In illustrative implementations of this invention, a crucible kiln heats glass such that the glass becomes or remains molten. A nozzle extrudes the molten glass while one or more actuators actuate movements of the nozzle, a build platform or both. A computer controls these movements such that the extruded molten glass is selectively deposited to form a 3D glass object. The selective deposition of molten glass occurs inside an annealing kiln. The annealing kiln anneals the glass after it is extruded. In some cases, the actuators actuate the crucible kiln and nozzle to move in horizontal x, y directions and actuate the build platform to move in a z-direction. In some cases, fluid flows through a cavity or tubes adjacent to the nozzle tip, in order to cool the nozzle tip and thereby reduce the amount of glass that sticks to the nozzle tip.

In illustrative implementations of this invention, a crucible kiln heats glass such that the glass becomes or remains molten. A nozzle extrudes the molten glass while one or more actuators actuate movements of the nozzle, a build platform or both. A computer controls these movements such that the extruded molten glass is selectively deposited to form a 3D glass object. The selective deposition of molten glass occurs inside an annealing kiln. The annealing kiln anneals the glass after it is extruded. In some cases, the actuators actuate the crucible kiln and nozzle to move in horizontal x, y directions and actuate the build platform to move in a z-direction. In some cases, fluid flows through a cavity or tubes adjacent to the nozzle tip, in order to cool the nozzle tip and thereby reduce the amount of glass that sticks to the nozzle tip.

A change system for changing an orifice plate that is registered with an orifice ring is provided. The orifice plate change system includes a guide arrangement, a plurality of orifice plates, and an actuator. The guide arrangement has a charging plate region and an operating plate region. Each orifice plate is configured to be slidably carried by the guide arrangement between the charging plate region and the operating plate region in which the orifice thereof is registered with the orifice ring orifice. A first orifice plate has a first orifice and a second orifice plate has a second orifice that is different than the first orifice such that a stream of molten glass that passes through the second is different than a stream of molten glass passing through the first orifice. The actuator translates the orifice plates from the charging plate region to the operating plate region.

A change system for changing an orifice plate that is registered with an orifice ring is provided. The orifice plate change system includes a guide arrangement, a plurality of orifice plates, and an actuator. The guide arrangement has a charging plate region and an operating plate region. Each orifice plate is configured to be slidably carried by the guide arrangement between the charging plate region and the operating plate region in which the orifice thereof is registered with the orifice ring orifice. A first orifice plate has a first orifice and a second orifice plate has a second orifice that is different than the first orifice such that a stream of molten glass that passes through the second is different than a stream of molten glass passing through the first orifice. The actuator translates the orifice plates from the charging plate region to the operating plate region.

Forehearth tank assembly for a glass distribution channel. The assembly includes a single liner, two plungers and more and a single flow washer that has first and second orifices. The plungers are arranged, at least in part, in the liner. More than three grooves are created on the inner surface of the liner. Each has, in an inner part of the liner that is intended to be in contact with molten glass, a lower portion extending over more than 10% of the length of the lower part and having a length, measured following the groove, of greater than 0.1 times the length of the lower part. The length of the lower part is measured along the axis of the liner.

Forehearth tank assembly for a glass distribution channel. The assembly includes a single liner, two plungers and more and a single flow washer that has first and second orifices. The plungers are arranged, at least in part, in the liner. More than three grooves are created on the inner surface of the liner. Each has, in an inner part of the liner that is intended to be in contact with molten glass, a lower portion extending over more than 10% of the length of the lower part and having a length, measured following the groove, of greater than 0.1 times the length of the lower part. The length of the lower part is measured along the axis of the liner.

A change system for changing an orifice plate that is registered with an orifice ring is provided. The orifice plate change system includes a guide arrangement, a plurality of orifice plates, and an actuator. The guide arrangement has a charging plate region and an operating plate region. Each orifice plate is configured to be slidably carried by the guide arrangement between the charging plate region and the operating plate region in which the orifice thereof is registered with the orifice ring orifice. A first orifice plate has a first orifice and a second orifice plate has a second orifice that is different than the first orifice such that a stream of molten glass that passes through the second is different than a stream of molten glass passing through the first orifice. The actuator translates the orifice plates from the charging plate region to the operating plate region.

A change system for changing an orifice plate that is registered with an orifice ring is provided. The orifice plate change system includes a guide arrangement, a plurality of orifice plates, and an actuator. The guide arrangement has a charging plate region and an operating plate region. Each orifice plate is configured to be slidably carried by the guide arrangement between the charging plate region and the operating plate region in which the orifice thereof is registered with the orifice ring orifice. A first orifice plate has a first orifice and a second orifice plate has a second orifice that is different than the first orifice such that a stream of molten glass that passes through the second is different than a stream of molten glass passing through the first orifice. The actuator translates the orifice plates from the charging plate region to the operating plate region.

A molten glass gob delivery guide is disclosed that includes a chute having an upstream end, a downstream end, a rear surface, and a front surface. The chute is comprised of a gas permeable material and is able to accommodate the permeable flow of a permeating gas from the rear surface to the front surface of the chute. When a molten glass gob is conveyed along the chute over the front surface of the chute, the permeating gas flows permeably through the chute to establish a gas cushion that displaces the glass gob away from the front surface of the chute, which creates a thermal break between the glass gob and the chute. In this way, heat loss from the molten glass gob to the chute can be minimized as the gob travels along the chute.

A molten glass gob delivery guide is disclosed that includes a chute having an upstream end, a downstream end, a rear surface, and a front surface. The chute is comprised of a gas permeable material and is able to accommodate the permeable flow of a permeating gas from the rear surface to the front surface of the chute. When a molten glass gob is conveyed along the chute over the front surface of the chute, the permeating gas flows permeably through the chute to establish a gas cushion that displaces the glass gob away from the front surface of the chute, which creates a thermal break between the glass gob and the chute. In this way, heat loss from the molten glass gob to the chute can be minimized as the gob travels along the chute.