CN205353235U - Cable detection device on adjusting line - Google Patents

Abstract

The utility model discloses a cable detection device on adjusting line, including support, control box, spring, craspedodrome mechanism and fault detection device, craspedodrome mechanism locates the outside of support, the bottom of support is located to the control box, the fault detection device is connected with support sliding, and the bottom of support is connected through the spring with the fault detection device, the control box is connected through the circuit with the fault detection device, the both sides of support are located to arm and the driven craspedodrome arm of initiatively going straight, and it is all articulated mutually with the support, the top of the arm of initiatively going straight is located to the motor, and the motor is connected through drive mechanism with gyro wheel on the arm of initiatively going straight, the arm of initiatively going straight is connected through the spring with driven craspedodrome arm, also be connected through the spring between the craspedodrome mechanism, adopt the portable intelligence mode of patrolling and examining and realized the detection forecast to cable fault of comprehensive intellectuality, carry out fault detection to the cable, and the automation is high, information is comprehensive, very big work load and the intensity of labour who has alleviateed personnel.

Description

Cable detecting device on a kind of self-adjusting line

Technical field

This utility model relates to cable detecting device technical field, particularly to cable detecting device on a kind of self-adjusting line.

Background technology

Recent two decades comes, and in order to ensure the safe operation of power cable, the on-line monitoring technique of power cable insulation situation is obtained significant progress.Abroad, particularly the developed country such as America and Europe and Japan in detection method and technically maintains the leading position, the insulation detection device of its research and development has applies effect preferably, and long-term on-line operation also provides substantial amounts of monitoring result, enriches cable insulation defect and aging criterion.

The purpose that cable and adnexa thereof carry out online insulation ag(e)ing diagnosis is to judge that can it continue reliability service or assess its residual life.Diagnostic method can divide destructive testing and the big class of non-damaged data two.At present in the detection technique field that cable insulation is aging, the detection technique for 6kV level cable has " non-online " and " online "." non-online " including: current method, DC leakage-current method, potential decay method (direct current) are received in residual voltage method, back suction, residual charge, the DC voltage addition method, A.C.power loss current method (power frequency), dielectric loss method (intrasonic)." online " including: flip-flop, Fluctuation Method (power frequency), the DC voltage addition method (direct current and power frequency) etc..For 22kV level only with " non-online ", introduce and 6kV level diverse ways such as Dc bias, shelf depreciation, resistance to platen press etc..Above-mentioned " non-online " detection method requires that intercepting one section of cable conducts a research, and is unpractical for the detection at the aerial cables used, nor can effectively judge the practical situation at scene.So the cable movement detection for high-altitude should select " online " detection method, but in prior art, it has not been convenient to the cable that height is currently in use in the air detects, and the detection of high altitude environment is unfavorable for the safety of operator.

Utility model content

Technical problem to be solved in the utility model is to provide cable detecting device on a kind of self-adjusting line, detecting with the cable that height is currently in use by above-mentioned inconvenience in the air that solve to cause in prior art, the detection of high altitude environment is unfavorable for the defect of the safety of operator.

For achieving the above object, this utility model provides following technical scheme: cable detecting device on a kind of self-adjusting line, including bearing, control chamber, spring, craspedodrome mechanism and failure detector, described craspedodrome mechanism is located at the outside of bearing, the bottom of bearing is located at by control chamber, failure detector is connected with bearing sliding, and the bottom of bearing is connected by spring with failure detector, control chamber is connected by circuit with failure detector, craspedodrome mechanism includes actively keeping straight on arm, driven craspedodrome arm, roller, motor and drive mechanism, actively craspedodrome arm and driven craspedodrome arm are located at the both sides of bearing, and be all hinged with bearing, roller is located at the bottom of actively craspedodrome arm and driven craspedodrome arm, the top of actively craspedodrome arm is located at by motor, and motor is connected by drive mechanism with the roller on actively craspedodrome arm, actively craspedodrome arm is connected by spring with driven craspedodrome arm, it is connected also by spring between craspedodrome mechanism, motor is connected by circuit with control chamber.

Preferably, including power supply, sender unit and processor inside described control chamber, sender unit is all connected with power supply with processor, and processor is connected with described motor.

Preferably, described failure detector includes thermal infrared imager and FEF electrode, and thermal infrared imager is all connected with described processor with FEF electrode.

Preferably, described drive mechanism includes drivewheel, driven pulley and chain, and drivewheel is coaxially connected with the motor shaft of described motor, and driven pulley is connected with the center of the roller on described active craspedodrome arm, and drivewheel is connected by chain with driven pulley.

Preferably, the side of described failure detector is provided with photographic head, and photographic head is connected with processor.

Above technical scheme is adopted to provide the benefit that: this utility model includes craspedodrome mechanism and failure detector, craspedodrome mechanism is utilized to make this device can along cable movement, enable the device to automatically whole cable be detected, and failure detector is based on FUSION WITH MULTISENSOR DETECTION, Multi-information acquisition, movable-type intelligent routine inspection mode and achieve the detection to cable fault of Hybrid Decision-making and forecast, and utilize photographic head that cable is shot, and send the video of detection and shooting to operator, operator just can observe the exocuticle situation of cable on the ground by computer, and cable is carried out fault detect, automaticity is high, information is comprehensive, intuitively, reliably, alleviate workload and the labor intensity of personnel greatly.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model；

Fig. 2 is Cleaning Principle figure of the present utility model；

Wherein, 1-bearing, 2-cable, 3-craspedodrome mechanism, 5-failure detector, 4-control chamber, 6-spring, 7-photographic head, 31-actively keep straight on arm, the driven craspedodrome arm of 32-, 33-motor, 34-roller, 35-drive mechanism, 351-drivewheel, 352-driven pulley, 353-chain.

Detailed description of the invention

Preferred implementation of the present utility model is described in detail below in conjunction with accompanying drawing.

Fig. 1 and Fig. 2 shows detailed description of the invention of the present utility model: cable detecting device on a kind of self-adjusting line, bearing 1, control chamber 4, spring 6, craspedodrome mechanism 3 and failure detector 5, described craspedodrome mechanism 3 is located at the outside of bearing 1, the bottom of bearing 1 is located at by control chamber 4, failure detector 5 and bearing 1 are slidably connected, and the bottom of bearing 1 is connected by spring 6 with failure detector 5, control chamber 4 is connected by circuit with failure detector 5, craspedodrome mechanism 3 includes actively craspedodrome arm 31, driven craspedodrome arm 32, roller 34, motor 33 and drive mechanism 35, actively craspedodrome arm 31 and driven craspedodrome arm 32 are located at the both sides of bearing 1, and be all hinged with bearing 1, roller 34 is located at the bottom of actively craspedodrome arm 31 and driven craspedodrome arm 32, the top of actively craspedodrome arm 31 is located at by motor 33, and motor 33 is connected by drive mechanism 35 with the roller 34 on actively craspedodrome arm 31, actively craspedodrome arm 31 is connected by spring 6 with driven craspedodrome arm 32, it is connected also by spring 6 between craspedodrome mechanism 3, motor 33 is connected by circuit with control chamber 4.

In this utility model, described control chamber 4 is internal includes power supply, sender unit and processor, sender unit is all connected with power supply with processor, processor is connected with described motor 33, and described drive mechanism 35 includes drivewheel 351, driven pulley 352 and chain 353, drivewheel 351 is connected with described motor 33 axle, and driven pulley 352 is connected with the center of the roller 34 on described active craspedodrome arm 31, and drivewheel 351 is connected by chain 353 with driven pulley 352.

Craspedodrome mechanism 3 drives this device to travel forward along guide rail, electric energy is provided by power supply, sender unit and operator carry out information exchange, processor controls motor 33 and moves forward, utilize spring 6 by this device tightly be fixed on cable 2, and owing to spring 6 can shrink and stretch, this device is applicable to multiple various sizes of cable 2, motor 33 axle drives drivewheel 351 to rotate, driven pulley 352 is due to the gearing concomitant rotation of chain 353, rotate along with the rotation of driven pulley 352 owing to rolling, thus driving this device to move forward, wherein craspedodrome mechanism 3 is located at the surrounding of bearing 1 uniformly, the quantity of craspedodrome mechanism 3 is 3-5, the whole device of multi-faceted drive operates, the operation making this device is more steady.

In this utility model, described failure detector 5 includes thermal infrared imager and FEF electrode, and thermal infrared imager is all connected with described processor with FEF electrode, and the side of described failure detector 5 is provided with photographic head 7, and photographic head 7 is connected with processor.

Utilize thermal infrared imager that the temperature of cable 2 is analyzed, by the analysis to temperature, show that the thickness of cable 2 insulating barrier is with thin, whether FEF electrode is to having exposed cable 2 to detect, photographic head 7 can record the situation of cable 2 outer surface, operator just can observe the exocuticle situation of cable 2 on the ground by computer, facilitates operator more fully to understand the health condition of cable 2.

This utility model includes craspedodrome mechanism 3 and failure detector 5, craspedodrome mechanism 3 is utilized to make this device can move along cable 2, enable the device to automatically whole cable 2 be detected, and failure detector 5 is based on FUSION WITH MULTISENSOR DETECTION, Multi-information acquisition, movable-type intelligent routine inspection mode and achieve the detection to cable 2 fault of Hybrid Decision-making and forecast, and utilize photographic head 7 that cable 2 is shot, and send the video of detection and shooting to operator, operator just can observe the exocuticle situation of cable 2 on the ground by computer, and cable 2 is carried out fault detect, automaticity is high, information is comprehensive, intuitively, reliably, alleviate workload and the labor intensity of personnel greatly.

Above-described is only preferred implementation of the present utility model; it should be pointed out that, for the person of ordinary skill of the art, under the premise creating design without departing from this utility model; can also making some deformation and improvement, these broadly fall into protection domain of the present utility model.

Claims (5)

1. cable detecting device on a self-adjusting line, including bearing, control chamber, spring, craspedodrome mechanism and failure detector, it is characterized in that, described craspedodrome mechanism is located at the outside of bearing, the bottom of bearing is located at by control chamber, failure detector is connected with bearing sliding, and the bottom of bearing is connected by spring with failure detector, control chamber is connected by circuit with failure detector, craspedodrome mechanism includes actively keeping straight on arm, driven craspedodrome arm, roller, motor and drive mechanism, actively craspedodrome arm and driven craspedodrome arm are located at the both sides of bearing, and be all hinged with bearing, roller is located at the bottom of actively craspedodrome arm and driven craspedodrome arm, the top of actively craspedodrome arm is located at by motor, and motor is connected by drive mechanism with the roller on actively craspedodrome arm, actively craspedodrome arm is connected by spring with driven craspedodrome arm, it is connected also by spring between craspedodrome mechanism, motor is connected by circuit with control chamber.

2. cable detecting device on a kind of self-adjusting line according to claim 1, it is characterized in that, including power supply, sender unit and processor inside described control chamber, sender unit is all connected with power supply with processor, and processor is connected with described motor.

3. cable detecting device on a kind of self-adjusting line according to claim 2, it is characterised in that described failure detector includes thermal infrared imager and FEF electrode, and thermal infrared imager is all connected with described processor with FEF electrode.

4. cable detecting device on a kind of self-adjusting line according to claim 3, it is characterized in that, described drive mechanism includes drivewheel, driven pulley and chain, drivewheel is coaxially connected with the motor shaft of described motor, driven pulley is connected with the center of the roller on described active craspedodrome arm, and drivewheel is connected by chain with driven pulley.

5. cable detecting device on a kind of self-adjusting line according to claim 4, it is characterised in that the side of described failure detector is provided with photographic head, and photographic head is connected with processor.