A pipe pig is provided with linked wheels, and at least a central wheel of the linked wheels is pivotally linked to adjacent wheels through a spring loaded connection that biases the central wheel out of straight line alignment with the adjacent wheels. The pipe pig may be used to negotiate tight bends in a pipe and carry sensing electronics.

A pipe pig is provided with linked wheels, and at least a central wheel of the linked wheels is pivotally linked to adjacent wheels through a spring loaded connection that biases the central wheel out of straight line alignment with the adjacent wheels. The pipe pig may be used to negotiate tight bends in a pipe and carry sensing electronics.

An apparatus for cleaning waste collection systems of solid materials. The apparatus is capable of cleaning waste systems in two known ways. First, a pumping method uses normal and injected water flow to suspend the solids in a slurry. A submersible pump moves the slurry from a collection point up to a pressurized container where the water content of the slurry is decanted and reused as injection water while the particulate material settles to the bottom of the pressurized container. Second, a vacuum system may be used to move the slurry from the waste system to the waste container. The vacuum system creates a negative pressure differential, causing material to be pulled through a vacuum tube and into the waste container. When the container becomes substantially full of solid particles, it may be emptied at a dumpsite.

A system includes an inspection robot comprising a main body and at least one payload; a plurality of arms, where each of the plurality of arms is pivotally mounted to the at least one payload to rotate around respective ones of a plurality of axes while the inspection robot traverses an inspection surface in a direction of travel, and where at least one of the plurality of axes is in the direction of travel; a plurality of sleds mounted to the plurality of arms; a plurality of inspection sensors coupled to the plurality of sleds such that each sensor is operationally couplable to the inspection surface; and where the plurality of sleds are distributed horizontally at adjustable positions spaced apart from each other across the at least one payload to inspect the inspection surface at a selected horizontal resolution.

A system includes an inspection robot having a number of payloads, a number of arms mounted to the payloads, and a number of sleds mounted to the arms. The system includes a number of sensors, each mounted to a corresponding sled, such that the sensor is operationally coupleable to an inspection surface in contact with a bottom surface of the corresponding sled. A couplant chamber is provided within at least two of the sleds, the couplant chamber between a transducer of a sensor and the inspection surface. The system includes a biasing member for each of the arms, where the biasing member provides a down force on the corresponding sled.

A system to remove scale prior to well completion is inserted into a marine riser section, the system comprising a robotic crawler comprising a motive assembly sized to fit within an interior of the marine riser section and a predetermined set of attachments, operatively connected to the motive assembly, which are useful for conducting a predetermined set of marine riser interior cleaning and inspection operations while deployed within the marine riser. A first attachment of the predetermined set of attachments is used to clean an interior of the marine riser; at a first predetermined time, a second attachment of the predetermined set of attachments is used to perform a predetermined set of inspections of the interior of the marine riser section. At a second predetermined time, effluent resulting from the cleaning may be removed.

A modular robotic assembly including a first and second pod assembly. The first pod assembly including a first frame assembly extending a first length along a first longitudinal axis, a displacement assembly housed at least partially within the first frame assembly, and a shaft rotatably supported by the displacement assembly at a first end region of the shaft. The shaft extending out of the first frame assembly and coupled with a tooling attachment at a second end region of the shaft. The second pod assembly operably coupled with the first pod assembly such that the first and second pod assemblies operate as a functional unit to perform a task within a conduit. The second pod assembly including a second frame assembly extending a second length along a second longitudinal axis, and a drive mechanism configured to provide movement for the functional unit.

A device for the cleaning of pipes, such as household waste and sewer pipes is proposed, the device includes a nozzle movable in at least three axes within a pipe for providing a jet of cleaning fluid directed to soilage in pipes; a cleaning hose for supply of cleaning fluid is connected to the nozzle and a swivel mechanism for deflecting the nozzle at an angle relative to a longitudinal axis, a front end portion of the hose is bent in a bending direction in a bending plane; at least one drive for deflecting the nozzle around the longitudinal axis by changing the direction of bending and the bending plane without torsion to the cleaning hose.

A cleaning device and a cleaning method for surfaces (22) in an application space (20) comprising at least a removal means (4) for application of a cleaning fluid (7) and/or for the removal of adhesions from the surfaces (22), and at least one positioning means (12) of the cleaning device (1) in the application space (20). According to the invention, the positioning means (12) is connected with a control means (1), which comprises a storage device (1), and with the at least one removal means (4) such that cleaning parameters stored in the storage device of the control means can be assigned to a position, and are transferred by the control means to the removal means (4), and the cleaning parameters, when the position is reached, are applied to the removal means (4).

A quick change system for carriage wheels comprising an axle adapter and a lock for axial locking of a wheel on the axle adapter, wherein the lock has at least one locking member and a release cooperating with the locking member, wherein the locking member axially locks the wheel on the axle adapter in a locking position, and the release and the locking member cooperate such that during moving of the release, the locking member can be brought from the locking position into a releasing position, in which the wheel is released axially.