US2006102736A1PendingUtilityA1

Apparatus and method for controlling and distributing gas flow

46
Assignee: SANFILIPPO JOHN EPriority: Oct 30, 2002Filed: Nov 18, 2005Published: May 18, 2006
Est. expiryOct 30, 2022(expired)· nominal 20-yr term from priority
G05D 7/0629F17D 1/04Y10T137/7761
46
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Claims

Abstract

The present invention provides a gassing lance including a base and an extension. The base includes a docking port connectable to an input member for transmitting gas to the gassing lance, and the extension includes laminar and accelerator gassing elements for transmitting gas through the gassing lance at first and second flow rates. The gassing lance is affixable within a conventional forming tube of a packaging machine. The invention also provides a gas control panel for controlling and directing gas flow. The gas control panel includes first and second circuits for controlling laminar and accelerator gas flow, respectively, through the gassing lance. The gas control panel also includes a Programmagle Logic Control for controlling the first and second circuits based upon a desired gas characteristic input at an operator interface, and measured by a gas analyzer, thereby providing real-time-control of gas characteristics of gas exiting through the gassing lance.

Claims

exact text as granted — not AI-modified
1 . A gassing lance comprising: 
 a base including a docking port connectable to an input member for transmitting gas to said gassing lance; and    an extension including: 
 at least one laminar gassing element for transmitting gas through said gassing lance at a first flow rate; and  
 at least one accelerator gassing element for transmitting gas through said gassing lance at a second flow rate.  
   
     
     
         2 . A gassing lance according to  claim 1 , said base being removably connectable with said extension.  
     
     
         3 . A gassing lance according to  claim 1 , said base including: 
 at least one input laminar port and at least one output laminar port;    at least one input accelerator port and at least one output accelerator port; and    at least one input analyzer port and at least one output analyzer port.    
     
     
         4 . A gassing lance according to  claim 3 , said docking port including: 
 at least one input laminar port and at least one output laminar port;    at least one input accelerator port and at least one output accelerator port; and    at least one input analyzer port and at least one output analyzer port.    
     
     
         5 . A gassing lance according to  claim 4 , wherein when said docking port is connected to said base, said input laminar port, said input accelerator port and said output analyzer port on said base being respectively interlinked with said output laminar port, said output accelerator port and said input analyzer port on said docking port, so as to enable the passage of gas between each of said respective input and output ports.  
     
     
         6 . A gassing lance according to  claim 4 , said input member including: 
 at least one input laminar port and at least one output laminar port;    at least one input accelerator port and at least one output accelerator port; and    at least one input analyzer port and at least one output analyzer port.    
     
     
         7 . A gassing lance according to  claim 6 , wherein when said input member is connected to said docking port, said input laminar port, said input accelerator port and said output analyzer port on said docking port being respectively interlinked with said output laminar port, said output accelerator port and said input analyzer port on said input member, so as to enable the passage of gas between each of said respective input and output ports.  
     
     
         8 . A gassing lance according to  claim 1 , said docking port being removably connectable to said base.  
     
     
         9 . A gassing lance according to  claim 6 , said docking port including an externally threaded surface engageable with an internally threaded engagement section on said input member, 
 wherein when said input member is connected to said docking port, said input laminar port, said input accelerator port and said output analyzer port on said docking port being respectively interlinked with said output laminar port, said output accelerator port and said input analyzer port on said input member, so as to enable the passage of gas between each of said respective input and output ports.    
     
     
         10 . A gassing lance according to  claim 1 , said docking port including at least one guide hole engageable with at least one respective locating pin on said input member.  
     
     
         11 . A gassing lance according to  claim 3 , said extension including first and second ends, said first end being removably connectable with said base, said gassing lance further comprising: 
 an accelerator tube including first and second ends, said first end of said accelerator tube being connectable with said output accelerator port on said base and said second end of said accelerator tube terminating substantially adjacent said second end of said extension.    
     
     
         12 . A gassing lance according to  claim 11 , said accelerator tube including at least one hole having a central axis substantially orthogonal to a central axis of said accelerator tube.  
     
     
         13 . A gassing lance according to  claim 11 , said accelerator tube being removably connectable with said base by means of a set screw disposed in a threaded hole in said base, an end of said set screw being engageable with said accelerator tube to connect said accelerator tube to said base.  
     
     
         14 . A gassing lance according to  claim 11 , said accelerator tube including an endpiece disposed adjacent said second end thereof, said endpiece including an analyzer hole disposed substantially orthogonal to a gassing lance central axis.  
     
     
         15 . A gassing lance according to  claim 14 , said analyzer hole being interlinked with an output connector disposed on said endpiece, an analyzer tube being connectable with said output connector to permit the transmission of gas from said analyzer hole to said input analyzer port.  
     
     
         16 . A gassing lance according to  claim 1 , said extension including first and second ends, said first end being removably connectable to said base, 
 said laminar gassing element being disposed substantially adjacent said second end of said extension on a surface of said extension for transmitting gas substantially perpendicular to a gassing lance central axis,    said accelerator gassing element including first and second accelerator gassing elements, 
 said first accelerator gassing element being disposed substantially adjacent said second end of said extension on a surface of said extension for transmitting gas substantially perpendicular to said gassing lance central axis,  
 said second accelerator gassing element being disposed substantially adjacent said second end of said extension on an end of said extension for transmitting gas substantially parallel to said gassing lance central axis.  
   
     
     
         17 . A gassing lance according to  claim 16 , a surface area of said laminar gassing element being greater than a surface area of at least one of: 
 said first accelerator gassing element, and    said second accelerator gassing element.    
     
     
         18 . A gassing lance according to  claim 1 , said extension including first and second ends, said first end being removably connectable with said base, said gassing lance further comprising: 
 an accelerator tube including first and second ends, said first end of said accelerator tube being connectable with an output accelerator port on said base and said second end of said accelerator tube terminating substantially adjacent said second end of said extension, and    at least one spacer disposable adjacent said second end of said accelerator tube, said spacer including at least one first opening disposed along a gassing lance central axis and at least one second opening disposed substantially orthogonal to said gassing lance central axis,    wherein said first opening permits transmission of gas substantially parallel to said gassing lance central axis and said second opening permits transmission of gas substantially orthogonal to said gassing lance central axis.    
     
     
         19 . A gassing lance according to  claim 18 , further comprising at least one baffle element disposable adjacent said spacer for controlling transmission of gas through said first and second openings in said spacer.  
     
     
         20 . A gassing lance according to  claim 19 , further comprising an endcap disposable adjacent said second end of said extension.  
     
     
         21 . A gassing lance according to  claim 1 , each of said laminar and accelerator gassing elements including at least one wire mesh including a plurality of microscopic holes enabling transmission of gas therethrough.  
     
     
         22 . A gassing lance according to  claim 1 , wherein a gassing lance cross section perpendicular to a gassing lance central axis includes a first generally curved surface and at least one second generally flat surface, said curved surface being disposable adjacent an inner surface of a forming tube when said gassing lance is mounted to the forming tube.  
     
     
         23 . A gassing lance according to  claim 22 , said gassing lance being mountable in a hole provided in the forming tube, 
 wherein, when said gassing lance is mounted to the forming tube, said gassing lance docking port protrudes through the hole, and said gassing lance base and extension are disposed inside the forming tube.    
     
     
         24 . A gassing lance according to  claim 1 , said base being disposed at an angle relative to said extension.  
     
     
         25 . A gassing lance according to  claim 1 , said first flow rate being less than said second flow rate.  
     
     
         26 . A method of supplying gas through a gassing lance disposable in a forming tube of a packaging machine, said gassing lance comprising: 
 a base including a docking port connectable to an input member for transmitting gas to said gassing lance; and    an extension including: 
 at least one laminar gassing element for transmitting gas through said gassing lance; and  
 at least one accelerator gassing element for transmitting gas through said gassing lance, said method comprising the steps of:  
   connecting said input member to said docking port;    transmitting gas through said laminar gassing element at a first flow rate; and    transmitting gas through said accelerator gassing element at a second flow rate.    
     
     
         27 . A method according to  claim 26 , said base including: 
 at least one input laminar port and at least one output laminar port;    at least one input accelerator port and at least one output accelerator port; and    at least one input analyzer port and at least one output analyzer port.    
     
     
         28 . A method according to  claim 27 , said docking port including: 
 at least one input laminar port and at least one output laminar port;    at least one input accelerator port and at least one output accelerator port; and    at least one input analyzer port and at least one output analyzer port.    
     
     
         29 . A method according to  claim 28 , further comprising the steps of: 
 connecting said docking port to said base; and    interlinking said input laminar port, said input accelerator port and said output analyzer port on said base with said output laminar port, said output accelerator port and said input analyzer port on said docking port, respectively, so as to enable the passage of gas between each of said respective input and output ports.    
     
     
         30 . A method according to  claim 28 , said input member including: 
 at least one input laminar port and at least one output laminar port;    at least one input accelerator port and at least one output accelerator port; and    at least one input analyzer port and at least one output analyzer port.    
     
     
         31 . A method according to  claim 30 , further comprising the step of: 
 interlinking said input laminar port, said input accelerator port and said output analyzer port on said docking port with said output laminar port, said output accelerator port and said input analyzer port on said input member, respectively, so as to enable the passage of gas between each of said respective input and output ports.    
     
     
         32 . A method according to  claim 30 , further comprising the steps of: 
 engaging an internally threaded engagement section on said input member to an externally threaded surface of said docking port to connect said input member to said docking port; and    interlinking said input laminar port, said input accelerator port and said output analyzer port on said docking port with said output laminar port, said output accelerator port and said input analyzer port on said input member, respectively, so as to enable the passage of gas between each of said respective input and output ports.    
     
     
         33 . A method according to  claim 26 , further comprising the step of: 
 engaging at least one locating pin provided on said input member with at least one respective hole in said docking port, said hole guiding engagement of said docking port with said locating pin on said input member.    
     
     
         34 . A method according to  claim 27 , said extension including first and second ends, said first end being removably connectable with said base, said gassing lance further comprising an accelerator tube including first and second ends, said second end of said accelerator tube terminating substantially adjacent said second end of said extension, said method further comprising the steps of: 
 connecting said first end of said extension to said base; and    connecting said first end of said accelerator tube with said output accelerator port on said base.    
     
     
         35 . A method according to  claim 34 , further comprising the step of: 
 providing at least one hole in said accelerator tube, said hole having a central axis substantially orthogonal to a central axis of said accelerator tube.    
     
     
         36 . A method according to  claim 34 , further comprising the steps of: 
 connecting said accelerator tube with said base by means of a set screw disposed in a threaded hole in said base; and    engaging an end of said set screw with said accelerator tube to connect said accelerator tube to said base.    
     
     
         37 . A method according to  claim 34 , further comprising the step of: 
 providing an endpiece disposed adjacent said second end of said accelerator tube, said endpiece including an analyzer hole disposed substantially orthogonal to a gassing lance central axis.    
     
     
         38 . A method according to  claim 37 , further comprising the steps of: 
 interlinking said analyzer hole with an output connector disposed on said endpiece; and    connecting an analyzer tube with said output connector to permit the transmission of gas from said analyzer hole to said input analyzer port.    
     
     
         39 . A method according to  claim 26 , said extension including first and second ends, said accelerator gassing element including first and second accelerator gassing elements, said method further comprising the steps of: 
 connecting said first end of said extension to said base;    disposing said laminar gassing element substantially adjacent said second end of said extension on a surface of said extension for transmitting gas substantially perpendicular to a gassing lance central axis;    disposing said first accelerator gassing element substantially adjacent said second end of said extension on a surface of said extension for transmitting gas substantially perpendicular to said gassing lance central axis; and    disposing said second accelerator gassing element substantially adjacent said second end of said extension on an end of said extension for transmitting gas substantially parallel to said gassing lance central axis.    
     
     
         40 . A method according to  claim 39 , a surface area of said laminar gassing element being greater than a surface area of at least one of: 
 said first accelerator gassing element, and    said second accelerator gassing element.    
     
     
         41 . A method according to  claim 26 , said extension including first and second ends, said gassing lance further comprising an accelerator tube including first and second ends, said second end of said accelerator tube terminating substantially adjacent said second end of said extension, said method further comprising the steps of: 
 connecting said first end of said extension with said base;    connecting said first end of said accelerator tube with an output accelerator port on said base; and    disposing at least one spacer adjacent said second end of said accelerator tube, said spacer including at least one first opening disposed along a gassing lance central axis and at least one second opening disposed substantially orthogonal to said gassing lance central axis, wherein said first opening permits transmission of gas substantially parallel to said gassing lance central axis and said second opening permits transmission of gas substantially orthogonal to said gassing lance central axis.    
     
     
         42 . A method according to  claim 41 , further comprising the step of: 
 disposing at least one baffle element adjacent said spacer for controlling transmission of gas through said first and second openings in said spacer.    
     
     
         43 . A method according to  claim 42 , further comprising the step of: 
 disposing an endcap adjacent said second end of said extension.    
     
     
         44 . A method according to  claim 26 , further comprising the step of: 
 providing a plurality of microscopic holes in each of said laminar and accelerator gassing elements for enabling transmission of gas therethrough.    
     
     
         45 . A method according to  claim 26 , wherein a gassing lance cross section perpendicular to a gassing lance central axis includes a first generally curved surface and at least one second generally flat surface, said method further comprising the step of: 
 disposing said curved surface adjacent an inner surface of a forming tube when said gassing lance is mounted to the forming tube.    
     
     
         46 . A method according to  claim 45 , further comprising the step of: 
 mounting said gassing lance in a hole provided in the forming tube,    wherein said gassing lance docking port protrudes through the hole, and said gassing lance base and extension are disposed inside the forming tube.    
     
     
         47 . A method according to  claim 26 , further comprising the step of: 
 disposing said base at an angle relative to said extension.    
     
     
         48 . A method according to  claim 26 , said first flow rate being less than said second flow rate.  
     
     
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