A rapid mold replacing device for use in molding machine includes: a mold having lateral walls at two ends disposed with a pair of bolt slots; a pair of fastening members, having a locking member connected at an outer side of each fastening member, and protruded with a locking bolt, and a top surface of each locking member having an unlocking slot; and an unlocking mechanism, disposed on a top surface of the elevation seat and having at least one first retractable driving device, and a pair of unlocking blades capable of being synchronously driven by the first retractable driving device; when the pair of unlocking blades are inserted in or released from the pair of unlocking slots, the mold can be formed in an un locked or a locked status to the mold.

A melt dispenser for plastic molding comprises a barrel unit removably mountable to a drive unit. A feed screw is received within a barrel of the barrel unit and is rotated by the drive unit to dispense molten molding material through an outlet of the barrel. A coupling mechanism can be engaged to hold the barrel unit against the drive unit and on to connect the screw to the drive. The coupling mechanism is operable by an actuator.

A method for controlling a molding unit (10) for the forming of a container made of thermoplastic material by blow molding of a preform, with the unit (10) including: a carriage (24) that carries, in a stationary manner, a mold bottom (16); at least one stationary cylinder (32) housing a piston (98) that slides between a lower rest position and an upper boxing position in which it pushes the carriage (24) from an intermediate position to an upper molding position; actuating elements for moving the carriage (24) from its upper molding position to a lower extraction position;
with the method including an extraction step (E4) wherein the movement of the carriage (24) toward its lower extraction position is initiated while the piston (98) has not yet returned into its lower rest position.

A process for laminating elements together to form an article having a predetermined shape including an interior cavity comprises: placing a first sheet atop a first die; placing a first pressure introduction port atop the first sheet; placing a second sheet atop the first port and atop the first sheet; placing a second die atop the second sheet; clamping the first sheet, first port, and second sheet between the first and second dies to form an assembly comprising first die, first sheet, pressure introduction port, second sheet, and second die; introducing an applied gas pressure between the first and second sheets of the assembly, via the first pressure introduction port; heating the assembly to a temperature at which the first and second sheets can thermally deform, thereby achieving simultaneous lamination and blow molding of the first and second sheets; and cooling the assembly, such that the article is created.

An apparatus for shaping plastics material pre-forms into plastics material containers has a conveying device which conveys the plastics material pre-forms along a pre-set conveying path. The conveying device has a movable station carrier arranged at least indirectly on a stationary base carrier and on which a plurality of shaping stations are arranged. The shaping stations have blow molding devices which form cavities inside which the plastics material preforms are shaped to form plastics material containers. The blow molding devices are arranged on blow mold carriers. The apparatus has a changing device suitable for removing at least the blow molding devices from the blow mold carriers and/or arranging blow molding devices on the blow mold carriers. A changing device has a gripping device for gripping the blow molding device, wherein this gripping device is movable in at least two different directions and is pivotable about at least three different axes.

Disclosed is a method for molding plastic preforms into plastic containers using a blow mould assembly including a blow mould unit, wherein a part of the blow mould unit is retained on a blow mould holder element using negative pressure.

A blow mold provided with a locking system for mutually locking each half-mold with the related half-mold holder, thus allowing a simpler and quicker replacement of the side half-impressions of the mold. The blow mold of the invention provides for the side half-impression of each half-mold to be fixed in a cavity of the corresponding mold holder by actuating at least one quick coupling device comprising a bar (23) inserted in one of the two longitudinal edges of the half-mold holder (3) and adapted to move only by rotation about an axis thereof; actuation means (22) adapted to actuate a rotation of said bar; and at least one locking fin (21) fixed along said bar (23) and adapted to move, by rotating the bar (23), from an unlocking position to a locking position in which said locking fin interacts with the respective half-mold (2).

A blow molding machine includes a support member and a moving mechanism that moves the support member to a projecting position a storing position. The blow molding machine includes a first fixed fulcrum shaft, and the support member includes a base end portion rotatably supported by the first fixed fulcrum shaft and a free end portion provided with a first movable fulcrum shaft. The moving mechanism includes a plurality of links connected rotatably to each other, one of the plurality of links being rotatably supported by the movable fulcrum shaft of the support member, and, when the support member is set at the projecting position, the plurality of links are maintained linearly by a first angle fixing tool, thereby enabling the plurality of links to serve as a leg portion that supports the free end portion of the support member.

A rapid mold replacing device for use in molding machine comprises: a molding machine, including a machine table defined with an operating zone and an open space adjacently arranged; a carrier, disposed on the machine table and allowing a mold to be positioned thereon, driven by a transmission mechanism, thereby capable of being moved and positioned between the operating zone and the open space; and an open/close driving mechanism, including a pair of moveable plates oppositely disposed and arranged at two sides of the operating zone, wherein the pair of moveable plates are driven by the open/close driving mechanism, thereby forming an opening/closing motion; two sides of the mold are respectively disposed with a lateral plate at a location adjacent to each of the moveable plates, and at least one locking mechanism is disposed between the lateral plate and the moveable plate.

Disclosed is a blow mold for plastic bottle, which comprises: a mold body, two exhaust channels, a label plate, and a vacuum suction assembly; the mold cavity is arranged in the mold body, the mold cavity is used for shaping the bottle embryo; the two exhaust channels are connected to the mold cavity; the vacuum suction assembly is connected to the two exhaust channels and used to suction out the gas inside the mold cavity. The present disclosure starts the vacuum suction assembly when blow molding the bottle embryo to carry out an active exhaust operation, reduces the generation of air bubbles between the bottle embryo and the label plate and the interior of the label plate, improves the adhesion between the bottle and the label plate, also reduces the air bubbles and delamination of the interior of the laminated label plate in the process of blow molding