CN207610797U - A kind of monitoring temperature cable network based on heat distribution pipeline - Google Patents

Abstract

A kind of monitoring temperature cable network based on heat distribution pipeline, by based on heat distribution pipeline pipe network, the whole laying optical cable on heat distribution pipeline, the frequency displacement of Brillouin light scattered signal and the correspondence of temperature and the positioning relation for being combined Fresnel light reflection information can be utilized, obtain temperature information corresponding along optical fiber each point, to be conducive to the whole non-blind area temperature monitoring of each heat distribution pipeline realization to heat distribution pipe network, temperature anomaly hidden danger is found in time, promote safe operation and the high quality operation of heat distribution pipe network, it is characterized in that, using the heat distribution pipeline of heat distribution pipe network as carrier cable network is formed along heat distribution pipeline whole process laying optical cable, monitoring host is distributed in the cable network, the monitoring host includes host optical fiber interface, light pulse signal modulator, laser emitter, temperature measurement module, temperature sensor signal detector and industrial personal computer.

Description

A kind of monitoring temperature cable network based on heat distribution pipeline

Technical field

The present invention relates to heat distribution pipeline networking technology, especially a kind of monitoring temperature cable network based on heat distribution pipeline leads to It crosses based on heat distribution pipeline pipe network, the whole laying optical cable on heat distribution pipeline can utilize the frequency of Brillouin light scattered signal It moves the correspondence with temperature and is combined the positioning relation of Fresnel light reflection information, obtain temperature corresponding along optical fiber each point Information is spent, to be conducive to the whole non-blind area temperature monitoring of each heat distribution pipeline realization to heat distribution pipe network, finds that temperature is different in time Normal hidden danger promotes safe operation and the high quality operation of heat distribution pipe network.

Background technology

Heat distribution pipeline is the basic component to form city thermal pipe network, is the heat supply for leading to building consumer heat inlet from heat source Pipeline, common thermal medium are hot water or steam etc..The inventors discovered that the heat distribution pipeline in general heat distribution pipe network is in city Underground, environment is complicated, is mainly carried out by heating power inspection chamber to its running monitoring, and for entire pipe network, heating power Inspection chamber is only possible to the situation in scattered distribution, and therefore, the selectively monitoring of heating power inspection chamber can not be achieved the whole network non-blind area Monitoring, that is to say, that the accident potential positioned at blind area is instead at the pain spot that may lead to major accident.Safety is without minor matter, city Heat distribution pipe network necessarily causes huge economic loss and undesirable social influence if major accident occurs.The present inventor recognizes If with optical fiber directly as sensor, which to be laid using heat distribution pipeline as carrier along heat distribution pipeline whole process, then profit With the frequency displacement of Brillouin light scattered signal and the correspondence of temperature and the positioning relation for being combined Fresnel light reflection information, Temperature information corresponding along optical fiber each point can be obtained, to realize whole non-blind area temperature monitoring, finds temperature anomaly in time Hidden danger.In view of this, the present inventor's design completes the present invention.

Invention content

The present invention is in view of the deficiencies in the prior art or insufficient, provides a kind of monitoring temperature light based on heat distribution pipeline Cable net, by the way that based on heat distribution pipeline pipe network, the whole laying optical cable on heat distribution pipeline can utilize Brillouin light scattering letter Number frequency displacement and temperature correspondence and be combined the positioning relation of Fresnel light reflection information, obtain along optical fiber each point pair The temperature information answered is found in time to be conducive to the whole non-blind area temperature monitoring of each heat distribution pipeline realization to heat distribution pipe network Temperature anomaly hidden danger promotes safe operation and the high quality operation of heat distribution pipe network.

Technical scheme is as follows：

A kind of monitoring temperature cable network based on heat distribution pipeline, which is characterized in that with the heat distribution pipeline of heat distribution pipe network be carry Body forms cable network along heat distribution pipeline whole process laying optical cable, and monitoring host, the monitoring host packet is distributed in the cable network Include host optical fiber interface, light pulse signal modulator, laser emitter, temperature measurement module, temperature sensor signal detector and industry control Machine, the industrial personal computer connect the temperature measurement module, and the temperature measurement module is divided into two-way, and the first via is sequentially connected the Laser emission Device, the light pulse signal modulator and the host optical fiber interface, the second tunnel are connected by the temperature sensor signal detector The host optical fiber interface is connect, the host optical fiber interface connects the optical cable.

Light of the temperature measurement module by the laser emitter and the light pulse signal modulator into the optical cable Fibre injection detecting optical pulses signal, the temperature measurement module receive Brillouin by temperature sensor signal detector from the optical fiber Light scattering signal and Fresnel light reflection signal, pass through the frequency displacement of Brillouin light scattered signal and the correspondence of temperature and combination Using the positioning relation of Fresnel light reflection information, temperature information corresponding along the optical fiber each point is obtained.

The host optical fiber interface uses FC/APC optical fiber interfaces.

There is the industrial personal computer display screen and remote communication module, the industrial personal computer to be supervised by RJ45 interfaces and pipeline coordination Control system connects.

The cable network includes several monitoring hosts, and several monitoring hosts are deployed in institute in a distributed way It states in cable network, there is the industrial personal computer in the monitoring host display screen and remote communication module, the industrial personal computer to pass through RJ45 Interface is connect with pipeline coordination monitoring system.

There is the optical cable double armor structure, the optical cable to be protected to use a cored structure or two cored structures, the optical cable Interior optical fiber is single mode optical fiber.

The heat distribution pipeline includes heat distribution pipeline main body and coats the inner liner layer of the heat distribution pipeline main body peripheral surface, The optical cable is arranged in the inner liner layer, and the optical cable is axially extending along the inner liner layer.

The inner liner layer includes heat preservation clad, the inner surface of the heat preservation clad and the heat distribution pipeline main body Peripheral surface be in contact, the optical cable is laid on the outer surface of the heat preservation clad and is fixed by optical cable fixing piece, Glass fabric clad is set on the outer surface of the heat preservation clad, outer shield is set on the glass fabric clad Set.

It is adhesive tape that the oversheath, which uses galvanized iron sheet, the optical cable fixing piece, and the adhesive tape is by being bonded the light Cable is fixed on the outer surface of the heat preservation clad, and the free end of the optical cable is connected in reel tail wrap-up.

The optical cable is respectively formed axial Wheat straw mulching to all heat distribution pipelines in the heat distribution pipe network.

The technology of the present invention effect is as follows：A kind of monitoring temperature cable network based on heat distribution pipeline of the present invention, by with optical fiber Directly as sensor, which is laid using heat distribution pipeline as carrier along heat distribution pipeline whole process, Brillouin light is recycled to dissipate The frequency displacement of signal and the correspondence of temperature and the positioning relation for being combined Fresnel light reflection information are penetrated, can be obtained along light The corresponding temperature information of fine each point finds temperature anomaly hidden danger in time to realize whole non-blind area temperature monitoring, promotes heating power The safe operation of pipe network and high quality operation.Optical cable and traditional heat distribution pipeline are carried out integrated combination by the present invention, are formd It is the whole arrangement mode for monitoring sensor using the inner liner layer of heat distribution pipeline as carrier and with optical cable, thus by existing zero The heating power inspection chamber selectively monitoring torsion at one stroke of distribution is dissipated to realize whole non-blind area monitoring, energy to the heat distribution pipeline in using Enough it is greatly promoted safe operation and the high quality operation of heat distribution pipe network.

Heat distribution pipeline can be prefabricated into the heat distribution pipeline with optical cable sensor by the present invention, be opened up for traditional heat distribution pipeline It has opened up new function and has increased included sensing function, the single-function of conventional heat pipeline has been eliminated, to be based on heat distribution pipeline Monitoring temperature cable network provide convenience condition.

Description of the drawings

Fig. 1 is to implement a kind of monitoring temperature cable network structural schematic diagram based on heat distribution pipeline of the present invention.

Fig. 2 is the structural schematic diagram of prefabricated optical cable heat distribution pipeline.

Reference numeral lists as follows：1- optical cables；2- heat distribution pipeline main bodys；3- keeps the temperature clad；4- glass fabrics coat Layer；5- oversheaths；6- inner liner layers；7- optical cable fixing pieces；8- heating power channel；9- monitors host；10- reel tails winding dress It sets；11- host optical fiber interfaces；12- heat distribution pipelines；13- light pulse signal modulators；14- laser emitters；15- temperature measurement modules； 16- remote communication modules；17- display screens；18- industrial personal computers；19- temperature sensor signal detectors；20- pipeline coordinations monitoring system System.

Specific implementation mode

Below in conjunction with the accompanying drawings (Fig. 1-Fig. 2) the present invention will be described.

Fig. 1 is to implement a kind of monitoring temperature cable network structural schematic diagram based on heat distribution pipeline of the present invention.Fig. 2 is prefabricated light The structural schematic diagram of cable heat distribution pipeline.As shown in Figure 1 to Figure 2, a kind of monitoring temperature cable network based on heat distribution pipeline, with heating power The heat distribution pipeline 12 of pipe network is that carrier forms cable network along the whole laying optical cable 1 of heat distribution pipeline 12, is distributed in the cable network Host 9 is monitored, the monitoring host 9 includes host optical fiber interface 11, light pulse signal modulator 13, laser emitter 14, surveys Warm module 15, temperature sensor signal detector 19 and industrial personal computer 18, the industrial personal computer 18 connect the temperature measurement module 15, the survey Warm module 15 is divided for two-way, and the first via is sequentially connected the laser emitter 14, the light pulse signal modulator 13 and described Host optical fiber interface 11, the second tunnel connects the host optical fiber interface 11 by the temperature sensor signal detector 19, described Host optical fiber interface 11 connects the optical cable 1.The temperature measurement module 15 is believed by the laser emitter 14 and the light pulse The optical fiber of number modulator 13 into the optical cable 1 injects detecting optical pulses signal, and the temperature measurement module 15 is believed by temperature sensing Number detector 19 receives Brillouin light scattered signal and Fresnel light reflection signal from the optical fiber, is scattered by Brillouin light The frequency displacement of signal and the correspondence of temperature and the positioning relation for being combined Fresnel light reflection information, obtain along the optical fiber The corresponding temperature information of each point.The host optical fiber interface 11 uses FC/APC optical fiber interfaces.The industrial personal computer 18 has display Screen 17 and remote communication module 16, the industrial personal computer 18 are connect by RJ45 interfaces with pipeline coordination monitoring system 20.

The cable network includes several monitoring hosts 9, and several monitoring hosts 9 are deployed in a distributed way In the cable network, the industrial personal computer 18 in the monitoring host 9 has display screen 17 and remote communication module 16, the industrial personal computer 18 are connect by RJ45 interfaces with pipeline coordination monitoring system 20.There is the optical cable 1 double armor to protect structure, the optical cable 1 uses a cored structure or two cored structures, and the optical fiber in the optical cable 1 is single mode optical fiber.The heat distribution pipeline 12 includes thermal pipe Road main body 2 and the inner liner layer 6 for coating 2 peripheral surface of heat distribution pipeline main body, the optical cable 1 are arranged in the external structure In layer 6, the optical cable is axially extending along the inner liner layer 6.The inner liner layer 6 includes heat preservation clad 3, described The inner surface of heat preservation clad 3 is in contact with the peripheral surface of the heat distribution pipeline main body 2, and the optical cable 1 is laid in the guarantor It is fixed on the outer surface of thermometer bulb coating 3 and by optical cable fixing piece 7, glass is set on the outer surface of the heat preservation clad 3 Oversheath 5 is arranged on the glass fabric clad 4 for fiber cloth clad 4.The oversheath 5 uses galvanized iron sheet, described Optical cable fixing piece 7 is adhesive tape, and the optical cable 1 is fixed on the outer surface of the heat preservation clad 3 by the adhesive tape by being bonded, The free end of the optical cable 1 is connected in reel tail wrap-up 10.The optical cable 1 is to all warm in the heat distribution pipe network Hydraulic piping 12 is respectively formed axial Wheat straw mulching.In heating power channel 8 in the heat distribution pipeline main body 2 by heating medium be heat Water or steam etc..

It is hereby stated that described above contribute to those skilled in the art understand that the invention, but not limit the present invention The protection domain of creation.It is any that equivalent replacement described above, modification are improved without disengaging the invention substantive content And/or delete numerous conform to the principle of simplicity and the implementation that carries out, each fall within the protection domain of the invention.

Claims (10)

1. a kind of monitoring temperature cable network based on heat distribution pipeline, which is characterized in that using the heat distribution pipeline of heat distribution pipe network as carrier Cable network is formed along heat distribution pipeline whole process laying optical cable, monitoring host is distributed in the cable network, the monitoring host includes Host optical fiber interface, light pulse signal modulator, laser emitter, temperature measurement module, temperature sensor signal detector and industrial personal computer, The industrial personal computer connects the temperature measurement module, and the temperature measurement module is divided into two-way, the first via be sequentially connected the laser emitter, The light pulse signal modulator and the host optical fiber interface, the second tunnel connect institute by the temperature sensor signal detector Host optical fiber interface is stated, the host optical fiber interface connects the optical cable.

2. the monitoring temperature cable network according to claim 1 based on heat distribution pipeline, which is characterized in that the temperature measurement module Detecting optical pulses signal is injected by the optical fiber of the laser emitter and the light pulse signal modulator into the optical cable, The temperature measurement module receives Brillouin light scattered signal and Fresnel light by temperature sensor signal detector from the optical fiber Signal is reflected, by the frequency displacement of Brillouin light scattered signal and the correspondence of temperature and is combined Fresnel light reflection information Positioning relation, obtain temperature information corresponding along the optical fiber each point.

3. the monitoring temperature cable network according to claim 1 based on heat distribution pipeline, which is characterized in that the host optical fiber Interface uses FC/APC optical fiber interfaces.

4. the monitoring temperature cable network according to claim 1 based on heat distribution pipeline, which is characterized in that the industry control equipment There are display screen and remote communication module, the industrial personal computer to be connect with pipeline coordination monitoring system by RJ45 interfaces.

5. the monitoring temperature cable network according to claim 1 based on heat distribution pipeline, which is characterized in that in the cable network Including several monitoring hosts, several monitoring hosts are deployed in a distributed way in the cable network, the monitoring There is industrial personal computer in host display screen and remote communication module, the industrial personal computer to pass through RJ45 interfaces and pipeline coordination monitoring system System connection.

6. the monitoring temperature cable network according to claim 1 based on heat distribution pipeline, which is characterized in that the optical cable has Double armor protects structure, the optical cable to use a cored structure or two cored structures, and the optical fiber in the optical cable is single mode optical fiber.

7. the monitoring temperature cable network according to claim 1 based on heat distribution pipeline, which is characterized in that the heat distribution pipeline Inner liner layer including heat distribution pipeline main body and the cladding heat distribution pipeline main body peripheral surface, the optical cable setting is described outer In portion's structure sheaf, the optical cable is axially extending along the inner liner layer.

8. the monitoring temperature cable network according to claim 7 based on heat distribution pipeline, which is characterized in that the external structure Layer includes heat preservation clad, and the inner surface of the heat preservation clad is in contact with the peripheral surface of the heat distribution pipeline main body, described Optical cable is laid on the outer surface of the heat preservation clad and is fixed by optical cable fixing piece, in the outer of the heat preservation clad Glass fabric clad is set on surface, oversheath is set on the glass fabric clad.

9. the monitoring temperature cable network according to claim 8 based on heat distribution pipeline, which is characterized in that the oversheath is adopted With galvanized iron sheet, the optical cable fixing piece is adhesive tape, and the optical cable is fixed on the heat preservation by bonding and coated by the adhesive tape On the outer surface of layer, the free end of the optical cable is connected in reel tail wrap-up.

10. the monitoring temperature cable network according to claim 1 based on heat distribution pipeline, which is characterized in that the optical cable pair All heat distribution pipelines in the heat distribution pipe network are respectively formed axial Wheat straw mulching.