CN208420054U - A kind of cable laying condition monitoring system - Google Patents

Abstract

The utility model discloses a kind of cable laying condition monitoring systems, comprising: cable, rotary connector, compound wirerope, electronic compartment and monitoring system；Rotary connector one end is connected with cable, and the other end is connected with compound wirerope；Wherein, tension sensor is installed on rotary connector；Tension sensor is electrically connected with electronic compartment；Video sensor, gyroscope and GPS module are installed on electronic compartment；And the information that tension sensor, video sensor, gyroscope and GPS module monitor is sent to monitoring system by compound wirerope by electronic compartment.Cable laying condition monitoring system disclosed by the utility model combines imaging technique, microelectronics measuring technique and gyroscope airmanship, environment and cable core stress in real-time monitoring cabling process in pipeline, while realizing the description to the Actual path of cable laying.

Description

A kind of cable laying condition monitoring system

Technical field

The utility model relates to cable laying Condition Monitoring Technology field, more particularly to a kind of cable laying shape State monitors system.

Background technique

In cabling process, due to shelving for a long time etc. the comb that has laid, it will appear blocking, pipe in pipeline Many abnormal phenomenon such as road dislocation.Although leading to stick using manpower traction's plastics usually before cable laying at present come the row of dredging Pipe, but still corresponding tamper can be formed in comb, the power for laying trailing cable increases, and will lead to conductor when power is excessive It is damaged between core and insulation, reduces the service life of cable.Residue remaining in pipeline simultaneously, will also result in cable and is laying The abrasion of cable cover(ing) in the process leads to the decline for causing cable service life.Therefore, to cable laying status monitoring for true Cable reliability service is protected to be of great significance.

Therefore, how to realize to cable laying state it is effective monitoring be those skilled in the art's urgent need to resolve the problem of.

Utility model content

In view of this, the present invention provides a kind of cable laying condition monitoring systems, combine imaging technique, micro- electricity Sub- measuring technique and gyroscope airmanship, being capable of environment and cable core stress shape in real-time monitoring cabling process in pipeline State, while realizing the description to the Actual path of cable laying.

To achieve the goals above, the utility model adopts the following technical solution:

A kind of cable laying condition monitoring system, comprising: cable, rotary connector, compound wirerope, electronic compartment and monitoring system System；

Described rotary connector one end is connected with the cable, and the other end is connected with the compound wirerope；Wherein, the rotation Turn that tension sensor is installed on connector；The tension sensor is electrically connected with the electronic compartment；

Video sensor, gyroscope and GPS module are installed on the electronic compartment；And the electronic compartment passes the pulling force The information that sensor, the video sensor, the gyroscope and the GPS module monitor is sent to by the compound wirerope The monitoring system.

Preferably, further includes: the remote monitoring device being connect with the monitoring system wireless.

Preferably, the compound wirerope includes: centrally located optical fiber, and the outer fiber is enclosed equipped with shielded layer；Institute It states shielded layer periphery and is provided with multiple conductor portions, each conductor portion periphery includes successively from inside to outside conductor, insulating layer, fills out Fill layer and protective layer；Filled layer, sheath and steel wire floor are successively wrapped up from inside to outside in the conductor portion periphery.

Preferably, the rotary connector includes: rotating part, fixed part, the tension sensor, the electronic compartment and leads Draw portion；

The rotating part and fixed part rotation connect；

The tension sensor is between the fixed part and the electronic compartment；Wherein, the tension sensor passes through Outlet terminal is electrically connected with the electronic compartment；

The fixed part is connect with the internal screw thread of the tension sensor；The tension sensor and the electronic compartment phase Even；

The electronic compartment is connect with the tractive unit；The tractive unit connects the compound wirerope, the rotating part connection The cable；Wherein, the electronic compartment is connect by signal leading-out terminal with the compound wirerope.

Preferably, axial seal coil is provided between the tension sensor and the electronic compartment.

Preferably, the tension sensor is connect by attachment screw with the electronic compartment.

Preferably, the electronic compartment is connect by attachment screw with the tractive unit.

Preferably, the electronic compartment and the tractive unit junction are equipped with video sensor.

Preferably, the video sensor includes: camera.

Preferably, the electronic compartment further include: vapour cock and temperature sensor；The vapour cock and the temperature pass Sensor is all set on the electronic compartment end face connecting with the tractive unit, and the temperature sensor is electrically connected with monitoring terminal.

It can be seen via above technical scheme that compared with prior art, the utility model, which discloses, to be provided a kind of cable and applies If condition monitoring system, the measurement to pulling force during cable pulling is realized using tension sensor；Utilize video sensor reality Now to the camera shooting and recording of pipeline environment during cable pulling, realizes the analysis to pipe diameter, realize to cable laying The monitoring of cable channel environment and cable core stress in the process prevents from causing conductive cable cores, master exhausted because tractive force is excessive Damage of the damage and pipeline residue of edge to cable cover(ing), so that it is guaranteed that cable laying is safe.It is realized using gyroscope technology The record to cable pulling track is realized in measurement to the parameters such as angular displacement, speed, acceleration during cable pulling, thus Operation maintenance personnel is set to be clearly understood that the location information of pipeline.

In addition, the utility model integrates original wirerope, power supply and signal wire, realize to the same of cable pulling When, the power supply of complete paired systems and the transmission of data.Can also by remote monitoring device, such as: mobile phone realize to monitoring be System is supervised, is checked, project manager is made to can be realized the long-range monitoring to site operation state.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is the embodiments of the present invention, for those of ordinary skill in the art, without creative efforts, also Other attached drawings can be obtained according to the attached drawing of offer.

Fig. 1 attached drawing is the schematic diagram of cable laying condition monitoring system provided by the utility model；

Fig. 2 attached drawing is the structural schematic diagram of compound wirerope provided by the utility model；

Fig. 3 attached drawing is the structural schematic diagram of rotary connector provided by the utility model；

Fig. 4 attached drawing is tension sensor end view provided by the utility model；

Fig. 5 attached drawing is the schematic diagram of electronic compartment end face provided by the utility model.

Specific embodiment

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 Every other embodiment obtained, fall within the protection scope of the utility model.

Referring to Fig. 1, figure the utility model embodiment discloses a kind of cable laying condition monitoring system, comprising: cable 1, Rotary connector 2, compound wirerope 3, electronic compartment 24 and monitoring system 5；

2 one end of rotary connector is connected with cable 1, and the other end is connected with compound wirerope 3；Wherein, pacify on rotary connector 2 Equipped with tension sensor 23；Tension sensor 23 is electrically connected with electronic compartment 24；

Video sensor 241, gyroscope and GPS module are installed on electronic compartment 24；And electronic compartment 24 is by tension sensor 23, the information that video sensor 241, gyroscope and GPS module monitor is sent to monitoring system 5 by compound wirerope 3.

Cable laying condition monitoring system provided by the utility model has following function:

1, according to the structure of tension sensor, design has the rotary connector of tension sensor, realizes to 0-10T model The test enclosed；

2, existing wirerope, power supply line and signal wire are integrated, is completed while realization to cable pulling to being The power supply of system and the transmission of data；

3, it using CCD imaging technique and pulling force monitoring technology, realizes to cable channel environment and cable in cabling process The monitoring of core stress prevents the damage for causing cable fault and pipeline residue to cable cover(ing) because tractive force is excessive, from And ensure the safety of cable laying.

4, it using gyroscope technology, realizes the measurement to kinematic parameter in cabling process, passes through the data to measurement Processing realize drafting to cable run.

It monitors terminal and above-mentioned metrical information is uploaded to monitoring system by fiber optic telecommunications module, such as: it can be upper Machine, host computer combine GPS positioning skill to the analysis of pulling force, the recording of vision signal by the processing to detection data, realization Art realizes the record to cable pulling track, to make using parameters such as angular displacement measured by gyroscope, speed, accelerations Operation maintenance personnel can be clearly understood that the location information of pipeline.

In order to further optimize the above technical scheme, further includes: the remote monitoring device 6 being wirelessly connected with monitoring system 5.

Specifically, remote monitoring device can be mobile phone, tablet computer etc., can be connected with monitoring system by 4G network It connects, so that project manager is can be realized the long-range monitoring to site operation state, understand and grasp Construction State in time, thus Ensure the reliable and secure of cable laying.

Referring to attached drawing 2, compound wirerope 3 includes: centrally located optical fiber 31, is enclosed outside optical fiber 31 equipped with shielded layer 32； 32 periphery of shielded layer is provided with multiple conductor portions, and each conductor portion periphery includes successively from inside to outside conductor 33, insulating layer 34, fills out Fill layer 35 and protective layer 36；Filled layer 35, sheath 37 and steel wire floor 38 are successively wrapped up from inside to outside in conductor portion periphery.

Compound wirerope provided by the utility model integrates wirerope, power supply line and signal wire, and cable is led in realization The transmission of the power supply of complete paired systems and data while drawing.

Wherein, steel wire floor is made of steel wire, is primarily subjected to pulling force, realizes the traction to cable；Conductor is mainly used for prison It surveys unit and power supply is provided；Insulating layer mainly realizes the isolation of conductor He other layers, it is ensured that conductor reliable power supply；Optical fiber is mainly used for The communication of signal is realized monitoring signals being uploaded to computer, so that it is guaranteed that the monitoring to pipeline environment and pulling force；Sheath is mainly used In bearing radial pressure, protect optical fiber and conductor from squeezing, cause power supply line and optical-fibre channel in radial compression applied Lower damage；Filled layer is mainly used for packing material, prevents water from entering；Shielded layer is mainly used for preventing power circuit to signal wire Interference, it is ensured that monitoring signals reliably transmit.

Referring to Fig. 3-5, rotary connector 2 includes: rotating part 21, fixed part 22, tension sensor 23, electronic compartment 24 and leads Draw portion 25；

Rotating part 21 and the rotation of fixed part 22 connect；

Tension sensor 23 is between fixed part 22 and electronic compartment 24；Wherein, tension sensor 23 passes through outlet terminal 26 are electrically connected with electronic compartment 24；

Fixed part 22 is connect with the internal screw thread 27 of tension sensor 23；Tension sensor 23 is connected with electronic compartment 24；

Electronic compartment 24 is connect with tractive unit 25；Tractive unit 25 connects compound wirerope 3,21 connecting cable 1 of rotating part；Wherein, Electronic compartment 24 is connect by signal leading-out terminal 240 with compound wirerope 3.

The torsion strength of wirerope is discharged in trailing cable using the rotating part of rotary connector provided by the utility model, together When by the measurement of tension sensor, realize the test to pulling force in rotary connector drawing process.In application process, electric The tractive unit in sub- cabin is connected with cable, and the wirerope or compound wirerope for bearing pulling force with rotary connector by being connected, thus real Now to the measurement of pulling force during cable pulling, while meeting the requirement that torsion is discharged in current cabling process.

Rotation tension sensor provided by the utility model, which not only overcomes, installs tension sensor difficulty on wirerope Problem also achieves the integration of system, improves the reliability of system application, has very high engineering application value.

In addition it is also necessary to explanation, outlet terminal 26 is used for the signal measured to electronic compartment transmission tension sensor, And signal leading-out terminal 240 is used to transmit tension sensor 23, video sensor 241, gyroscope and GPS module to monitoring system 5 The information monitored.

In order to further optimize the above technical scheme, axial seal line is provided between tension sensor 23 and electronic compartment 24 Circle 28.

In order to further optimize the above technical scheme, tension sensor 23 is connect by attachment screw 29 with electronic compartment 24.

In order to further optimize the above technical scheme, electronic compartment 24 is connect by attachment screw 29 with tractive unit 25.

Fixed part is connected by attachment screw with electronic compartment, the internal screw thread connection of fixed part and tension sensor；Entire system The internal screw thread of screw, tension sensor that system is connected using tension sensor with electronic compartment bears corresponding pulling force, to make whole A system bears enough pulling force during cable pulling.

In order to further optimize the above technical scheme, electronic compartment 24 and 25 junction of tractive unit are equipped with video sensor 241。

In order to further optimize the above technical scheme, video sensor 241 includes: camera.

In order to further optimize the above technical scheme, electronic compartment 24 further include: vapour cock 242 and temperature sensor 243； Vapour cock 242 and temperature sensor 243 are all set on 24 end face of electronic compartment connecting with tractive unit 25, and temperature sensor 243 are electrically connected with monitoring terminal.Camera and temperature sensor are mainly for detection of pipeline environment and environmental parameter.By to ring Border parameter is detected, and system operating temperature can be prevented excessively high, guarantees the safety of system operation.

Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with other The difference of embodiment, the same or similar parts in each embodiment may refer to each other.For device disclosed in embodiment For, since it is corresponded to the methods disclosed in the examples, so being described relatively simple, related place is said referring to method part It is bright.

The foregoing description of the disclosed embodiments can be realized professional and technical personnel in the field or using originally practical new Type.Various modifications to these embodiments will be readily apparent to those skilled in the art, and determine herein The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause This, the present invention will not be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The widest scope consistent with features of novelty.

Claims (10)

1. a kind of cable laying condition monitoring system characterized by comprising cable (1), rotary connector (2), compound wirerope (3), electronic compartment (24) and monitoring system (5)；

Described rotary connector (2) one end is connected with the cable (1), and the other end is connected with the compound wirerope (3)；Wherein, Tension sensor (23) are installed on the rotary connector (2)；The tension sensor (23) and the electronic compartment (24) electricity Connection；

Video sensor (241), gyroscope and GPS module are installed on the electronic compartment (24)；And the electronic compartment (24) will The information that the tension sensor (23), the video sensor (241), the gyroscope and the GPS module monitor is logical It crosses the compound wirerope (3) and is sent to the monitoring system (5).

2. a kind of cable laying condition monitoring system according to claim 1, which is characterized in that further include: with the prison The remote monitoring device (6) that examining system (5) is wirelessly connected.

3. a kind of cable laying condition monitoring system according to claim 1, which is characterized in that the compound wirerope (3) Include: centrally located optical fiber (31), encloses outside the optical fiber (31) equipped with shielded layer (32)；Shielded layer (32) periphery Multiple conductor portions are provided with, each conductor portion periphery successively includes conductor (33), insulating layer (34), filled layer from inside to outside (35) and protective layer (36)；Filled layer (35), sheath (37) and steel wire floor are successively wrapped up from inside to outside in the conductor portion periphery (38)。

4. a kind of cable laying condition monitoring system according to claim 1, which is characterized in that the rotary connector It (2) include: rotating part (21), fixed part (22), the tension sensor (23), the electronic compartment (24) and tractive unit (25)；

The rotating part (21) and the fixed part (22) rotation connect；

The tension sensor (23) is between the fixed part (22) and the electronic compartment (24)；Wherein, the pulling force passes Sensor (23) is electrically connected by outlet terminal (26) with the electronic compartment (24)；

The fixed part (22) connect with the internal screw thread (27) of the tension sensor (23)；The tension sensor (23) and institute Electronic compartment (24) are stated to be connected；

The electronic compartment (24) connect with the tractive unit (25)；The tractive unit (25) connects the compound wirerope (3), described Rotating part (21) connects the cable (1)；Wherein, the electronic compartment (24) passes through signal leading-out terminal (240) and the clad steel Cable (3) connection.

5. a kind of cable laying condition monitoring system according to claim 4, which is characterized in that the tension sensor (23) it is provided between the electronic compartment (24) axial seal coil (28).

6. a kind of cable laying condition monitoring system according to claim 4, which is characterized in that the tension sensor (23) it is connect by attachment screw (29) with the electronic compartment (24).

7. a kind of cable laying condition monitoring system according to claim 4, which is characterized in that the electronic compartment (24) is logical Attachment screw (29) is crossed to connect with the tractive unit (25).

8. a kind of cable laying condition monitoring system according to claim 4, which is characterized in that the electronic compartment (24) with Tractive unit (25) junction is equipped with video sensor (241).

9. a kind of cable laying condition monitoring system according to claim 8, which is characterized in that the video sensor It (241) include: camera.

10. a kind of cable laying condition monitoring system according to claim 4, which is characterized in that the electronic compartment (24) Further include: vapour cock (242) and temperature sensor (243)；The vapour cock (242) and the temperature sensor (243) It is all set on electronic compartment (24) end face being connect with the tractive unit (25), and the temperature sensor (243) and monitoring are eventually End electrical connection.