Method and apparatus for lay flat control in an extruded film production line
First Claim
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1. An apparatus for producing an extruded film tube and supplying said tube to a collapsing and roller assembly, comprising:
- (a) a die for extruding a molten material in the form of a tube;
(b) a blower system for supplying and exhausting cooling air to and from an interior portion of said tube, and for regulating at least a portion of said blower system to control extrusion and cooling of said tube, and which determines in part a circumference of said tube;
(c) at least one sizing sensor located proximate said tube for sensing said tube'"'"'s position, comparing such position to an extrusion set point, and generating an extrusion feedback error signal which is corrective of any difference between said position and said set point;
(d) at least one lay flat sensor located proximate said tube in a position above said at least one sizing sensor for sensing said tube'"'"'s position prior to collapsing and flattening of said tube by said collapsing and roller assembly, comparing said position to a lay-flat set point, and generating a lay-flat feedback error signal which is corrective of any difference between said position and said lay-flat set point;
(e) a programmable controller for executing program instructions including a feedback control system which receives said extrusion feedback error signal and said lay-flat feedback error signal as feedback injection signals and which provides a control signal to said blower system.
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Abstract
An apparatus for producing an extruded film tube and supplying said tube to a collapsing and roller assembly includes a die for extruding a molten material in the form of a tube which is in a molten state below a frost line and in a solid state above the frost line. A blower system supplies and exhausts cooling air to and from an interior portion of the tube, and is regulated by a valve. At least two sensors are provided, one below the frost line for sensing the position of said tube, and one located proximate the tube in a position above said frost line. The upper sensor is used for sensing the position of the tube prior to collapsing and flattening it. A controller receives feedback signals from both sensors and controls operation of the valve.
6 Citations
21 Claims
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1. An apparatus for producing an extruded film tube and supplying said tube to a collapsing and roller assembly, comprising:
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(a) a die for extruding a molten material in the form of a tube;
(b) a blower system for supplying and exhausting cooling air to and from an interior portion of said tube, and for regulating at least a portion of said blower system to control extrusion and cooling of said tube, and which determines in part a circumference of said tube;
(c) at least one sizing sensor located proximate said tube for sensing said tube'"'"'s position, comparing such position to an extrusion set point, and generating an extrusion feedback error signal which is corrective of any difference between said position and said set point;
(d) at least one lay flat sensor located proximate said tube in a position above said at least one sizing sensor for sensing said tube'"'"'s position prior to collapsing and flattening of said tube by said collapsing and roller assembly, comparing said position to a lay-flat set point, and generating a lay-flat feedback error signal which is corrective of any difference between said position and said lay-flat set point;
(e) a programmable controller for executing program instructions including a feedback control system which receives said extrusion feedback error signal and said lay-flat feedback error signal as feedback injection signals and which provides a control signal to said blower system. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An apparatus for producing an extruded film tube and supplying said tube to a collapsing and roller assembly, comprising:
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(a) a die for extruding a molten material in the form of a tube;
(b) a blower system for supplying and exhausting cooling air to and from an interior portion of said tube, and for regulating the at least a portion of said blower system to control extrusion and cooling of said tube, and which determines in part a circumference of said tube;
(c) at least one sizing sensor located proximate said tube for sensing said tube'"'"'s position, comparing such position to an extrusion set point, and generating an extrusion feedback error signal which is corrective of any difference between said position and said set point;
(d) at least one non-contact sensor located proximate said tube in a position above said at least one sizing sensor for sensing said tube'"'"'s position prior to collapsing and flattening of said tube by said collapsin and roller assembly, comparing said position to a lay-flat set point, and generating a lay-flat feedback error signal which is corrective of any difference between said position and said lay-flat set point;
(e) a programmable controller for executing program instructions including a negative feedback control system which receives said extrusion feedback error signal and said lay-flat feedback error signal as negative feedback injection signals and which provides a control signal to said blower system. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A method of producing an extruded film tube and supplying said tube to a collapsing and roller assembly, comprising:
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(a) extruding a molten material from a die in the form of a tube;
(b) utilizing a blower system for supplying and exhausting cooling air to and from an interior portion of said tube and for regulating the at least a portion of said blower system to control extrusion and cooling of said tube, and which determines in part a circumference of said tube;
(c) locating at least one sizing sensor proximate said tube for sensing said tube'"'"'s position;
(d) comparing such position to an extrusion set point;
(e) generating an extrusion feedback error signal which is corrective of any difference between said position and said set point;
(f) locating at least one non-contact sensor located proximate said tube in a position above said at least one sizing sensor for sensing said tube'"'"'s position prior to collapsing and flattening of said tube by said collapsing and roller assembly;
(g) comparing said position to a lay-flat set point;
(h) generating a lay-flat feedback error signal which is corrective of any difference between said position and said lay-flat set point;
(i) providing programmable controller for executing program instructions;
(j) including in said programmable instructions a negative feedback control system which receives said extrusion feedback error signal and said lay-flat feedback error signal as negative feedback injection signals and which provides a control signal to said blower system. - View Dependent Claims (16, 17, 18, 19, 20, 21)
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Specification
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Current AssigneeDaniel R. Joseph
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Original AssigneeDaniel R. Joseph
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InventorsJoseph, Daniel R.
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Primary Examiner(s)Paladini, Albert W.
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Assistant Examiner(s)SHECHTMAN, SEAN P
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Application NumberUS10/618,917Publication NumberTime in Patent Office743 DaysField of Search700/9, 700/13, 700/19, 700/56, 700/59, 700/67, 700/78, 700/95, 700/96, 700/196, 264/40.1, 264/40.3, 264/40.6, 264/40.7, 264406-408, 425/140, 425/141, 425/174.2US Class Current700/196CPC Class CodesB29C 2948/92123 Diameter or circumferenceB29C 2948/92209 TemperatureB29C 2948/92295 Errors or malfunctioning, e...B29C 2948/92514 PressureB29C 2948/926 Flow or feed rateB29C 2948/92628 Width or heightB29C 2948/92647 ThicknessB29C 2948/92657 Volume or quantityB29C 2948/92809 Particular value claimedB29C 2948/92923 Calibration, after-treatmen...B29C 48/0018 combined with shaping by or...B29C 48/0019 combined with shaping by fl...B29C 48/10 flexible, e.g. blown foilsB29C 48/355 Conveyors for extruded arti...B29C 48/903 externallyB29C 48/913 externallyB29C 48/92 Measuring, controlling or r...
