A tray according to an embodiment of the present invention may include: a housing having a lower plate and a perimeter wall provided on the lower plate and having a space formed inside the perimeter wall; a stabler comprising a moving body movably accommodated in the space; and a plurality of dampers disposed between an edge of the moving body and the perimeter wall.

A configuration that exerts floor reaction force directly to a force sensor in a foot of a legged mobile robot requires a sensor having a large withstand load. A foot (10f) includes an upper frame (44) that is connected to a movable leg and receives the load of a robot, a lower frame (48) that is deployed under the upper frame (44) and contacts with a walking surface, a high rigidity spring (50) attached the lower frame (48) and elastically supporting the upper frame (44) against the load, and a plurality of sensor mechanisms that detect floor reaction force at positions different from each other on the lower frame (48). Each of the sensor mechanisms includes a force sensor (62) attached to one of the upper frame (44) and the lower frame (48) and a sensor spring (52) that is an elastic body having rigidity lower than that of the high rigidity spring (50) and has a supporting point deployed on the other one of the upper frame (44) and the lower frame (48) so as to exert pressing force to the force sensor (62) according to a change of the distance between the upper frame (44) and the lower frame (48).

An impact reduction mechanism is provided, utilizing a protective end cap to reduce the force transferred to the body of a insulating device when the insulating device encounters an impact force to the base end. An example insulating device may include a body defining a first end and a second end and a protective end cap attached to the first end of the body. The protective end cap may define a base and one or more walls. The protective end cap may embody an impact reduction mechanism, defining a gap formed between the first end of the body and the base of the protective end cap. The impact reduction mechanism may be configured to reduce an overall force received by the body of the insulating device in an instance in which the protective end cap is subjected to an impact force.

A machine (10) for positioning an object (12) includes a movable part (16C) and a vibration reduction assembly (24) that couples the object (12) to the movable part (16C). Further, the vibration reduction assembly (24) reduces a magnitude of a vibration being transferred from the movable part (16C) to the object (12). The vibration reduction assembly (24) can include an actively controlled support system (30) and an actively controlled actuator system (32).

A second hand H2 that couples a first workpiece to a second workpiece, where the first and second workpieces are to be coupled to each other by insertion coupling, includes: a second gripper 5 that grips the first workpiece; a straight-moving actuator 6 that moves the second gripper 5 straight in the direction of a predetermined axis E; and a rotation actuator 7 that rotates the second gripper 5 about the axis E. The second gripper 5 includes three second fingers 51 that grip the first workpiece, and a linkage 52 that opens and closes the three second fingers 51.

Disclosed is a fully automatic intelligent spraying robot. The robot includes a chassis, a driving device, a sliding device, a clamping device, a detection device and a control device; the driving device is fixedly connected to the chassis, and the driving device drives the chassis to move freely on the ground; the sliding device is fixed on the chassis; one end of the clamping device is used to fix a spray gun, and the other end of the clamping device is connected to the sliding device, and the clamping device can freely slide along the height direction of the sliding device; the detection device is fixed on the chassis, and the control device is also fixed on the chassis; and the control device is respectively in signal connection with the driving device, the sliding device, the clamping device and the detection device.

An arm revolving-type robot includes a first member, and a second member coupled to the first member so as to be relatively rotatable, at least one of the first member and the second member including an arm portion. The second member includes a member main body portion, a protrusion that is provided on the member main body portion so as to protrude outward from a wall surface of the member main body portion, and that abuts on the first member along with rotation of the second member to regulate a rotation range of the second member, and a shaft-shaped reinforcing member disposed inside the protrusion. The protrusion and a remaining portion of the member main body portion are integrally formed of the same material, and the reinforcing member is disposed from the protrusion to the remaining portion of the member main body portion.

The present invention concerns a novel leg mechanism for quadrupedal locomotion. This design engages a linkage to couple assembly that only requires a single degree of actuation. The topological arrangement of the system produces a foot trajectory that is well-suited for dynamic gaits including trot-running, bounding, and galloping.

A robot is provided. The robot includes an arm configured to turn around a turning axis and a cover including a first member having first rigidity and a second member having second rigidity higher than the first rigidity, the cover being provided on the arm, the second member being located in a position closer to the turning axis than the outermost periphery of the first member in a plan view from a direction of the turning axis.

A device for removing a framed wafer from a wafer tray is described. The wafer tray including a wafer receptacle for receiving the framed wafer. The wafer receptacle being configured to hold the wafer perpendicular to the wafer plane and to remove it from the wafer tray in this manner. The wafer receptacle including at least one wafer receptacle edge contact element arranged and configured to abut against the front frame edge. The device including a drive and control device configured to guide the wafer receptacle along a predetermined path of movement into the access to the wafer tray. Each wafer receptacle edge contact element is spring-mounted in the direction of the path of movement and the wafer receptacle is movable from a first position to a second position.