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 portable molding system is configured for forming insulation on pipes. A set of transportable process modules are configured to be shipped to a molding site, operatively connected together at the molding site to form a site-installed molding system, and subsequently disconnected for transport to another site. The set of transportable process modules includes one or more resin preparation modules configured to prepare resin for being formed into insulation on the pipes. One or more mold modules are configured to define a mold cavity. The one or more mold modules are configured to hold a pipe in the mold cavity, to receive resin prepared by the one or more resin preparation modules in the mold cavity around the pipe, and to form said resin received in the mold cavity into insulation on the pipe.

A portable molding system is configured for forming insulation on pipes. A set of transportable process modules are configured to be shipped to a molding site, operatively connected together at the molding site to form a site-installed molding system, and subsequently disconnected for transport to another site. The set of transportable process modules includes one or more resin preparation modules configured to prepare resin for being formed into insulation on the pipes. One or more mold modules are configured to define a mold cavity. The one or more mold modules are configured to hold a pipe in the mold cavity, to receive resin prepared by the one or more resin preparation modules in the mold cavity around the pipe, and to form said resin received in the mold cavity into insulation on the pipe.

The present invention provides a parting locking device configured such that a locking member can be uncoupled from a base holder even with a locking bar inserted in the locking member, and the locking bar stably moves. The locking bar includes a thick-walled and thin-walled portions. In a first state in which the thick-walled portion is located between an engagement element and the inner surface of a bar inserting hole, and in a third state in which the locking bar is pulled out of the locking member, the engagement element is moved to first or second engagement element paths, and the locking member is uncoupled from the base holder. In a second state in which the thin-walled portion is located between the engagement element and the inner surface of the bar inserting hole (9), the engagement element is engaged with engagement recesses, thereby keeping the locking member coupled to the base holder.

The present invention provides a parting locking device configured such that a locking member can be uncoupled from a base holder even with a locking bar inserted in the locking member, and the locking bar stably moves. The locking bar includes a thick-walled and thin-walled portions. In a first state in which the thick-walled portion is located between an engagement element and the inner surface of a bar inserting hole, and in a third state in which the locking bar is pulled out of the locking member, the engagement element is moved to first or second engagement element paths, and the locking member is uncoupled from the base holder. In a second state in which the thin-walled portion is located between the engagement element and the inner surface of the bar inserting hole (9), the engagement element is engaged with engagement recesses, thereby keeping the locking member coupled to the base holder.

A molding machine comprises first and second non-complementary molds (20a, 20b). The first mold (20a) defines a female mold cavity (36). The second mold (20b) defines a flat molding surface (30). The first and second molds (20a, 20b) are movable between a first position in which the molds are apart and the female mold cavity (36) and the flat molding surface (30) both face upwards, and a second position in which the molds are brought together and the flat molding surface faces into and closes the female mold cavity to form a completely enclosed cavity. Each mold (20a, 20b) has a plurality of bores (22) formed through it and with an opening (24) at each end. At least two of the bores (22) are connected to each other by a block (38) positioned over the opening at one end of one bore and the opening at the end of another bore. The block (38) is formed with a groove (40) which connects the openings to each other.

A molding machine comprises first and second non-complementary molds (20a, 20b). The first mold (20a) defines a female mold cavity (36). The second mold (20b) defines a flat molding surface (30). The first and second molds (20a, 20b) are movable between a first position in which the molds are apart and the female mold cavity (36) and the flat molding surface (30) both face upwards, and a second position in which the molds are brought together and the flat molding surface faces into and closes the female mold cavity to form a completely enclosed cavity. Each mold (20a, 20b) has a plurality of bores (22) formed through it and with an opening (24) at each end. At least two of the bores (22) are connected to each other by a block (38) positioned over the opening at one end of one bore and the opening at the end of another bore. The block (38) is formed with a groove (40) which connects the openings to each other.

Provided are a mold for forming a tire including an annular tread molding part a plurality of segments divided into arranged in a circumferential direction arranged in a circumferential direction, and a tire production method and using the same. The mold for forming a tire includes a rotatable shaft perpendicular to a direction of movement of the segment and also to the axis of the tread molding part; a base member supporting the segment to be rotatable around the rotatable shaft; and an external force application mechanism which, when the tread molding part is opened, applies external force to the segment to rotate the segment toward a direction in which a side of the other end of the segment in the direction of the axis is moved around the rotatable shaft toward a radially outer side.

Provided are a mold for forming a tire including an annular tread molding part a plurality of segments divided into arranged in a circumferential direction arranged in a circumferential direction, and a tire production method and using the same. The mold for forming a tire includes a rotatable shaft perpendicular to a direction of movement of the segment and also to the axis of the tread molding part; a base member supporting the segment to be rotatable around the rotatable shaft; and an external force application mechanism which, when the tread molding part is opened, applies external force to the segment to rotate the segment toward a direction in which a side of the other end of the segment in the direction of the axis is moved around the rotatable shaft toward a radially outer side.

Provided are a mold for forming a tire (1) including an annular tread molding part (20) which is configured to be opened and closed by moving a plurality of segments (21) in a radial direction, and a tire production method using the same. In the mold for forming the tire (1), each of the segments (21) includes a design surface dividing mold part (23) including a tread design surface (20a) for forming a tread (2c) of a tire (2), and the design surface dividing mold part (23) is configured to rotate around a rotatable shaft (25) perpendicular to a direction of movement of the segments (21) and also to an axis of the tread molding part (20) when the tread molding part (20) is opened after vulcanization molding of the tire (2).