Power industry

Under the “dual-carbon” construction goal, the energy structure will be completely changed to deal with the severe situation of long-term total and structural shortage of staff, complex grid environment and heavy tasks of power protection, to realize the standardization of UAV inspection business, the intellectualization of operation and the informatization of control, and finally to provide a strong guarantee for power protection tasks.

  • High-frequency, normalized, unmanned autonomous inspection mode

  • Standardized, high-precision data collection capabilities

  • Distance-unlimited network data transmission

  • Gridded deployment, clustered management

01 Assign inspection tasks

Power inspectors can remotely start the “Orcas” inhabited in “Tiger dens” to autonomously perform the inspection tasks through the “Tiger vision” four-dimensional holographic control system.

02Replace batteries and pods automatically

“Tiger dens” can automatically replace the batteries and sensor pods for the “Orcas”, then the “Orcas” can take off again to perform their missions just in 3 minutes.

04Edge-point intelligent calculation

With the end-side AI intelligent computing modules inside, the “Orcas” have the ability of edge-point intelligent recognition and calculation.

05Cloud intelligent computing

The “Orcas” return the power inspection defect data to the “Tiger vision” four-dimensional holographic control platform in real time. Based on the artificial intelligence algorithms, power inspection reports will be created immediately.

03“Orcas” take-off automatically

Use 30× optical zoom pods and infrared thermal imaging pods to collect data

work process

work process

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01 Assign inspection tasks

Power inspectors can remotely start the “Orcas” inhabited in “Tiger dens” to autonomously perform the inspection tasks through the “Tiger vision” four-dimensional holographic control system.

02Replace batteries and pods automatically

“Tiger dens” can automatically replace the batteries and sensor pods for the “Orcas”, then the “Orcas” can take off again to perform their missions just in 3 minutes.

03“Orcas” take-off automatically

Use 30× optical zoom pods and infrared thermal imaging pods to collect data

04Edge-point intelligent calculation

With the end-side AI intelligent computing modules inside, the “Orcas” have the ability of edge-point intelligent recognition and calculation.

05Cloud intelligent computing

The “Orcas” return the power inspection defect data to the “Tiger vision” four-dimensional holographic control platform in real time. Based on the artificial intelligence algorithms, power inspection reports will be created immediately.

Applications in power industry

Under the national “dual-carbon” energy strategy, a newly built clean, low-carbon, safe and efficient power system has gradually taken shape. In order to cope with the shortage of power operation and maintenance staff under the energy Internet, using intelligent terminal inspection equipment has become a significant step. I-KINGTEC will make key efforts on the platform of renewable energy power generation and the field of power transmission, transformation and distribution. Through constructing a space-earth integrated three-dimensional power operation and maintenance system and cooperating with users to complete the whole-process digital transformation construction of operation and maintenance management, a standardized, intelligent and information-based inspection service system will be created and it will provide a strong guarantee for power operation and maintenance.

  • Distance-unlimited network data transmission
  • Standardized, high-precision data collection capabilities
  • Gridded deployment, clustered management
  • High-frequency, normalized, unmanned autonomous inspection mode

Hydropower station inspection

Photovoltaic inspection

Wind power station inspection

Substation inspection

Grid deployment to build an integrated holographic management and control system for wind power system and maintenance

  • Identification and analysis of power grid defects

  • Digital 3D model

  • Grid deployment, cluster management and control of power IoT devices

  • Route planning, independent inspection

Functional advantage

Give three-dimensional digital model a four-dimensional upgradeOne-key autonomous planning and correction for waypoints and tracks
7×24h non-stop inspection | Multi-pod collaborationMulti-pod collaborationIoT whole-link Accurately identify defects or risk points based on AI algorithms

Line channel inspection

For the threat assessment of objects around the line (such as geological changes and plant growth around the line), detect large-size abnormal objects on the line.

Meticulous inspection of tower body

For each base pole, inspect the details of the tower, such as the tower body, insulators, large/small fittings and ancillary facilities.

Single plane inspection mode

A single “Orca” works around the “Tiger den” core with a 6-kilometer operating radius, to complete the autonomous and effective inspection of all the electrical equipment within the coverage area.

Stand-alone “leapfrog” inspection mode

A single “Orca” can depart from one “Tiger den” and fly to the next den for “replenishment” with a flight length of 10-15km, to complete the unmanned autonomous inspection of long-distance power transmission lines.

Multi-machine coordinated inspection mode

Multiple “Orcas” can start from different “Tiger dens” to complete multi-aircraft facing/backward flight, effectively improving the efficiency of line inspection.