Robots

Fluid motor

Long travel gripper
A long travel gripper is provided which has first and second end caps, first, second and third guide rails, first and second jaws, and first and second piston assemblies. The first, second and third guide rails extend between the first and second end caps. The first and second jaws, each receive, and move rectilinearly along, the first, second and third guide rails. The first and second piston assemblies each include first and second piston rods and pistons, respectively.

Workpiece-gripping chuck and method for controlling the same

A workpiece-gripping chuck includes a converting mechanism provided in a body, which converts a driving force from a rotary driving source into a displacement in the axial direction. First and second pistons of the converting mechanism are displaced in the axial direction under a rotary action of a pinion gear. Further, the first and second pistons are displaced in the axial direction, respectively, by supplying a pressure fluid from a first or second port formed in the body. A workpiece may be positioned by means of a pair of gripping members under the driving action of the rotary driving source, and the workpiece is further gripped by the gripping members by applying a pressing force of the pressure fluid in addition to the driving force.

Group robot system, and sensing robot and base station used therefor
Communication system of a group robot system is made hierarchical, having a base station as an uppermost layer and a plurality of layers formed by a plurality of sensing robots, and the plurality of sensing robots are controlled such that a sensing robot belonging to an upper layer of the hierarchical structure has higher sensing resolution than a sensing robot belonging to a lower layer of the hierarchical structure. Thus, a group robot system capable of efficiently searching for an object can be obtained.

Laminated-type multi-joint portion drive mechanism and manufacturing method therefor, grasping hand and robot arm provided with the same
A laminated-type multi-joint portion drive mechanism includes a bone member having at least two elastic deformation portions, a laminated-type pneumatic tube member having at least twoline-tubes which are stacked on the bone member and which are connected to a pneumatic drive source, and a planar-type joint-portion deformation member which is stacked on the laminated-type pneumatic tube member and has pneumatic operation chambers which are placed at joint portions confronting the deformation portions, respectively, and which are connected to the tubes, wherein when pneumatic pressure is applied to one of the pneumatic operation chambers, the joint portion corresponding to the pneumatic operation chamber to which the pneumatic pressure is applied is deformable.

Structure of improved pneumatic gripper assemblies
The invention relates to a pneumatic gripper assembly structure which comprised a supporting body (11, 111) composed of at least two wall elements or symmetrical half-shells (15, 115), realized and finished individually using a forming process and then put together to form a single body capable of receiving, supporting and guiding other structural and functional components of the gripper assembly. The complementary wall elements or half-bodies are produced using die-casting, sintering or forging techniques with material compatible for such processes and provides a housing for jaws and a drive piston of the gripper.