The invention relates to a production mold for a rotor blade of a wind turbine plant, having two mold half-shells (3, 4) which during a production method of the rotor blade are disposed so as to be at least temporarily beside one another, and having at least one inner walkway (2c, 2d) that runs along so as to be between the two mold half-shells (3, 4), characterized by at least one escape path (40) which runs along below at least one of the two mold half-shells (3, 4).

The invention relates to a production mold for a rotor blade of a wind turbine plant, having two mold half-shells (3, 4) which during a production method of the rotor blade are disposed so as to be at least temporarily beside one another, and having at least one inner walkway (2c, 2d) that runs along so as to be between the two mold half-shells (3, 4), characterized by at least one escape path (40) which runs along below at least one of the two mold half-shells (3, 4).

A method of fabricating a mold includes 3D printing a first shell using a first material, the first shell having a first interior surface and a first exterior surface, and 3D printing a second shell using a second material different from the first material, the second shell having a second interior surface and a second exterior surface wherein the second interior surface generally conforms to the first exterior surface. The first material may be thermally conductive and the second material may be thermally insulative, and the first and/or second shell may include at least one thermal regulation element formed therein.

A mold for manufacturing a wind turbine blade, including: a lower mold component, and an upper mold component, wherein the lower mold component and the upper mold component form a mold cavity in the shape of a wind turbine blade, and the upper mold component includes at least two upper mold parts is provided. The required floor-to-ceiling height of a production hall is decreased and the required lifting capacity of a crane is lowered.

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.

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.

The invention relates to a crack-split moulding tool for producing a foam particle part, having two mould halves (2, 3). The mould halves (2, 3) are pivotably mounted relative to one another such that they can be arranged at a varying distance from each other in certain sections when being filled with foam particles and when pressing together, are moved together at a varying distance until in a closed position, due to a pivoting movement. As a result, it is possible to homogeneously compress areas of the moulding cavity (6) having a different thickness and to compress in a different manner, area having the same thickness.

The invention relates to a crack-split moulding tool for producing a foam particle part, having two mould halves (2, 3). The mould halves (2, 3) are pivotably mounted relative to one another such that they can be arranged at a varying distance from each other in certain sections when being filled with foam particles and when pressing together, are moved together at a varying distance until in a closed position, due to a pivoting movement. As a result, it is possible to homogeneously compress areas of the moulding cavity (6) having a different thickness and to compress in a different manner, area having the same thickness.

The press (1) for curing a green tyre has: a frame (2), at least one plate (4) that is mounted in a sliding manner with respect to the frame and comprises a plurality of pegs (22), a plurality of sectors (8) that are distributed circumferentially around the plate and are able to form all or part of the width of a tread of the tire, and, for each sector, at least one rocker (15) having at least one ramp (19) over which one of the respective pegs is able to pass.

A method and apparatus for operating an apparatus for transforming plastic parisons into plastic containers, wherein the apparatus has a movable carrier, on which a plurality of transforming stations are arranged for transforming plastic parisons into plastic containers. The transforming stations each have at least two mould supports on which blow mould parts are arranged, which blow mould parts are components of a blow mould and form a hollow space within which the plastic parisons can be expanded into the plastic containers by application of a flowable medium. The mould supports are pivotable with respect to one another for opening and closing the blow mould and wherein furthermore the transforming stations have a latching mechanism which is configured to latch the two mould supports at least at times to one another such that an opening movement of the blow mould is prevented.