A wall surface suction-type travel device includes a main body, a cushion, a plurality of support wheels, a crawler, and a drive source. The main body includes a wall-surface facing section and a draw-in port. The cushion is disposed on the wall-surface facing section of the main body and surrounding an edge of the draw-in port. The cushion is elastically deformable and has a slide surface sliding on the wall surface when the wall surface suction-type travel device travels on the wall surface. The plurality of support wheels are disposed on the main body. The crawler is an endless belt suspended on the plurality of the support wheels. The crawler has a grip surface put into contact with the wall surface when the wall surface suction-type travel device travels on the wall surface. The drive source is to rotate the crawler.

A robotic device for providing vertical mobility has a payload is disposed inside a central compartment and supported by a skid. The skid can move up and down through latch and hook pairs to keep intimate contact with the surface and cross over bumps. The apparatus uses a flexible seal to create a reliable vacuum chamber. The flexible seal comprises a foam ring inside fabric pocket. A plurality of rod and spring strips are configured to apply a downward force to the flexible seal to conform with surface curvatures. The fabric pocket fills in the gaps or seams to maintain a vacuum. The air flows inside a manifold and passes through a filter to avoid debris from damaging the vacuum motor assembly.

A robotic device for providing vertical mobility has a payload is disposed inside a central compartment and supported by a skid. The skid can move up and down through latch and hook pairs to keep intimate contact with the surface and cross over bumps. The apparatus uses a flexible seal to create a reliable vacuum chamber. The flexible seal comprises a foam ring inside fabric pocket. A plurality of rod and spring strips are configured to apply a downward force to the flexible seal to conform with surface curvatures. The fabric pocket fills in the gaps or seams to maintain a vacuum. The air flows inside a manifold and passes through a filter to avoid debris from damaging the vacuum motor assembly.

The present invention relates to a remotely operated underwater robot device for removing marine biofouling, mainly aimed at organisms such as sun coral, settled on hulls of floating units for transporting oil and derivatives thereof, or on exploration and production platforms. The system comprises a remotely operated robot that removes the marine biofouling from said hulls, without damaging the hull, containing and capturing the waste. It is an intelligent device that is capable of operating in two modes: as an ROV to allow it to travel through the water, and as a crawler to perform the actual functions of removing the macrofouling containing sun coral and the functions resulting therefrom. It has non-georeferenced reference systems using acoustic elements to facilitate location by the operator. It uses computer vision to enter the parking areas without human assistance. It contains thrusters for controlling aquatic movements and self-levelling systems with control of the centre-of-buoyancy dynamics, and has wheels for movement, which can be electromagnets or a set of wheels that works in conjunction with a magnetic fastening system, both with variation in the coupling force. It has either a system for removing, containing, capturing and crushing the biofouling or a removal system using cavitation and mechanical impact that can have an approximate height of 30 centimetres, normally applied to sun coral.

The present invention relates to a remotely operated underwater robot device for removing marine biofouling, mainly aimed at organisms such as sun coral, settled on hulls of floating units for transporting oil and derivatives thereof, or on exploration and production platforms. The system comprises a remotely operated robot that removes the marine biofouling from said hulls, without damaging the hull, containing and capturing the waste. It is an intelligent device that is capable of operating in two modes: as an ROV to allow it to travel through the water, and as a crawler to perform the actual functions of removing the macrofouling containing sun coral and the functions resulting therefrom. It has non-georeferenced reference systems using acoustic elements to facilitate location by the operator. It uses computer vision to enter the parking areas without human assistance. It contains thrusters for controlling aquatic movements and self-levelling systems with control of the centre-of-buoyancy dynamics, and has wheels for movement, which can be electromagnets or a set of wheels that works in conjunction with a magnetic fastening system, both with variation in the coupling force. It has either a system for removing, containing, capturing and crushing the biofouling or a removal system using cavitation and mechanical impact that can have an approximate height of 30 centimetres, normally applied to sun coral.

The present invention discloses an apparatus and method for patrol-inspection of a rigid cage channel. The patrol-inspection apparatus comprises a moving member, a transmission member, a driving member, a guide member, and a housing on a main bottom plate. The driving member comprises a tilt sensor and a pressure sensor connected to a microcontroller, the microcontroller is connected to a driver, the driver is connected to a brushless DC motor, and an output shaft of the brushless DC motor is provided with an optical encoder connected to the driver; The moving member comprises a driving output shaft and a driven output shaft, wheel flanges on the driving output shaft and the driven output shaft are each connected with a wheel hub, a permanent magnet is provided in the wheel hub, and a rubber skin is provided on the outer side of the wheel hub; The transmission member comprises a worm connected with the output shaft of the brushless DC motor, a worm wheel on the driving output shaft and meshed with the worm, timing pulleys on the driving output shaft and the driven output shaft, and a timing belt wound on the timing pulleys. The guide member comprises a guide wheel. The present invention increases inspection speed of the rigid cage channel and improves indirectly the production efficiency of the coal mine enterprise.

A caterpillar device includes: a water film removing part which is provided in a power transmission member including chains, presses and removes a water film between an attachment object as a magnetic material, and the power transmission member with a magnetic force, and attaches the power transmission member to the attachment object to secure a frictional force; and an apparatus body magnet attachment part which is connected to the power transmission member and attaches the body of the apparatus to the attachment object.

A caterpillar device includes: a water film removing part which is provided in a power transmission member including chains, presses and removes a water film between an attachment object as a magnetic material, and the power transmission member with a magnetic force, and attaches the power transmission member to the attachment object to secure a frictional force; and an apparatus body magnet attachment part which is connected to the power transmission member and attaches the body of the apparatus to the attachment object.

A robotic device for providing vertical mobility has a payload is disposed inside a central compartment and supported by a skid. The skid can move up and down through latch and hook pairs to keep intimate contact with the surface and cross over bumps. The apparatus uses a flexible seal to create a reliable vacuum chamber. The flexible seal comprises a foam ring inside fabric pocket. A plurality of rod and spring strips are configured to apply a downward force to the flexible seal to conform with surface curvatures. The fabric pocket fills in the gaps or seams to maintain a vacuum. The air flows inside a manifold and passes through a filter to avoid debris from damaging the vacuum motor assembly.

A robotic device for providing vertical mobility has a payload is disposed inside a central compartment and supported by a skid. The skid can move up and down through latch and hook pairs to keep intimate contact with the surface and cross over bumps. The apparatus uses a flexible seal to create a reliable vacuum chamber. The flexible seal comprises a foam ring inside fabric pocket. A plurality of rod and spring strips are configured to apply a downward force to the flexible seal to conform with surface curvatures. The fabric pocket fills in the gaps or seams to maintain a vacuum. The air flows inside a manifold and passes through a filter to avoid debris from damaging the vacuum motor assembly.