An automobile vehicle flexible robot door hinge installation system includes a hinge servo-linear positioning device. The hinge servo-linear positioning device includes at least one servo-motor and at least one hinge effector releasably holding and positioning a vehicle door hinge. A fastener servo-linear installation device is also provided.

The disclosure provides an apparatus, system and method for a moveable bearing stage that allows for highly refined alignment and placement, and particularly planar alignment and placement, of component or devices through the use of robotics. The apparatus, system and method of providing at least a planar alignment of at least one component or device in relation to a secondary reference plane may include at least: a frame and stator assembly, having, at an upper portion thereof, at least a semi-spherical receiving interface; a movable assembly that moves within the frame and stator assembly, and that is connectively associated therewith by at least a plurality of springs; a semi-spherical stage, suitable for reception by the semi-spherical receiving interface and capable of at least rotational movement therewithin; a chuck within the semi-spherical stage and capable of at least co-planar, post-planar, and ante-planar positioning in relation to a plane provided by a topmost portion of the semispherical stage, wherein the chuck is capable of receiving the component or device; and at least two gripper jaws suitable for receiving and holding, at an upper portion thereof, the component or device, wherein the two gripper jaws comprise, at a lower portion thereof, at least ramps capable of physically interacting with ones of the motion stops.

A heat sink structure and a manufacturing method thereof. The heat sink includes a main body and multiple radiating fins each having a folded root section. The main body has multiple connection channels formed on a circumference of the main body. The multiple radiating fins are placed in a mold. A mechanical processing measure is used to high-speed impact the main body so as to thrust the main body into the mold. Accordingly, the folded root sections of the radiating fins are relatively high-speed thrust into the connection channels of the main body to tightly integrally connect with the main body.

A heat sink structure and a manufacturing method thereof. The heat sink includes a main body and multiple radiating fins each having a folded root section. The main body has multiple connection channels formed on a circumference of the main body. The multiple radiating fins are placed in a mold. A mechanical processing measure is used to high-speed impact the main body so as to thrust the main body into the mold. Accordingly, the folded root sections of the radiating fins are relatively high-speed thrust into the connection channels of the main body to tightly integrally connect with the main body.

A torque transmission member for transmitting torque between a first rotating member and a second rotating member is provided. The torque transmission member has a first connection part and a second connection part which are concentrically arranged and fixedly connected with each other, wherein the first connection part is fixedly connected to the first rotating member, the second connection part is connected to the second rotating member in a torsion-proof manner, and the second connection part has a central hole for receiving the second rotating member. A cylindrical centering reference member is provided, the torque transmission member and the centering reference member are coaxially arranged by a centering tool during the process of assembling the torque transmission member, wherein the first connection part is provided with at least two through holes, and the centering tool passes through the through holes during a process of centering. A centering tool is provided for coaxially arranging the above-mentioned torque transmission member and a fixed cylindrical centering reference member, wherein the centering tool has at least two centering arms, wherein the centering arms are capable of passing through the through holes.

A method and device for mounting a plug in a hollow shaft is disclosed. The device includes a holding device for holding the plug to be mounted and a joining device for sliding the hollow shaft onto the plug held in the holding device. The holding device is radially adjustable relative to an axis of the hollow shaft to compensate for an axial offset between the axis of the hollow shaft and an axis of the plug. The joining device can be inclined to compensate for an inclined position of the axis of the hollow shaft and the axis of the plug. The method includes pressing the joining device onto the hollow shaft from above and adjusting the holding device with the plug radially to the hollow shaft if the axial offset is present, and inclining the joining device if the inclined position is present.

A method and device for mounting a plug in a hollow shaft is disclosed. The device includes a holding device for holding the plug to be mounted and a joining device for sliding the hollow shaft onto the plug held in the holding device. The holding device is radially adjustable relative to an axis of the hollow shaft to compensate for an axial offset between the axis of the hollow shaft and an axis of the plug. The joining device can be inclined to compensate for an inclined position of the axis of the hollow shaft and the axis of the plug. The method includes pressing the joining device onto the hollow shaft from above and adjusting the holding device with the plug radially to the hollow shaft if the axial offset is present, and inclining the joining device if the inclined position is present.

A bladder assembly including an inflatable bladder having an elongated body defining an internal volume, the body being formed as a layered structure that includes an elastomeric layer defining an interior surface of the body, a friction-reducing layer defining an exterior surface of the body, and a jacketing layer positioned between the elastomeric layer and the friction-reducing layer, and a pressurized fluid source in selective fluid communication with the internal volume of the body.

An arrangement and a method to align a part of a wind turbine to a counterpart is provided. The part of the wind turbine and its counterpart are approached in a main direction of approach, to be connected. The arrangement includes a first and a second alignment tool, whereby the alignment tools include a first area to be connected to the part of the wind turbine, and a second area that protrudes over the physical dimensions of the part of the wind turbine mainly in the main direction of approach. The second area is arranged and prepared in a way to abut on the counterpart, in a direction perpendicular to the main direction of approach, as an arrester to stop and/or hinder a movement of the part of the wind turbine in respect to the counterpart during the alignment.

An arrangement and a method to align a part of a wind turbine to a counterpart is provided. The part of the wind turbine and its counterpart are approached in a main direction of approach, to be connected. The arrangement includes a first and a second alignment tool, whereby the alignment tools include a first area to be connected to the part of the wind turbine, and a second area that protrudes over the physical dimensions of the part of the wind turbine mainly in the main direction of approach. The second area is arranged and prepared in a way to abut on the counterpart, in a direction perpendicular to the main direction of approach, as an arrester to stop and/or hinder a movement of the part of the wind turbine in respect to the counterpart during the alignment.