A method of moulding (10; 20) and apparatus (108; 208; 308) therefor, in which a workpiece (100) is preheated and/or post-cooled before and/or after a moulding process, allowing optimal use of the tool for high precision moulding operations.

Provided are induction heating cells including pressure bladders used for supporting dies and methods of using these induction heating cells. A pressure bladder may be disposed between a die and a bolster of the cell. Even when the bolster is deformed during operation of the cell, the pressure bladder continues to provide uniform support to the die thereby preserving integrity of the die and prevents its cracking or braking. As such, the cell may be operated at a higher processing pressure inside the cavity formed by the die without further strengthening the bolster. The bolster is allowed to deform without compromising the integrity of the die. The deformation of the bolster is compensated by the shape change of the pressure bladder. The number and/or position of the bladders in the cell may depend on the shape of processed parts.

A mold for in-mold foam molding of polyolefin-based resin that prevents the occurrence of burrs at the time of molding to control productivity reduction and labor cost rising caused by burr trimming. A mold is configured to mold an insert member including an embedded part to be embedded into a foaming molded body formed from a polyolefin-based resin and a protrusion part protruding from the foaming molded body integrally with the foaming molded body. The mold is provided with an accommodation concave part capable of accommodating the protrusion part and an opening/closing part capable of opening and closing a cavity-side opening in conjunction with insertion and extraction of the protrusion part into and from the accommodation concave part such that, while the protrusion part is inserted into the accommodation concave part, and the cavity-side opening is closed.

A mold for forming a wind turbine blade comprising first and second mold surfaces including a flange portion having an opening therein, wherein the first and second mold surfaces are configured for relative movement therebetween from an open position to a closed position. The opening of the first flange portion is aligned with the opening of the second flange portion when in the closed position, and a first magnet is disposed within the opening in the opening of the first mold surface, and a second magnet is disposed within the opening of the second mold surface.

A mold for forming a wind turbine blade comprising first and second mold surfaces including a flange portion having an opening therein, wherein the first and second mold surfaces are configured for relative movement therebetween from an open position to a closed position. The opening of the first flange portion is aligned with the opening of the second flange portion when in the closed position, and a first magnet is disposed within the opening in the opening of the first mold surface, and a second magnet is disposed within the opening of the second mold surface.

Embodiments of the present disclosure pertain to a clamp assembly that includes: a first base and a second base; and a mold operational to be clamped between the first base and the second base. The clamp assembly is operational to stretch and compress the clamped mold without movement of the first base and the second base. For instance, each of the first base and the second base may include a plurality of apertures with pegs that are associated with the mold, where the pegs are operational for stretching and compressing the mold through adjustment. Further embodiments pertain to methods of moving a mold by utilizing the clamp assemblies of the present disclosure.

Locking device for locking a movement side of a wind turbine blade mould to a floor at a desired level, the locking device having a first locking component for mounting to a floor surface and a second locking component adapted to be fitted to a movement side of a wind turbine blade mould to be locked by the locking device, wherein one of the first and second locking components includes a clamp engaging member, and the other of the first and second locking components includes an actuator and a clamp member coupled to the actuator, the clamp member being movable by operation of the actuator between a retracted position and an extended position, the clamp member including a clamp surface which in one of the retracted and extended positions is arranged to apply a clamping force on the clamp engaging member.

A self-locking mold (100) includes sectors (108) circumferentially distributed around a shell (102) to resist internal pressure and remain in the closed position without the aid of additional components during curing. The mold (100) includes shoulder spacers (120) that, in the closed position of the mold, are arranged between the shell (102) and the sectors (108). An elastic means (130) is employed so as to avoid friction between them.

A mold separation device includes a carrying mechanism, a scraping mechanism, and two separation mechanisms. The carrying mechanism is adapted to carry a first mold and a second mold bonded to the first mold. The scraping mechanism is disposed at an edge of the carrying mechanism and is adapted to scrape off a spilled glue produced when the first mold is bonded to the second mold. The separation mechanisms are disposed at the edge of the carrying mechanism and are located on two opposite sides of the scraping mechanism. The separation mechanisms are adapted to pull open the first mold and the second mold so that the first mold and the second mold are separated from each other.

A process for manufacturing composite wing covers is provided that includes placing a laminate inside each of a plurality of shaping tools. Shaping the laminates and pressing the laminates against the shaping tools. Retaining the shaped laminates inside the shaping tools and turning over the shaped laminates. Attaching a skin to the shaped laminates and curing the skin and the shaped laminates. Heating the shaping tools and creating a vacuum in the shaping tools.