A molding unit (10) for manufacturing preforms (100) made of plastics material, includes at least one HR-type mold (10), a nozzle (14) including at least a nozzle body (28) and a nozzle orifice (30) incorporating a preform (100) stabilizer (34) that forms with a tubular member (40) a mobile assembly that is able to slide axially relative to the nozzle orifice (30) between at least a top position and a bottom position, wherein the tubular member (40) is guided so as to slide axially with respect to the nozzle body (28) by at least one guiding element (46) which is interposed radially between the nozzle body (28) and the tubular inlet member (40), and the stabilizer (34), fixed to the tubular member (40), is guided with respect to the nozzle body (28) only by way of the at least one guiding element (46).

A method for producing a plastic container by internal pressure forming including arranging a hose-shaped preform between the molding dies of a mold, formed having a mold cavity; closing the mold and forming or preforming a container from the preform by internal pressure, wherein a circumferential section of the preform is pressed through a mold gap into a chamber surrounding the mold cavity and is pressed in the chamber against claw pairs having stationary inner retaining claws and movable outer tear-away claws; and laterally moving the outer tear-away claws, causing the circumferential section between the outer tear-away claws and the inner retaining claws to be torn open and the container to be split into two container halves. Also disclosed is a mold suitable for performing the method.

Disclosed is a device for molding containers made of thermoplastic material including: a shell-carrier designed to accommodate an interchangeable molding shell including a bearing face resting against a support face of the shell-carrier; a cold-molding shell whose bearing face is shaped to be directly in contact with the support face; and a cooling unit for each shell-carrier. Moreover, the device includes: a hot-molding shell equipped with a heating unit that heat its bearing face; and thermal insulation interposed between the bearing face of the hot-molding shell and the support face of the shell-carrier.

A method of blow molding an article having at least one layer of thermoplastic material. The method comprises the steps of heating a mold having an inner surface with two or more areas of different surface textures to a first temperature of greater than 55 C. and subsequently feeding a parison into the mold. The parison is then blown against the inner surface of the mold to form an article. The temperature of the mold is subsequently lowered to a second temperature of between 20 C. to about 55 C. and the temperature cycle time (t.sub.ct) of the mold is less than 250 seconds. Using the two phase heating and cooling process in combination with a mold featuring different surface textures provides a finished article with different visual effects.

Injection stretch blow molding tooling for forming at least one parison and at least one stretch blown article having an integral handle. The tooling includes at least one cavity block, a body mold supported within the cavity block, a handle mold supported within the cavity block, and a thread split assembly positioned adjacent to said cavity block. The thread split assembly includes first and second thread split halves shiftable between an open position and a closed position. As such, the body mold, the handle mold, and the thread split assembly cooperatively define a parison-forming cavity, with such parison-forming cavity including a body cavity for forming a body of the parison and a handle cavity for forming a handle of the parison.

A molding unit for producing a container, that includes: a mold having the footprint of the container, including a pair of shells each having an inner wall; a pair of shell holders onto each of which a shell is removably attached; a device for controlling the temperature of the mold, that includes: at least one radiator integrated into a shell holder, at least one temperature probe integrated into a shell, for measuring the temperature in the vicinity of the inner wall, a variator connected to the temperature probe and to the radiator, the variator being arranged to modulate the temperature of the radiator depending on the temperature measured by the probe.

A preform is heated, the heated preform is sealed in a sealing apparatus including a neck portion mold, a trunk portion mold and a bottom portion mold at a predetermined temperature range, and the heated preform sealed in the molds is blow-molded into a bottle. Any molded bottle is removed if the mold surface temperature of the neck portion mold, the trunk portion mold and the bottom portion mold are outside of the predetermined temperature range. A sterilizer is blasted to any molded bottle not removed when the mold surface temperature of all of the molds is in the predetermined temperature range.

Method to manufacture a container includes disposing a first parison within a first mold assembly having a first inner surface defining a first mold chamber. The first mold assembly includes at least one first insert disposed on the first inner surface within the first mold chamber. The first parison is blow molded to form a first container body within the first mold chamber, wherein at least one first portion of the first container body corresponding to the at least one first insert has a first portion temperature greater than a remaining portion of the first container body. The at least one first portion of the first container body can be contacted to at least one second portion of a second container body to attach the first and second container bodies. Assemblies, systems, and intermediate stage pre-assembly multi-chamber containers are also disclosed, as well as multi-chamber containers formed from the same.

A heat-insulating transparent PVC sheet is formed from a PVC substrate having a thickness of 0.02-2.0 mm and contains heat-insulation pastes evenly distributed over the PVC substrate, since the heat-insulation paste contains an essential component of wolfram cesium powder (WCs) with a chemical formula of Cs.sub.XN.sub.YWO.sub.3-ZCl.sub.C and having a particle size of 0.005-2 m, the heat-insulating transparent PVC sheet has an excellent weatherability, and particularly before and after tested in 300-hour service life in line with ASTM G-154 specification, has a physical property of weatherability decay rate (%) small than 4%.

A device for manufacturing and filling beverage containers (12) having thin walls and/or at least partially unstable shapes under the influence of heat is described, in which the containers (12) are manufactured by blow molding of preforms (10), then filled with a hot liquid filling product (16), next pressurized by a compressed gas (18), and then sealed. The preforms (10) and the containers (12) molded therefrom are pressurized during blow molding at a blow molding temperature, which is essentially below 110 C.