CN207882532U - A kind of stress optical cable with infiltration monitoring function - Google Patents

Abstract

The utility model discloses a kind of stress optical cables with infiltration monitoring function, including cable outer sheath, optical cable composite band is provided on the inside of the cable outer sheath, the inner surface of the optical cable composite band is provided with leakage sensor by insertion, it is provided with optical cable belting on the inside of the optical cable composite band, it is provided with optical cable reinforcer on the inside of the optical cable belting, optical cable loose tube is provided on the inside of the optical cable reinforcer；By designing the leakage sensor on the inside of plastic-aluminum optical cable composite band, it can be found in time by leakage sensor induction when fiber cable laying uses for a long time, cracked or by external force shock causes to seep water when damage, and the optical cable of infiltration is overhauled and replaced, and by designing bearing rib and stretch-proof rib in cable outer sheath, when carrying out laying traction to optical cable, it prevents from optical cable from being stretched by traction to deform upon, the protective action of oversheath is made to weaken.

Description

A kind of stress optical cable with infiltration monitoring function

Technical field

The utility model belongs to optical cable technology field, and in particular to a kind of stress optical cable with infiltration monitoring function.

Background technology

Optical cable is manufactured to meet the performance specification of optics, machinery or environment, it is to utilize to be placed in cladding sheath In one or more optical fiber as transmission medium and the communications cable component that can use individually or in groups.Optical cable mainly by Optical fiber（The glass fiber of thin such as hair）It is constituted with plastic protective sleeve pipe and plastic peel, without gold, silver, copper aluminium etc. in optical cable Metal, general non-recovery value.Optical cable is a certain number of optical fiber according to the certain way group stranding heart, is surrounded by sheath outside, has Outer jacket is also coated, to realize a kind of communication line of optical signal transmission.I.e.：By optical fiber（Optical transmission carrier）By certain Technique and the cable formed.The basic structure of optical cable is usually by cable core, reinforces a few part groups such as steel wire, filler and sheath At according further to needing the also components such as waterproof layer, buffer layer, insulated metal conducting wire.

Existing stress optical cable when in use, since fiber cable laying is in various places, after long-time use Cause optical cable to be damaged the phenomenon that seeping water due to various reasons, but due to optical cable be mounted on inside device so as to cause The replacement that places under repair can not be found in time, and optical cable is drawn when laying, optical cable is protected during traction The problem of sheath can deform, thus it is proposed that a kind of stress optical cable with infiltration monitoring function.

Utility model content

The purpose of this utility model is to provide a kind of stress optical cables with infiltration monitoring function, to solve above-mentioned background The existing stress optical cable proposed in technology when in use, since fiber cable laying is in various places, is used in long-time Cause optical cable to be damaged the phenomenon that seeping water due to various reasons later, but due to optical cable be mounted on inside device to Lead to not find the replacement that places under repair in time, and optical cable is drawn when laying, light during traction The problem of cable protection set can deform.

To achieve the above object, the utility model provides the following technical solutions：A kind of stress with infiltration monitoring function Optical cable, including cable outer sheath are provided with optical cable composite band, the interior table of the optical cable composite band on the inside of the cable outer sheath Face is provided with leakage sensor by insertion, and optical cable belting is provided on the inside of the optical cable composite band, the optical cable belting Inside is provided with optical cable reinforcer, is provided with optical cable loose tube on the inside of the optical cable reinforcer, the optical cable loose tube it is interior Side is provided with optical cable and optical fibres, and the inside of the cable outer sheath is provided with oversheath bearing rib, the oversheath by hot melt The side of bearing rib is provided with oversheath stretch-proof rib.

Preferably, the optical cable composite band is plastic-aluminum combined, and leakage sensor is wrapped on inner wall.

Preferably, between the optical cable belting and optical cable loose tube and inside of optical cable loose tube is filled out by ointment It fills.

Preferably, the cable outer sheath is made using polyethylene, and oversheath bearing rib and oversheath stretch-proof muscle Item is connect by heating with cable outer sheath.

Preferably, the section of the oversheath stretch-proof rib is arc, and knee is connect with cable outer sheath, both ends It is attached with oversheath bearing rib.

Compared with prior art, the utility model has the beneficial effects that：By designing on the inside of plastic-aluminum optical cable composite band Leakage sensor occurs when in fiber cable laying use for a long time, cracked or by external force shock leads to damage It can be found in time by leakage sensor induction when infiltration, and the optical cable of infiltration overhauled and replaced, and passed through Bearing rib and stretch-proof rib in cable outer sheath are designed, when carrying out laying traction to optical cable, prevents optical cable It is stretched and deforms upon by traction, the protective action of oversheath is made to weaken.

Description of the drawings

Fig. 1 is the cable configuration schematic diagram of the utility model.

Fig. 2 is the outer jacket structure schematic diagram of the utility model.

In figure：1- cable outer sheaths, 2- optical cables composite band, 3- leakage sensors, 4- optical cable beltings, 5- optical cables reinforcer, 6- optical cable loose tubes, 7- optical cable and optical fibres, 8- oversheaths bearing rib, 9- oversheath stretch-proof ribs.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

It please refers to Fig.1 and Fig. 2, the utility model provides a kind of technical solution：A kind of stress with infiltration monitoring function The inside of optical cable, including cable outer sheath 1, cable outer sheath 1 is provided with optical cable composite band 2, and the inner surface of optical cable composite band 2 is logical It crosses insertion and is provided with leakage sensor 3, the inside of optical cable composite band 2 is provided with optical cable belting 4, the inside setting of optical cable belting 4 There are optical cable reinforcer 5, the inside of optical cable reinforcer 5 to be provided with optical cable loose tube 6, the inside of optical cable loose tube 6 is provided with optical cable The inside of optical fiber 7, cable outer sheath 1 is provided with oversheath bearing rib 8 by hot melt, and the side of oversheath bearing rib 8 is set It is equipped with oversheath stretch-proof rib 9.

In order to keep 2 waterproof effect of optical cable composite band more preferable, in the present embodiment, preferred optical cable composite band 2 be it is plastic-aluminum combined, And leakage sensor 3 is wrapped on inner wall.

In order to make 7 fixing-stable of optical cable reinforcer 5 and optical cable and optical fibres, in the present embodiment, preferred optical cable belting 4 and optical cable Between the Loose tube 6 and inside of optical cable loose tube 6 is filled by ointment.

In order to keep the stretch-proof effect of cable outer sheath 1 more preferable, in the present embodiment, preferred cable outer sheath 1 uses poly- Ethylene makes, and oversheath bearing rib 8 is connect by heating with cable outer sheath 1 with oversheath stretch-proof rib 9.

In order to make 9 fixing-stable of oversheath stretch-proof rib, in the present embodiment, preferred oversheath stretch-proof rib 9 Section is arc, and knee is connect with cable outer sheath 1, and both ends are attached with oversheath bearing rib 8.

The operation principle and process for using of the utility model：After the utility model installs, it is new to first check for this practicality The installation fixation and security protection of type, then can use, and when mounting and installation optical cable is drawn, pass through light Oversheath bearing rib 8 and oversheath stretch-proof rib 9 in cable oversheath 1 and cable outer sheath 1 prevent 1 quilt of cable outer sheath Stretching deforms upon, and by designing the leakage sensor 3 in 2 inside of optical cable composite band, is damaged out in cable outer sheath 1 When now infiltration, it can be found in time by the induction of leakage sensor 3, this completes the uses to the utility model Process, the utility model is simple in structure, safe and convenient to use.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is appreciated that can these embodiments be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of stress optical cable with infiltration monitoring function, including cable outer sheath（1）, it is characterised in that：Outside the optical cable Sheath（1）Inside be provided with optical cable composite band（2）, the optical cable composite band（2）Inner surface by insertion be provided with leak Sensor（3）, the optical cable composite band（2）Inside be provided with optical cable belting（4）, the optical cable belting（4）Inside setting There is optical cable reinforcer（5）, the optical cable reinforcer（5）Inside be provided with optical cable loose tube（6）, the optical cable loose tube（6） Inside be provided with optical cable and optical fibres（7）, the cable outer sheath（1）Inside by hot melt be provided with oversheath bearing rib （8）, the oversheath bearing rib（8）Side be provided with oversheath stretch-proof rib（9）.

2. a kind of stress optical cable with infiltration monitoring function according to claim 1, it is characterised in that：The optical cable is multiple Crossed belt（2）To be plastic-aluminum combined, and leakage sensor（3）It is wrapped on inner wall.

3. a kind of stress optical cable with infiltration monitoring function according to claim 1, it is characterised in that：The optical cable packet Band（4）With optical cable loose tube（6）Between and optical cable loose tube（6）Inside be filled by ointment.

4. a kind of stress optical cable with infiltration monitoring function according to claim 1, it is characterised in that：Outside the optical cable Sheath（1）It is made using polyethylene, and oversheath bearing rib（8）With oversheath stretch-proof rib（9）Pass through hot melt and light Cable oversheath（1）Connection.

5. a kind of stress optical cable with infiltration monitoring function according to claim 1, it is characterised in that：The oversheath Stretch-proof rib（9）Section be arc, and knee and cable outer sheath（1）Connection, both ends and oversheath bearing rib（8） It is attached.