Provided is a workpiece conveying system configured to convey a sheet-like workpiece to a downstream step, including: a workpiece conveyor configured to lift through attraction holding, by a workpiece holding unit, an uppermost workpiece W of a stack, and convey the uppermost workpiece W of the stack to the downstream step one by one; and a conveyed workpiece number detector configured to detect the number of workpieces W held by the workpiece holding unit at a detection timing, at which the workpiece W held and raised by the workpiece holding unit in accordance with a normal workpiece conveying operation performed by the workpiece conveyor reaches an upper limit position of raising the workpiece W, and at which a moving speed component of the workpiece W in a raising direction is 0.

A dispenser tool (42) is provided with multiple cartridges for dispensing viscous material onto the surface (5) of a wind turbine blade (5). The dispenser tool (42) is advantageously part of a robot system used to work the surface (5) of the blade (5). The system is configured for bringing the nozzle of a selected cartridge into the vicinity of the surface (5) and orienting the dispenser tool (42) relatively to the surface (5) such that the nozzle (46) of the corresponding selected cartridge (44) is at the surface (5) for providing viscous material onto the surface (5) from the selected cartridge (44) while moving the nozzle (46) along the surface (5).

An adhesive apparatus with an electrostatic adhesive including a microstructured adhesive disposed over an electrode and/or a piezoelectric element. The adhesive can be added to any robotic gripper, such as a gripper finger formed of a flexible material and including a grip surface. The electrode and/or a piezoelectric element can be used for applying an electrostatic field and/or ultrasonic vibration, configured for cleaning the microstructured adhesive, releasing the adhesive, and/or sensing a load on the adhesive apparatus.

The present invention provides a shear gripper device using fibrillar, gecko-inspired adhesives that have the characteristics of being non-tacky in its default state and requiring no normal force to grip a surface. The adhesion is turned on by the applied shear load, and off as the shear load is removed. The shear adhesive gripper is able to grasp large, deformable or delicate objects using a delicate touch.

Provided is an article conveying apparatus including a three-dimensional sensor that measures a three-dimensional shape of an article; an adhering portion that is made to adhere to a surface of the article; a moving mechanism that moves a position of the adhering portion in a three-dimensional manner; and a control unit that controls the moving mechanism. The control unit is provided with a center-of-gravity calculating portion that calculates a center of gravity of the article on the basis of the three-dimensional shape of the article measured by the three-dimensional sensor and controls the moving mechanism so as to place the adhering portion in the vicinity of the center of gravity calculated by the center-of-gravity calculating portion.

A system and method for assembling a plurality of components into an assembly is provided. The system includes an assembling robot and an adhesive dispensing robot. The assembling robot is configured to attach a first sub-assembly to a second sub-assembly. The first sub-assembly includes at least one of the plurality of components, and the second sub-assembly includes remaining ones of the plurality of components. The adhesive dispensing robot is configured to apply an adhesive between the first sub-assembly and the second sub-assembly, after the first sub-assembly is attached to the second sub-assembly, to bond the first sub-assembly to the second sub-assembly.

The present invention relates to a gripping apparatus comprising a membrane; a flexible housing; with said membrane being fixedly connected to a periphery of the housing. The invention further relates to a method of producing a gripping apparatus.

A gripper and a robot are provided. The gripper may include a shell and at least two finger assemblies. The finger assemblies are utilized to grasp an object on two opposite sides of the object. Each finger assembly may include a connecting rod, a pad portion and a layer of synthetic fibrillar adhesive. The connecting rod may be movably connected to the shell. The pad portion may be connected to the connecting rod, and the connecting rod may move the pad portion towards the object under a driving force. The layer of synthetic fibrillar adhesive may be attached to the pad portion. Microfibers of the layer of synthetic fibrillar adhesive may be inclined away from the shell.

A method and apparatus for attaching a nozzle to a fluid dispensing system and a tip to the nozzle. In one illustrative example, the fluid dispensing system may be moved by a robotic device towards a nozzle retaining structure having nozzle retaining areas holding nozzles. A nozzle may be selected for use based on a nozzle identifier element corresponding to each of the nozzles. The robotic device may move the fluid dispensing system to the nozzle selected to attach the fluid dispensing system to the nozzle selected. Further, the fluid dispensing system may be moved by a robotic device towards a tip retaining structure having tip retaining areas holding tips. A tip may be selected for use based on a tip identifier element corresponding to each of the tips. The robotic device may move the fluid dispensing system to the tip selected to attach the nozzle to the tip selected.

Methods and systems for training a robotic manipulator. The system may include one or more sensor devices and a robotic manipulator for executing an item grasping strategy to grasp an item. The system may further evaluate the item grasping strategy to determine whether the strategy was successful.