A nozzle and system for hydraulic blow molding of a plastic container from a preform. The nozzle includes a nozzle body having a main bore extending therethrough and a seal pin received in the main bore and moveable between a closed position and an opened position. The seal pin include a central bore extending from an entrance orifice to an exit orifice, with the entrance orifice opening into the main bore of the nozzle body.

An aseptic filling machine capable of performing molding and filling at the same time that has a compact facility size, requires a reduced initial investment, requires a reduced running cost because of its simplified process, and ensures an aseptic condition with reliability, and an aseptic filling method therefor. An aseptic filling machine includes a pre-heating sterilizing portion that sterilizes a preform, a heating portion that heats the sterilized preform, a molding and filling portion that fills the heated preform with a sterilized content under high pressure, thereby molding the preform into a bottle and at the same time filling the preform with the content, and a sealing portion that seals the bottle filled with the content. Before the aseptic filling machine starts operating, each portion is sterilized. During operation of the aseptic filling machine, aseptic air is supplied to each portion to maintain the aseptic condition.

The present invention relates to a movement system of containers to and from operating units, in particular blowing units for bottles made of plastic material or filling units. In particular, the invention relates to a movement system of containers to and from a processing unit of said containers, comprising: a rotating carousel, at the perimeter of which a plurality of said processing units are arranged; a distribution unit (3) of said containers, comprising at least one distribution star (107) placed substantially at a tangent to said carousel and rotating in synchrony, but in the opposite direction to said carousel,
characterized in that said distribution unit (3) comprises a plurality of upper clamps (13) for transferring a container to a respective processing unit and a plurality of lower clamps (14) for transferring a container from said processing unit to said distribution unit (3),
and in that said processing unit comprises a clamp, which is movable between an upper position, at the level of said upper clamps (13) of the distribution unit (3), for the gripping of a container by a respective upper clamp (13) of the distribution unit (3), and a lower position, at the level of said lower clamps (14) of the distribution unit (3), for transferring said container to said processing unit.

The present invention relates to a movement system of containers to and from operating units, in particular blowing units for bottles made of plastic material or filling units. In particular, the invention relates to a movement system of containers to and from a processing unit of said containers, comprising: a rotating carousel, at the perimeter of which a plurality of said processing units are arranged; a distribution unit (3) of said containers, comprising at least one distribution star (107) placed substantially at a tangent to said carousel and rotating in synchrony, but in the opposite direction to said carousel,
characterized in that said distribution unit (3) comprises a plurality of upper clamps (13) for transferring a container to a respective processing unit and a plurality of lower clamps (14) for transferring a container from said processing unit to said distribution unit (3),
and in that said processing unit comprises a clamp, which is movable between an upper position, at the level of said upper clamps (13) of the distribution unit (3), for the gripping of a container by a respective upper clamp (13) of the distribution unit (3), and a lower position, at the level of said lower clamps (14) of the distribution unit (3), for transferring said container to said processing unit.

An apparatus for fabricating a container. The apparatus includes an injection head establishing fluid communication between an injection liquid source and a preform cavity of a substantially tubular preform through a nozzle of the injection head. The longitudinal axis of said injection head being substantially vertically oriented and passing through the nozzle. The apparatus further includes a plurality of infrared-emitting elements projecting infrared radiation into an expansion zone which is disposed adjacent to the nozzle and about the longitudinal axis. The expansion zone is configured to accommodate the preform when it is positioned in fluid communication with the nozzle.

An apparatus for fabricating a container. The apparatus includes an injection head establishing fluid communication between an injection liquid source and a preform cavity of a substantially tubular preform through a nozzle of the injection head. The longitudinal axis of said injection head being substantially vertically oriented and passing through the nozzle. The apparatus further includes a plurality of infrared-emitting elements projecting infrared radiation into an expansion zone which is disposed adjacent to the nozzle and about the longitudinal axis. The expansion zone is configured to accommodate the preform when it is positioned in fluid communication with the nozzle.

A bottle preform heating apparatus includes a cavity, a top cover and multiple heating lamps. A first receiving cavity and a second receiving cavity are formed in the cavity. The first receiving cavity is cylindrical. The second receiving cavity is connected to a side surface of the first receiving cavity. Each heating lamp includes a lamp tube and a lamp base. The lamp tube includes an arc portion and two connection portions. An end of each connection portion is connected to the lamp base. Another end of the each connection portion is connected to an end of the arc portion. The arc portion is disposed in the first receiving cavity. The two connection portions and the lamp base are disposed in the second receiving cavity. The top cover is disposed on top of the cavity. The top cover is provided with a first through hole.

A bottle preform heating apparatus includes a cavity, a top cover and multiple heating lamps. A first receiving cavity and a second receiving cavity are formed in the cavity. The first receiving cavity is cylindrical. The second receiving cavity is connected to a side surface of the first receiving cavity. Each heating lamp includes a lamp tube and a lamp base. The lamp tube includes an arc portion and two connection portions. An end of each connection portion is connected to the lamp base. Another end of the each connection portion is connected to an end of the arc portion. The arc portion is disposed in the first receiving cavity. The two connection portions and the lamp base are disposed in the second receiving cavity. The top cover is disposed on top of the cavity. The top cover is provided with a first through hole.

A method for tempering preforms in a blowing machine, wherein at least one heating box is arranged along a transport path for the preforms. The heating box has reflective walls and forms a heating channel through which the preforms are guided. The heating box also has a heater for heating the preforms in the heating channel, and a cooling device, having a blower, for cooling the reflective walls. The walls are cooled by a quantity of air flowing along the walls outside the heating channel. The heating output of the heater is adjustable. A control device provides open-loop and closed-loop control of the cooling output produced by the cooling device, in particular the supplied quantity of air, depending on the respective heating output of the heater, depending on a measurement of the heating output.

A method for tempering preforms in a blowing machine, wherein at least one heating box is arranged along a transport path for the preforms. The heating box has reflective walls and forms a heating channel through which the preforms are guided. The heating box also has a heater for heating the preforms in the heating channel, and a cooling device, having a blower, for cooling the reflective walls. The walls are cooled by a quantity of air flowing along the walls outside the heating channel. The heating output of the heater is adjustable. A control device provides open-loop and closed-loop control of the cooling output produced by the cooling device, in particular the supplied quantity of air, depending on the respective heating output of the heater, depending on a measurement of the heating output.