CN209729587U - A kind of low friction pipeline composite rope - Google Patents

Abstract

The utility model discloses a kind of low friction pipeline composite ropes, including being placed in center for improving the center reinforcemen of composite rope tensile strength, several casings are set around the center reinforcemen, described sleeve pipe is provided with several optical fiber, material water-proof material is also filled in casing, jacket exterior is oversheath, inside oversheath, jacket exterior be filled with waterproofing type cable cream；Several wedge angles are set on the oversheath, circular hole are provided in the wedge angle, the circular hole is for placing copper conductor.The beneficial effects of the utility model are, reduce the skin-friction force of composite rope, improve construction efficiency, increase space utilization rate, increase the optical communication capability of composite rope.

Description

A kind of low friction pipeline composite rope

Technical field

The utility model relates to a kind of composite ropes to belong to communication equipment more particularly, to a kind of low friction pipeline composite rope Field.

Background technique

Pipeline composite rope is due to its specific application scenarios, and composite rope is in the duct in process of deployment, due to composite rope it Between be in close contact it is larger so as to cause the frictional force between composite rope, to composite rope laying bring certain difficulty.The prior art In, optical cable, cable section be all round, after being laid with more optical cable, cable in pipeline, exist between optical cable, cable It is certain to squeeze, cause the frictional force between optical cable, cable higher, biggish external force is needed composite rope could to be passed through pipeline.

Summary of the invention

The purpose of this utility model is to propose a kind of composite rope that can reduce frictional force between composite rope, is suitable for pipeline Application scenarios.

For foregoing invention purpose, the utility model adopts the following technical solution:

A kind of low friction pipeline composite rope adds including being placed in center for improving the center of composite rope tensile strength Several casings are arranged around the center reinforcemen in strong part, and described sleeve pipe is provided with several optical fiber, resistance is also filled in casing Water material, jacket exterior are oversheath, inside oversheath, jacket exterior be filled with waterproofing type cable cream；It is set on the oversheath Several wedge angles are set, circular hole are provided in the wedge angle, the circular hole is for placing copper conductor.

Preferably, the center reinforcemen is glass fiber material.

Preferably, described sleeve pipe is made of PBT material.

Preferably, the optical fiber is quartz glass single mode optical fiber.

The beneficial effects of the utility model are, reduce the skin-friction force of composite rope, drop the laying difficulty of composite rope It is low, while construction cost is reduced, improve construction efficiency.It can be coupled and be placed by wedge angle between shape composite rope of the same race, Increase space utilization rate.Copper conductor is placed in the wedge angle outside sheath, the position stranded tubes that will be available, increases composite rope Optical communication capability.

Detailed description of the invention

Fig. 1 is the utility model cross section structure schematic diagram.

Specific embodiment

The utility model is described in detail below in conjunction with attached drawing.

As shown, a kind of low friction pipeline composite rope 100, when in order to reduce composite rope crossing pipeline, sets with outside Between standby, several points are arranged on the oversheath 109 of the composite rope 100 in the frictional force especially between other composite ropes Angle 106, the effect of wedge angle 106 are reduction of the contact area of composite rope.In addition, point can be passed through between shape composite rope of the same race Angle coupling is placed, and space utilization rate is increased.

Circular hole 107 is provided in wedge angle 106, for circular hole 107 for placing copper conductor, such setting is advantageous in that composite rope In oversheath 109, can have more space at one can increase the optical communication capability of composite rope with stranded tubes.

The inside of composite rope 100 includes being placed in center for improving the center reinforcemen of composite rope tensile strength 101, the center reinforcemen 101 is glass fiber material；Several casings 102, the set are set around center reinforcemen 101 Pipe is made of PBT material；Casing 102 is provided with several optical fiber 103, and the optical fiber 103 is quartz glass single mode optical fiber；Casing It is also filled with material water-proof material in 102, inside oversheath 109, is filled with waterproofing type cable cream 105 outside casing 102.

Claims (4)

1. a kind of low friction pipeline composite rope is reinforced including being placed in center for improving the center of composite rope tensile strength Several casings are arranged around the center reinforcemen in part, and described sleeve pipe is provided with several optical fiber, is also filled with and blocks water in casing Material, jacket exterior are oversheath, inside oversheath, jacket exterior be filled with waterproofing type cable cream；It is characterized in that, described outer Several wedge angles are set on sheath, circular hole are provided in the wedge angle, the circular hole is for placing copper conductor.

2. a kind of low friction pipeline composite rope according to claim 1, which is characterized in that the center reinforcemen is glass Fibrous material.

3. a kind of low friction pipeline composite rope according to claim 1, which is characterized in that described sleeve pipe is PBT material system At.

4. a kind of low friction pipeline composite rope according to claim 1, which is characterized in that the optical fiber is quartz glass list Mode fiber.