A robotic arm having at least pair of structural members rotatably coupled to one another, with a first one of the structural members defining a central passage. A communications link is at least partially within the robotic arm for signal transmission between within the robotic arm. The communications link includes a signal transmission device having a coiled portion, with ends of the coiled portion adapted to be connected to parts of the communications link, whereby the coiled portion is a segment of the communications link. The coiled portion has one of its ends connected to the second one of the structural members to rotate with the second one of the structural members, the other of the ends of the coiled portion connected to a component associated with the first one of the structural members through the central passage to rotate with the first one of the structural members, at least a portion of the coiled portion expanding or contracting radially during relative rotation between the pair of structural members.

A modular device includes a polyhedral building element having a first type connector and a number of second type connectors; and a main control module comprising a plurality of second type connectors. The first type connector and the second type connectors are disposed on side surfaces of the building element. One of the second type connectors of the main control module is used to magnetically connect with the first type connector of the building element so as to detachably connect the building element to the main control module. The first type connector includes a first detection circuit, and each second type connector includes a second detection circuit.

A robotic tool changer ensures inherently safe decoupling operation by only providing pneumatic fluid to a decouple port of a pneumatic coupling mechanism in the case that the tool changer is seated on, and properly aligned with, a tool stand. Pneumatic fluid to decouple the pneumatic coupling mechanism is routed from an air source to the tool stand. A pass-through in the tool stand returns the pneumatic fluid to a pneumatic path in the tool changer leading to a decouple port of the pneumatic coupling mechanism. Hence, the tool changer must be seated on the tool stand for the decouple port to receive pneumatic fluid to operate. Furthermore, a safety coupling is interposed on the pneumatic path between the tool stand and the decouple port. The safety coupling requires the tool changer to be seated on, and properly aligned with, the tool stand to effect the flow of pneumatic fluidotherwise, the pneumatic fluid is bled to the atmosphere.

A modular approach to an electrical power and/or signal passing utility module is presented. A universal receptacle is fixedly disposed in bores in both of first and second signal connector blocks. A threaded socket member and a nonconductive guide bushing are installed, as needed, in receptacles in the first block, and a threaded pin member is installed in corresponding receptacles in the second block. The nonconductive guide bushing insulates the sockets, and guides pin posts into the socket as the two blocks abut. A compliant member such as an o-ring provides compliance of the socket and pin assemblies in the signal connector blocks, making the assemblies self-aligning. The socket and pin assemblies are field-replaceable by use of a simple tool.

An adaptive tooling interface comprises a plurality of motors, disposed at least partially within a housing, which are operatively in communication with a controller and where a first power output is operatively in communication with a first motor of the plurality of motors and a second power output operatively in communication with a second motor of the plurality of motors. A drive interface, comprising a tooling adapter, is operatively in communication with the plurality of motors and configured to mate with and provide power to one or more tools, which comprise a matching subsea tool tooling interface, via the first power output and the second power output. The adaptive tooling interface may be connected to or otherwise integrated into a subsea vehicle system comprising a subsea vehicle.

This electric apparatus mounting device includes: a robot side contact jig which is provided to an end effector mounted to an arm of a robot and which has a robot side contact; and an electric apparatus side contact jig which is detachably provided to an electric apparatus and which has an electric apparatus side contact electrically connected with the electric apparatus. The robot side contact jig and the electric apparatus side contact jig are configured such that the robot side contact and the electric apparatus side contact are in a connection state in a state that the electric apparatus is held by the end effector. Thus, a work for conveying and mounting an electric apparatus such as a motor to a given position using a robot can be performed without hindrance.

In embodiments, a subsea manipulator tool changer comprises an ROV attachable standardized tool receiver and a tool, the subsea manipulator tool changer comprising a standardized tool latch and a standardized tool latch receiver whereby tools can be attached and detached subsea. In other embodiments, a system for changing tools while subsea comprises an ROV, a subsea manipulator tool changer, and a tool caddy configured to accept and release a tool where the tool comprises the standardized tool latch receiver.

A robot includes a robot main body including an A-arm which rotates around an A-rotation axis, a B-arm which is cantilevered off the A-arm and rotates around a B-rotation axis, and a C-arm which is connected to the B-arm, to which an end effector is attached, and which rotates around a C-rotation axis. The A-arm includes a first restriction that is not exposed to the outside of the robot main body. The B-arm includes a clamp which is connected to the end effector and restricts a position of a flexible wiring or pipe, a second restriction that is not exposed to the outside of the robot main body and contacts on the first restriction, and a hole through which the wiring or the pipe is inserted. The C-arm includes a through-hole which penetrates the C-arm along the axial direction of the C-rotation axis.

One variation of a reconfigurable robotic system includes: a base; an arm extending from the base, including a set of articulable axes, and terminating at a head interface board defining a set of interface pins; a component interconnect arranged within the base, including a set of interconnect pins electrically coupled to the set of interface pins, and including a set of logic pins; a control card configured to transiently engage the component interconnect and including: a set of interconnect pads configured to contact the set of interconnect pins, a set of logic pads configured to contact the set of logic pins, and a control circuit interposed between the set of interconnect pads and the set of logic pads and including a set of independently selectable function circuits between each interconnect pad in a subset of the set of interconnect pads and corresponding logic pads in the set of logic pads.

A device for connecting pneumatic tools to a manipulator is described. The device includes a main body fixable to a manipulator and provided with seats for corresponding coupling portions of a tool, at least one duct for feeding or suctioning a working fluid to/from the tool, the duct extends in the main body, and an engaging mechanism to engage to tool. The engaging mechanism is movable between a locked position and an unlocked position in order to respectively prevent or allow the detachment of the tool. Advantageously, the engaging mechanism further acts as a valve for opening and closing the duct and is provided with a vent to the atmosphere through which the pressure of the working fluid in the tool is automatically brought to the atmospheric pressure when the engaging mechanism is in the unlocked position.