The invention relates to a method of automatic mass production of glass containers with texture which comprises producing a mold including a texture of non-parametric three-dimensional motifs (5) by means of protuberances, with said motifs being irregular, non-geometric, and non-figurative and being irregularly distributed; manufacturing glass containers with non-parametric texture bas-relief motifs covering and concealing potential aesthetic manufacturing defects by means of an automatic process of molten glass compression and/or blow molding; automatically detecting and rejecting the containers having manufacturing dimensional and/or safety defects.

The invention relates to a method of automatic mass production of glass containers with texture which comprises producing a mold including a texture of non-parametric three-dimensional motifs (5) by means of protuberances, with said motifs being irregular, non-geometric, and non-figurative and being irregularly distributed; manufacturing glass containers with non-parametric texture bas-relief motifs covering and concealing potential aesthetic manufacturing defects by means of an automatic process of molten glass compression and/or blow molding; automatically detecting and rejecting the containers having manufacturing dimensional and/or safety defects.

A method of fabricating a glass matrix composite includes providing a fiber preform in a cavity of a die tooling, the fiber preform circumscribing an interior region; providing a parison of glass matrix material in the interior region, the glass matrix material having a first viscosity; introducing pressurized inert gas into the parison to outwardly inflate the parison against the fiber preform; and while under pressure from the pressurized inert gas, decreasing the first viscosity of the glass matrix material to a second viscosity. The pressure and the second viscosity cause the glass matrix material to flow and infiltrate into the fiber preform to thereby form a consolidated workpiece. The consolidated workpiece is then cooled to form a glass matrix composite.

A method of fabricating a glass matrix composite includes providing a fiber preform in a cavity of a die tooling, the fiber preform circumscribing an interior region; providing a parison of glass matrix material in the interior region, the glass matrix material having a first viscosity; introducing pressurized inert gas into the parison to outwardly inflate the parison against the fiber preform; and while under pressure from the pressurized inert gas, decreasing the first viscosity of the glass matrix material to a second viscosity. The pressure and the second viscosity cause the glass matrix material to flow and infiltrate into the fiber preform to thereby form a consolidated workpiece. The consolidated workpiece is then cooled to form a glass matrix composite.

Device for forming a glass article, including a forming mold for receiving a glass blank, and a gas injection device with a blowing head intended to be received in the mouth of the blank, the gas injection device including a pressurized gas inlet, a first injection channel connecting the pressurized gas inlet to at least one outlet port opening into the inside cavity, through a first control solenoid valve, with a first pressure sensor and a first temperature sensor, a vent channel connecting the inside cavity to the outside air, the vent channel being equipped with a second pressure sensor and a second temperature sensor, an electro-pneumatic control unit being configured to control the first control solenoid valve according to the pressure measurements and temperature measurements.

Device for forming a glass article, including a forming mold for receiving a glass blank, and a gas injection device with a blowing head intended to be received in the mouth of the blank, the gas injection device including a pressurized gas inlet, a first injection channel connecting the pressurized gas inlet to at least one outlet port opening into the inside cavity, through a first control solenoid valve, with a first pressure sensor and a first temperature sensor, a vent channel connecting the inside cavity to the outside air, the vent channel being equipped with a second pressure sensor and a second temperature sensor, an electro-pneumatic control unit being configured to control the first control solenoid valve according to the pressure measurements and temperature measurements.

Disclosed herein are methods and components for manufacturing substantially square glass containers and components and a method for forming parisons are disclosed. A plunger is extended into a mold which presses molten glass against the walls of the mold and against the extended plunger. Compressed air is applied through the neck of the parison to expand the parison outwardly against another mold and an end surface defined by a baffle. The neck ring provides retention features on the neck of the glass container and can include child-resistance features. Each of the molds, neck ring, and plunger produce substantially square glass containers having a substantially square neck.

A method of providing glass from a glass melting furnace to at least one mold, including providing an uninterrupted glass communication path from an outlet of the glass melting furnace to the at least one mold, and pressurizing the path at a location downstream of the outlet to move molten glass into the at least one mold. A related system, apparatus, and molding equipment are also disclosed.

A mould for production of glass bottles includes a body provided with an internal cavity first portion shaped according to the shape of the body of the glass bottle to be made. The bottom of the mould includes a first seat which is open both at the top, in communication with the internal cavity portion, and at the bottom. The mould further includes an adapter, which is also open at the top and bottom, which can be inserted in the first seat and provided at the bottom with a further shaped seat, which is intended for receiving a neck ring with relative finish thimble and plunger.

A mould for production of glass bottles includes a body provided with an internal cavity first portion shaped according to the shape of the body of the glass bottle to be made. The bottom of the mould includes a first seat which is open both at the top, in communication with the internal cavity portion, and at the bottom. The mould further includes an adapter, which is also open at the top and bottom, which can be inserted in the first seat and provided at the bottom with a further shaped seat, which is intended for receiving a neck ring with relative finish thimble and plunger.