A device for manipulating a hollow shaft configured to create a pivot link between a first element and a second element. The manipulation device comprises a cylindrical body having a diameter variable by radial contraction or radial expansion of the cylindrical body, a module for controlling the diameter of the cylindrical body configured so that the diameter of the cylindrical body has alternatively at least a first diameter suitable for the cylindrical body to be displaced in the hollow shaft and a second diameter suitable for the cylindrical body to be blocked in the hollow shaft. The cylindrical body comprises an end configured to protrude from the hollow shaft when the cylindrical body is blocked in the hollow shaft. The manipulation device allows the alignment of the orifices due to the end configuration of the cylindrical body.

A device for manipulating a hollow shaft configured to create a pivot link between a first element and a second element. The manipulation device comprises a cylindrical body having a diameter variable by radial contraction or radial expansion of the cylindrical body, a module for controlling the diameter of the cylindrical body configured so that the diameter of the cylindrical body has alternatively at least a first diameter suitable for the cylindrical body to be displaced in the hollow shaft and a second diameter suitable for the cylindrical body to be blocked in the hollow shaft. The cylindrical body comprises an end configured to protrude from the hollow shaft when the cylindrical body is blocked in the hollow shaft. The manipulation device allows the alignment of the orifices due to the end configuration of the cylindrical body.

An apparatus for securing an insert in a hole, the insert having an axis, a section comprising a thread disposed around the axis and a section comprising a plurality of splines, and the hole having a section comprising a corresponding thread and a section comprising a plurality of grooves corresponding to said splines, the apparatus comprising a driver arranged to rotate the insert, a torque measurement device arranged to measure the driving torque applied by the driver, and a controller arranged to cause the driver to drive the insert into the hole until the splines are level in the axial direction with the grooves by rotating the insert in a first direction, and align the splines with the grooves by causing the driver to further rotate the threaded insert whilst measuring the driving torque using the torque measuring device, and stopping the further rotation based on the measured driving torque.

Hairpin-shaped heat exchanger tubes are guided with respect to a fin stack in which through-holes are formed in three or more lines. A guide apparatus includes: a first guide portion provided with a plurality of first guide pins that extend in an inclined direction; a second guide portion provided with a plurality of second guide pins that extend in an inclined direction in an opposite direction; a first guide pin axial direction moving apparatus that moves the first guide portion along an axial direction; a second guide pin axial direction moving apparatus that moves the second guide portion along an axial direction; a first guide pin row direction moving apparatus that moves the first guide portion along the row direction; and a second guide pin row direction moving apparatus that moves the second guide portion along the row direction. The hairpin-shaped heat exchanger tubes are held in gaps between the first guide pins and the second guide pins.

Hairpin-shaped heat exchanger tubes are guided with respect to a fin stack in which through-holes are formed in three or more lines. A guide apparatus includes: a first guide portion provided with a plurality of first guide pins that extend in an inclined direction; a second guide portion provided with a plurality of second guide pins that extend in an inclined direction in an opposite direction; a first guide pin axial direction moving apparatus that moves the first guide portion along an axial direction; a second guide pin axial direction moving apparatus that moves the second guide portion along an axial direction; a first guide pin row direction moving apparatus that moves the first guide portion along the row direction; and a second guide pin row direction moving apparatus that moves the second guide portion along the row direction. The hairpin-shaped heat exchanger tubes are held in gaps between the first guide pins and the second guide pins.

A method for assembling at least two parts, connected by main and secondary definitive connections arranged in predetermined positions, includes: secondary definitive connections each housed in secondary definitive holes passing through the parts to be assembled, made independently of one another before the parts are assembled, main definitive connections each housed in main definitive holes passing through the parts to be assembled, made during the same operation while the parts are held in place by the secondary definitive connections.

A method for assembling at least two parts, connected by main and secondary definitive connections arranged in predetermined positions, includes: secondary definitive connections each housed in secondary definitive holes passing through the parts to be assembled, made independently of one another before the parts are assembled, main definitive connections each housed in main definitive holes passing through the parts to be assembled, made during the same operation while the parts are held in place by the secondary definitive connections.

A system and method for manufacturing a top mount for a vehicle suspension includes providing a top mount body having a bushing opening and a plurality of stud holes, a plurality of knurled studs, and a bushing having a thermoplastic outer shell, a rubber core, and a central washer. The knurled studs are inserted in the stud holes of the top mount body. Then, substantially simultaneously, a pressure is applied to the knurled studs to press the knurled studs into the top mount body to crimp the knurled studs in the stud holes of the top mount body, and to insert the bushing into the bushing opening of the top mount body.

A system and method for manufacturing a top mount for a vehicle suspension includes providing a top mount body having a bushing opening and a plurality of stud holes, a plurality of knurled studs, and a bushing having a thermoplastic outer shell, a rubber core, and a central washer. The knurled studs are inserted in the stud holes of the top mount body. Then, substantially simultaneously, a pressure is applied to the knurled studs to press the knurled studs into the top mount body to crimp the knurled studs in the stud holes of the top mount body, and to insert the bushing into the bushing opening of the top mount body.

Sucker rods include end fittings having an outer wedge portion proximate to an open end, an inner wedge portion proximate to a closed end, and an intermediate wedge portion between the outer and inner wedges. Each wedge includes a leading edge, a trailing edge, and an angle between the leading and trailing edges. The triangular configuration, length of the leading edge, the length of the trailing edge, and size of the angle in each wedge portion cause distribution of force, such that compressive forces distributed to the rod proximate the closed end exceed compressive forces distributed to the rod proximate the open end. An automated installation procedure installs the end fitting through the use of multiple chucks, positioned by servo motors along a fitting table.