An apparatus and method for the automatic manufacturing of wind turbine blades, including an elongate tool support (2) with a main suspension beam (4), a plurality of support frames (8) supporting the main suspension beam (4) above the wind turbine blade mould (1), an elongate guide rail (5) provided on the main suspension beam (4) so as to extend longitudinally along the main suspension beam (4), a slider base (6) slidably mounted on the guide rail (5), a drive mechanism (53) for driving the slider base (6) longitudinally along the guide rail (5) and a tool holder (7) mounted on the slider base (6). The apparatus/method improves the efficiency and accuracy of the blade manufacture, and also reduces the exposure of the human body to harmful substances used in blade manufacture.

A portable and transportable die cavity modifying machine having a base carrying a carriage adjustable along one axis, e.g., a generally horizontal axis, and a machining head adjustable along another axis, e.g., a generally vertical axis, for modifying a die cavity of a stamping die in a manner that prevents blank or slug pulling during stamping press operation. The machine includes a stop that is adjustably connected to the carriage. The stop is configured to limit movement of the machining head along the generally vertical axis. The machine may also feature a vibration isolator that is used with the stop to prevent noise and vibration that result from movement of the machining head in relation to the stop. Additionally, the machine may include an optical device capable of capturing an image of the die cavity defining sidewall as the rotary grinding bit machines the elongate slug retention groove.

A portable and transportable die cavity modifying machine having a base carrying a carriage adjustable along one axis, e.g., a generally horizontal axis, and a machining head adjustable along another axis, e.g., a generally vertical axis, for modifying a die cavity of a stamping die in a manner that prevents blank or slug pulling during stamping press operation. The machine includes a stop that is adjustably connected to the carriage. The stop is configured to limit movement of the machining head along the generally vertical axis. The machine may also feature a vibration isolator that is used with the stop to prevent noise and vibration that result from movement of the machining head in relation to the stop. Additionally, the machine may include an optical device capable of capturing an image of the die cavity defining sidewall as the rotary grinding bit machines the elongate slug retention groove.

An inversion mount includes an upper mounting base, a lower mounting base, and an oblique drop arm connected from the upper mounting base to the lower mounting base. The upper mounting base is configured to normally mount to a downward-facing inversion mounting surface from below. The lower mounting base includes a non-rotary main body and a rotary latch assembly. The main body includes a forward receiver configured to axially receive a mounting insert from below as a rotary item. The latch assembly includes a side latch. The side latch extends alongside the main body, and is supported for radial pivotation between an open position, in which the side latch carries the inside hook below but not underneath the forward receiver, and a latched position, in which the side latch carries the inside hook underneath the forward receiver for hooked engagement with a side pocket behind the mounting insert.

An inversion mount includes an upper mounting base, a lower mounting base, and an oblique drop arm connected from the upper mounting base to the lower mounting base. The upper mounting base is configured to normally mount to a downward-facing inversion mounting surface from below. The lower mounting base includes a non-rotary main body and a rotary latch assembly. The main body includes a forward receiver configured to axially receive a mounting insert from below as a rotary item. The latch assembly includes a side latch. The side latch extends alongside the main body, and is supported for radial pivotation between an open position, in which the side latch carries the inside hook below but not underneath the forward receiver, and a latched position, in which the side latch carries the inside hook underneath the forward receiver for hooked engagement with a side pocket behind the mounting insert.

An inversion mount includes an upper mounting base, a lower mounting base, and an oblique drop arm connected from the upper mounting base to the lower mounting base. The upper mounting base is configured to normally mount to a downward-facing inversion mounting surface from below. The lower mounting base includes a non-rotary main body and a rotary latch assembly. The main body includes a forward receiver configured to axially receive a mounting insert from below as a rotary item. The latch assembly includes a side latch. The side latch extends alongside the main body, and is supported for radial pivotation between an open position, in which the side latch carries the inside hook below but not underneath the forward receiver, and a latched position, in which the side latch carries the inside hook underneath the forward receiver for hooked engagement with a side pocket behind the mounting insert.

An inversion mount includes an upper mounting base, a lower mounting base, and an oblique drop arm connected from the upper mounting base to the lower mounting base. The upper mounting base is configured to normally mount to a downward-facing inversion mounting surface from below. The lower mounting base includes a non-rotary main body and a rotary latch assembly. The main body includes a forward receiver configured to axially receive a mounting insert from below as a rotary item. The latch assembly includes a side latch. The side latch extends alongside the main body, and is supported for radial pivotation between an open position, in which the side latch carries the inside hook below but not underneath the forward receiver, and a latched position, in which the side latch carries the inside hook underneath the forward receiver for hooked engagement with a side pocket behind the mounting insert.

A repair system for repairing a surface of a workpiece includes a first tool configured to rotate in a first direction. The first tool contacts the surface of the workpiece during the rotation of the first tool in order to repair the surface of the workpiece. The repair system further includes a second tool configured to rotate in a second direction opposite to the first direction. The second tool contacts the surface of the workpiece during the rotation of the second tool in order to repair the surface of the workpiece. The repair system further includes a drive mechanism coupled to each of the first tool and the second tool.

A portable and transportable die cavity modifying machine having a base carrying a carriage adjustable along one axis, e.g., a generally horizontal axis, and a machining head adjustable along another axis, e.g., a generally vertical axis, for modifying a die cavity of a stamping die in a manner that prevents blank or slug pulling during stamping press operation. The machine includes a stop that is adjustably connected to the carriage. The stop is configured to limit movement of the machining head along the generally vertical axis. The machine may also feature a vibration isolator that is used with the stop to prevent noise and vibration that result from movement of the machining head in relation to the stop. Additionally, the machine may include an optical device capable of capturing an image of the die cavity defining sidewall as the rotary grinding bit machines the elongate slug retention groove.