First anti-explosive robot model for flammable gas leak incidents

The remotely operated Sakura No. 2 (anti-explosive model) robot, that features greatly reduced risk of electrical spark or heat creation that can cause explosions or fire when flammable gas is present, has been jointly developed Mitsubishi Heavy Industries, Ltd. and Chiba Institute of Technology (CIT). It is the first mobile robot in Japan that can be remotely operated either wirelessly or by wire to be officially certified as anti-explosive.

It willbe developed for safe and efficient data collection, inspection and light work in environments that require equipment to be anti-explosive such as tunnel accidents and petrochemical plants.

It is based on the Sakura No. 2 robot developed by CIT that has built up experience in applications such as accident resolution support activities in nuclear power plants. The advanced anti-explosive design has been realized by utilizing MHI’s broad technical capabilities in industrial fields.

The project received outsourcing support and assistance from The New Energy and Industrial Technology Development Organization (NEDO) and passed the anti-explosive model inspection of the Technology Institution of Industrial Safety (TIIS) in Japan. Further, it is planned to obtain anti-explosive certification based on the ATEX Directive that is widely adopted in Europe and around the world.

The pressure resistant anti-explosive casing that houses components such as the lithium ion batteries and BMS (battery management system) and the casing for the electrical parts such as the motor and controller have a higher internal pressure than the external atmosphere, giving the robot a two-fold internal pressure plus pressure resistant anti-explosive protection. The interior of the casing is impenetrable to flammable gases due to the pressure difference.If the casing internal pressure drops, for example if the casing is damaged, this is detected and the power supply is cut off.

The batteries for storing electricity are protected by a pressure resistant anti-explosive casing that was jointly developed by IDEC Corporation, so the risk of igniting gas due to electrical sparks or heat has been greatly reduced. Due to its advanced anti-explosive design the robot can operate in highly explosive and diffusible hydrogen gas, and can be used in zone 1 hazardous areas.

It is hoped that the robot can be used in many situations in addition to applications such as methane gas spouts during excavation and tunnel accidents with a high risk of ignition or explosion due to vehicle fuel leaks. Needs are growing for robots that can carry out investigations of abnormalities and perform light work for emergency inspections and rapid recovery at the time of disasters, as well as for preventing and limiting disasters. There is also a trend toward using robots in applications such as new oil field facilities or oil and chemical related facilities to carry out work such as inspections at low cost and with high precision in places that are hard for humans to work in such as working at height or in confined areas.