A system combining a machine for blow-molding articles with a universal in-mold labeling apparatus. The apparatus has a frame on which turntables are mounted. Each turntable has an air rotary union, facilitating rotation of the respective turntable, and suction cups adapted to pick, hold, and release labels. The turntables deliver labels to the open molds of the machine. The apparatus also has a vertical slide positioned between the turntables. A placement head engages the turntables and moves up the vertical slide to a position in the open molds. At least one label magazine is affixed to the frame and retains the labels. Strategically placed air valves provide air and vacuum to pick, hold, and release labels. A human machine interface facilitates communication between an operator of the system and the system. Finally, a control system is provided to allow the operator to program and control both the machine and apparatus.

A system combining a machine for blow-molding articles with a universal in-mold labeling apparatus. The apparatus has a frame on which turntables are mounted. Each turntable has an air rotary union, facilitating rotation of the respective turntable, and suction cups adapted to pick, hold, and release labels. The turntables deliver labels to the open molds of the machine. The apparatus also has a vertical slide positioned between the turntables. A placement head engages the turntables and moves up the vertical slide to a position in the open molds. At least one label magazine is affixed to the frame and retains the labels. Strategically placed air valves provide air and vacuum to pick, hold, and release labels. A human machine interface facilitates communication between an operator of the system and the system. Finally, a control system is provided to allow the operator to program and control both the machine and apparatus.

Provided is a method for manufacturing a synthetic resin container, including: after the shaping of a container, drawing back a liquid inside the container to a pressurized liquid feeding unit side by a suckback mechanism disposed at a predetermined position in a feeding channel of the liquid from the pressurized liquid feeding unit to a mouth tube portion of a preform; closing the feeding channel by means of a valve mechanism disposed on the downstream side of the suckback mechanism; introducing a gas into the container so that the volume reduction deformation of the container resulting from the drawing back of the liquid is restored to its original shape; and adjusting a headspace inside the container with the amount of volume change associated with the volume reduction deformation.

Provided is a method for manufacturing a synthetic resin container, including: after the shaping of a container, drawing back a liquid inside the container to a pressurized liquid feeding unit side by a suckback mechanism disposed at a predetermined position in a feeding channel of the liquid from the pressurized liquid feeding unit to a mouth tube portion of a preform; closing the feeding channel by means of a valve mechanism disposed on the downstream side of the suckback mechanism; introducing a gas into the container so that the volume reduction deformation of the container resulting from the drawing back of the liquid is restored to its original shape; and adjusting a headspace inside the container with the amount of volume change associated with the volume reduction deformation.

Apparatus for producing plastic material preforms, includes at least two preform manufacturing devices configured for producing the plastic material preforms from a plastic material, wherein the preform manufacturing devices each having preform transport devices. The apparatus includes a main transport device which is configured for transporting the plastic material preforms produced by the preform manufacturing devices and transported by the preform transport devices continuously along a predetermined main transport path, wherein the plastic material preforms are transferred to the main transport device by the production devices after their production.

The present invention provides a method of measuring the placement of material forming a blow-molded plastic container after the container is released from a mold of a blow molder having a plurality of molds, wherein each plastic container comprises a continuous sidewall and a base, the method comprising the steps of: detecting with an infrared camera infrared light emitted from the container after the container is released from a mold; converting the detected infrared light into corresponding electrical signals; transmitting the electrical signals to a microprocessor; comparing in the microprocessor the electrical signals with stored data regarding desired material distribution forming the plastic container; and producing output information regarding the placement of material forming the container.

The present invention provides a method of measuring the placement of material forming a blow-molded plastic container after the container is released from a mold of a blow molder having a plurality of molds, wherein each plastic container comprises a continuous sidewall and a base, the method comprising the steps of: detecting with an infrared camera infrared light emitted from the container after the container is released from a mold; converting the detected infrared light into corresponding electrical signals; transmitting the electrical signals to a microprocessor; comparing in the microprocessor the electrical signals with stored data regarding desired material distribution forming the plastic container; and producing output information regarding the placement of material forming the container.

A stretch blow moulding apparatus for forming an article from a parison using a mould. The apparatus comprises a stretch rod assembly; an actuating mechanism for extending and retracting the stretch rod assembly in an axial direction; and a fluid injector for injecting pressurised fluid into the parison. The stretch rod assembly comprises a body and at least one deployable member located at a free end of the body. The body and the at least one deployable member are movable in the axial direction and the at least one deployable member is deployable laterally from the axial direction.

A stretch blow moulding apparatus for forming an article from a parison using a mould. The apparatus comprises a stretch rod assembly; an actuating mechanism for extending and retracting the stretch rod assembly in an axial direction; and a fluid injector for injecting pressurised fluid into the parison. The stretch rod assembly comprises a body and at least one deployable member located at a free end of the body. The body and the at least one deployable member are movable in the axial direction and the at least one deployable member is deployable laterally from the axial direction.

A blow molding device with a mold into which preform is mounted and a blow nozzle that connects to a mouth tube section of the preform. The blow molding device feeds pressurized liquid from the blow nozzle into the preform and includes a blow nozzle displacement unit that raises and lowers the blow nozzle along the axis of the preform. The blow nozzle has a cap attaching unit that fixes and holds a cap, for sealing a bottle, to a mouth tube section of the bottle when the blow nozzle is lowered by operation of the blow nozzle displacement unit.