vinyl into a trapezoidal shape. Reference numerals 12 and 12 denote optical fiber cable insertion holes formed to penetrate the inside of the cable outer shell member 11 in the longitudinal direction. 13 is the optical fiber cable insertion hole 1
This is a tension reinforcing material insertion hole formed in the cable outer shell member 11 so as to penetrate between the cable shell member 2 and 12.
14, 14 are the optical fiber cable insertion holes 1
2 and 12, respectively. 15 is the tension reinforcing material insertion hole 13
A tensile reinforcement inserted within.

In the optical undercarpet 10 having the above configuration, the cable outer shell member 11 is arranged so that the optical fiber cable insertion holes 12, 12 and the tension reinforcing material insertion hole 13 can be formed using a resin extrusion jig (die, point). At the same time as extrusion molding, optical fiber cable insertion holes 12, 1 are formed during extrusion molding.
Optical fiber cables 14, 14 in 2, respectively.
is formed in such a way that the tension reinforcing material 15 is inserted into the tension reinforcing material insertion hole 13, and manufactured in one step.

In addition, in the embodiment of the present invention, two optical fiber cables 14, 14 are provided in the cable outer shell member 11.
and the optical fiber cable 1
Although one tension reinforcing member 15 is installed between cables 4 and 14, the present invention is not limited to this, and three or more optical fiber cables may be installed inside a cable outer shell member. Also,
When the two optical fiber cables 14, 14 are installed inside the cable outer shell member 11, the tension member may be omitted.

"Effects of the Present Invention" As is clear from the above explanation, the present invention has the following effects.

(1) A cable outer shell member formed into a trapezoidal shape from a synthetic resin material, a tension reinforcing material insertion hole formed to penetrate in the longitudinal direction approximately at the center of this cable outer shell member, and a tension reinforcing material insertion hole formed inside this tension reinforcing material insertion hole. a tension reinforcing material having an outer diameter smaller than that of the tension reinforcing material insertion hole inserted into the tension reinforcing material insertion hole; and a pair of tension reinforcing materials formed to penetrate in the longitudinal direction of the cable outer shell member on both sides of the tension reinforcing material insertion hole. Since it is composed of an optical fiber cable insertion hole and an optical fiber cable having an outer diameter smaller than that of the pair of optical fiber cable insertion holes inserted into each of the pair of optical fiber cable insertion holes,
It has a simple structure and can be manufactured in one step. Therefore, it is possible to reduce costs.

(2) Since the optical fiber cable is covered with a cable outer shell member in which an optical fiber cable insertion hole with a diameter larger than the diameter of the optical fiber cable is formed, the optical fiber cable is not subjected to tensile force or pushing pressure from the side. This can be efficiently prevented from occurring. Therefore, reduction in transmission loss of the optical fiber cable can be efficiently prevented.

(3) Due to the above (1), parts management etc. are significantly reduced compared to the conventional method, and therefore manufacturing can be facilitated.

(4) Since the optical fiber cable is inserted into the optical fiber cable insertion hole of the cable outer member whose diameter is larger than the diameter of the optical fiber cable, the optical fiber cable is not affected by changes due to thermal expansion of the cable outer member. . Therefore, the initial performance of the optical fiber cable is maintained.

(5) Since the cable outer shell member is formed into a trapezoidal shape, it is possible to efficiently avoid impacts from the lateral direction, and the material cost is low, making it possible to manufacture at low cost.

[Brief explanation of drawings]

Fig. 1 is a sectional view showing one embodiment of the present invention;
The figure is a plan view of FIG. 1, and FIGS. 3 and 4 are sectional views showing one conventional embodiment. 10...Optical fiber carpet cable, 1
1... Cable outer shell member, 12... Optical fiber cable insertion hole, 13... Tension reinforcing material insertion hole, 1
4...Optical fiber cable, 15...Tension reinforcing material.

Claims (1)

[Scope of utility model registration request] A cable outer shell member formed into a trapezoid shape from a synthetic resin material, a tension reinforcing material insertion hole formed to penetrate in the longitudinal direction approximately at the center of the cable outer shell member, and a tension reinforcing material insertion hole that is inserted into the tension reinforcing material insertion hole. a tension reinforcing material having an outer diameter smaller than that of the tension reinforcing material insertion hole; and a pair of optical fiber cables formed to penetrate in the longitudinal direction of the cable outer shell member on both sides of the tension reinforcing material insertion hole. An optical undercarpet cable comprising an insertion hole and an optical fiber cable having an outer diameter smaller than that of the pair of optical fiber cable insertion holes inserted into each of the pair of optical fiber cable insertion holes. .