A method of operating a robot includes providing a robot having a plurality of independently operable links that rotate and translate the robot. The links comprise a first link having a first distal end, a first proximal end, and a first longitudinal axis extending between the first distal end and the first proximal end and a second link having a second proximal end, a second distal end operatively coupled to the first proximal end, and a second longitudinal axis extending between the second proximal end and the second distal end. The method further comprises inserting the robot through a first opening into the space and advancing the robot through the space by performing at least one of the following operations: axially elongating the robot; pivoting the first longitudinal axis relative to the second longitudinal axis; and rotating the first longitudinal axis relative to the second longitudinal axis.

The present invention discloses an industrial high speed micro drill that is made to access remote and inaccessible locations in order to blend, grind, polish and cut materials and parts as determined by visual inspection powered via a pneumatic power source. The high speed drill is deployed by a controlled, articulating guide tube that acts in a multidirectional fashion to direct the action of the assemblage and allow for discrete manipulation of the pneumatically powered drill while harboring a channel and pneumatic power source carrying rubber tubing.

The present invention discloses an industrial high speed micro drill that is made to access remote and inaccessible locations in order to blend, grind, polish and cut materials and parts as determined by visual inspection powered via a pneumatic power source. The high speed drill is deployed by a controlled, articulating guide tube that acts in a multidirectional fashion to direct the action of the assemblage and allow for discrete manipulation of the pneumatically powered drill while harboring a channel and pneumatic power source carrying rubber tubing.

A reduction of a bend of a drill during processing is achieved. A drilling device includes: a spindle for rotating a drill so that the drill processes an object; a parallel link mechanism configured to adjust a direction of the spindle; a force sensor configured to detect a moment from the object and about an axis perpendicular to an axial direction of the spindle while the object is processed; and a control section configured to control the parallel link mechanism on the basis of the moment detected by the force sensor so that the parallel link mechanism adjusts a direction of the spindle.

A reduction of a bend of a drill during processing is achieved. A drilling device includes: a spindle for rotating a drill so that the drill processes an object; a parallel link mechanism configured to adjust a direction of the spindle; a force sensor configured to detect a moment from the object and about an axis perpendicular to an axial direction of the spindle while the object is processed; and a control section configured to control the parallel link mechanism on the basis of the moment detected by the force sensor so that the parallel link mechanism adjusts a direction of the spindle.

A method of operating a robot includes providing a robot having a plurality of independently operable links that rotate and translate the robot. The links comprise a first link having a first distal end, a first proximal end, and a first longitudinal axis extending between the first distal end and the first proximal end and a second link having a second proximal end, a second distal end operatively coupled to the first proximal end, and a second longitudinal axis extending between the second proximal end and the second distal end. The method further comprises inserting the robot through a first opening into the space and advancing the robot through the space by performing at least one of the following operations: axially elongating the robot; pivoting the first longitudinal axis relative to the second longitudinal axis; and rotating the first longitudinal axis relative to the second longitudinal axis.

A method of operating a robot includes providing a robot having a plurality of independently operable links that rotate and translate the robot. The links comprise a first link having a first distal end, a first proximal end, and a first longitudinal axis extending between the first distal end and the first proximal end and a second link having a second proximal end, a second distal end operatively coupled to the first proximal end, and a second longitudinal axis extending between the second proximal end and the second distal end. The method further comprises inserting the robot through a first opening into the space and advancing the robot through the space by performing at least one of the following operations: axially elongating the robot; pivoting the first longitudinal axis relative to the second longitudinal axis; and rotating the first longitudinal axis relative to the second longitudinal axis.

Methods and apparatuses for providing a clamp-up are provided. The methods and apparatuses include reaching through a first hole in a first part to grip a wall that defines a second hole in a second part to thereby pull the second part against the first part.

Methods and apparatuses for providing a clamp-up are provided. The methods and apparatuses include reaching through a first hole in a first part to grip a wall that defines a second hole in a second part to thereby pull the second part against the first part.

A work machine unit includes: a support member assembled to an end effector connection part of an operating machine; a work machine part assembled to one end of the support member; and a linear guide disposed at another end of the support member across its connection to the end effector connection part from the support member, arranged in parallel to an axial direction of the work machine part, and configured to abut against a work object or its peripheral structural object. Further, the linear guide is passed through a through-hole formed in the support member, and the support member is configured to move in the axial direction of the work machine part as guided by the linear guide.