A takeout mechanism for glassware forming machines includes: a supporting structure; an oscillating arm connected by a first end, in pivot form, to a movement transmission system to move the oscillating arm with an angular movement; and, a takeout tong head coupled at a second end of the oscillating arm. The oscillating arm comprises a hollow housing, a first fixed shaft coupled at the first end of the housing; first cam means coupled to the first fixed axis; a second rotating shaft coupled at the second end of the housing, spaced parallel to the first shaft, one end being coupled to the takeout tong head; second cam means coupled to the second rotating axis; and linkage means pivotally connecting the first cam means of said first fixed axis and said second cam means of said second rotating axis.

A takeout mechanism for glassware forming machines includes: a supporting structure; an oscillating arm connected by a first end, in pivot form, to a movement transmission system to move the oscillating arm with an angular movement; and, a takeout tong head coupled at a second end of the oscillating arm. The oscillating arm comprises a hollow housing, a first fixed shaft coupled at the first end of the housing; first cam means coupled to the first fixed axis; a second rotating shaft coupled at the second end of the housing, spaced parallel to the first shaft, one end being coupled to the takeout tong head; second cam means coupled to the second rotating axis; and linkage means pivotally connecting the first cam means of said first fixed axis and said second cam means of said second rotating axis.

A neck ring holder device intended to be used at a mould for forming glass containers (30), wherein the neck ring (41) for realizing the mouth (32) of the container can be opened and consists of a plurality of circumferential sectors (44) that can be moved apart from a closed position of the neck ring (41), in which the circumferential sectors (44) are coplanar and form a substantially continuous annular element, up to an open position of the neck ring (41), in which the circumferential sectors (44) are rotated out of said coplanar configuration, moving away from each other, about axes directed perpendicular to the direction of the axis (45) of said annular element, is characterised in that the movement of the circumferential sectors (44) from the closed position to the open position.

A takeout mechanism for glassware forming machines includes: a supporting structure; an oscillating arm connected by a first end, in pivot form, to a movement transmission system to move the oscillating arm with an angular movement; and, a takeout tong head coupled at a second end of the oscillating arm. The oscillating arm comprises a hollow housing, a first fixed shaft coupled at the first end of the housing; first cam means coupled to the first fixed axis; a second rotating shaft coupled at the second end of the housing, spaced parallel to the first shaft, one end being coupled to the takeout tong head; second cam means coupled to the second rotating axis; and linkage means pivotally connecting the first cam means of said first fixed axis and said second cam means of said second rotating axis.

A takeout mechanism for glassware forming machines includes: a supporting structure; an oscillating arm connected by a first end, in pivot form, to a movement transmission system to move the oscillating arm with an angular movement; and, a takeout tong head coupled at a second end of the oscillating arm. The oscillating arm comprises a hollow housing, a first fixed shaft coupled at the first end of the housing; first cam means coupled to the first fixed axis; a second rotating shaft coupled at the second end of the housing, spaced parallel to the first shaft, one end being coupled to the takeout tong head; second cam means coupled to the second rotating axis; and linkage means pivotally connecting the first cam means of said first fixed axis and said second cam means of said second rotating axis.

A device for manufacturing hollow glass articles, namely an IS machine, includes a plurality of adjacent stations (3), which form a row and respectively accommodate at least one blank mold that encloses a mold cavity, the inner walls of which have to be coated with a lubricant in accordance with a defined spray pattern by means of a spraying device (8) that can be moved along the row during the course of the glass forming operation. In order to ensure a reproducible spray pattern, a calibration station (10) is provided and equipped with a test mold (12), wherein the spraying device (8) can be displaced up to an inspection position, in which it is arranged opposite of the calibration station (10), in order to verify the correct function of a lubrication process based on a spray pattern in the test mold (12) and, if necessary, to correct the lubrication process.

A device for manufacturing hollow glass articles, namely an IS machine, includes a plurality of adjacent stations (3), which form a row and respectively accommodate at least one blank mold that encloses a mold cavity, the inner walls of which have to be coated with a lubricant in accordance with a defined spray pattern by means of a spraying device (8) that can be moved along the row during the course of the glass forming operation. In order to ensure a reproducible spray pattern, a calibration station (10) is provided and equipped with a test mold (12), wherein the spraying device (8) can be displaced up to an inspection position, in which it is arranged opposite of the calibration station (10), in order to verify the correct function of a lubrication process based on a spray pattern in the test mold (12) and, if necessary, to correct the lubrication process.

A method and tool for adjusting components of a machine that produces glass bottles. A shim is positioned between two components. The shim includes a base element and an adjustable element. The base element has a component engaging surface and a stepped surface. At least several of the steps project a greater distance than other steps. The adjustable element has a component engaging surface and a stepped surface. At least several of the steps of the adjustable element project a greater distance than other steps. The stepped surface of the adjustable element rests on the stepped surface of the base element such that rotation or sliding of the adjustable element allows the steps of the adjustable element and the steps of the base element to mate in a manner wherein the component engaging surfaces are moved closer to or further from one another.

A method and tool for adjusting components of a machine that produces glass bottles. A shim is positioned between two components. The shim includes a base element and an adjustable element. The base element has a component engaging surface and a stepped surface. At least several of the steps project a greater distance than other steps. The adjustable element has a component engaging surface and a stepped surface. At least several of the steps of the adjustable element project a greater distance than other steps. The stepped surface of the adjustable element rests on the stepped surface of the base element such that rotation or sliding of the adjustable element allows the steps of the adjustable element and the steps of the base element to mate in a manner wherein the component engaging surfaces are moved closer to or further from one another.

A neck ring holder device intended to be used at a mould for forming glass containers (30), wherein the neck ring (41) for realizing the mouth (32) of the container can be opened and consists of a plurality of circumferential sectors (44) that can be moved apart from a closed position of the neck ring (41), in which the circumferential sectors (44) are coplanar and form a substantially continuous annular element, up to an open position of the neck ring (41), in which the circumferential sectors (44) are rotated out of said coplanar configuration, moving away from each other, about axes directed perpendicular to the direction of the axis (45) of said annular element, is characterised in that the movement of the circumferential sectors (44) from the closed position to the open position.