AIR STREAM MANIPULATION WITHIN A THERMAL PROCESSING OVEN
First Claim
1. ) A method for controlling a resultant air stream within an oven comprising the steps of:
- providing an enclosure;
providing a heat source which provides treated air to said enclosure;
providing a main recirculation fan;
using said main recirculation fan to move said treated air;
dividing said moving treated air into at least a first airstream and a second airstream using a modulating damper capable of being positioned between a first position and a second position;
providing a first air discharge orifice directing said first airstream into the enclosure;
providing a second air discharge orifice directing said second airstream into the enclosure;
positioning said modulating damper to said first position;
causing said first airflow exiting said first air discharge orifice to converge with said second airflow exiting said second air discharge orifice at a first breakpoint location creating a combined turbulent third airflow which originates on a first side of said enclosure and proceeds in a turbulent form to at least the center of said enclosure;
transitioning said modulating damper from said first position to said second position moving the airflow convergence location from said first breakpoint location to a second breakpoint location; and
transitioning said modulating damper from said second position back to said first position returning said combined turbulent third airflow from said second breakpoint location to said first breakpoint location.
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Abstract
The invention disclosed herein relates to methods for controlling pressurized air streams within a food-processing oven. In this invention, two or more pressurized air streams are caused to collide creating a turbulent airflow in a third and separate direction. One or more dampers are used to control the location and direction of the third resultant flow allowing treated air to be moved at designated speeds to and from specific locations within the oven for controlled lengths of time. The resulting airflow may be directed horizontally across horizontally laid product or vertically across vertically hung products thereby minimizing times where treated air is blocked by the either product or its support racks. This yields improved product uniformity, consistency, temperature, and moisture content while improving food safety and product yield with reduced processing time.
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Citations
25 Claims
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1. ) A method for controlling a resultant air stream within an oven comprising the steps of:
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providing an enclosure; providing a heat source which provides treated air to said enclosure; providing a main recirculation fan; using said main recirculation fan to move said treated air; dividing said moving treated air into at least a first airstream and a second airstream using a modulating damper capable of being positioned between a first position and a second position; providing a first air discharge orifice directing said first airstream into the enclosure; providing a second air discharge orifice directing said second airstream into the enclosure; positioning said modulating damper to said first position; causing said first airflow exiting said first air discharge orifice to converge with said second airflow exiting said second air discharge orifice at a first breakpoint location creating a combined turbulent third airflow which originates on a first side of said enclosure and proceeds in a turbulent form to at least the center of said enclosure; transitioning said modulating damper from said first position to said second position moving the airflow convergence location from said first breakpoint location to a second breakpoint location; and transitioning said modulating damper from said second position back to said first position returning said combined turbulent third airflow from said second breakpoint location to said first breakpoint location. - View Dependent Claims (2, 23)
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3. ) A method for controlling a resultant air stream within an oven comprising the steps of:
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providing an enclosure; providing a heat source which provides treated air to said enclosure; providing a main recirculation fan; using said main recirculation fan to move said treated air; dividing said moving treated air into at least a first airstream and a second airstream; providing a first air discharge orifice directing said first airstream into the enclosure; providing a second air discharge orifice directing said second airstream into the enclosure; providing a first variable damper limiting said first airstream, said first variable damper capable of being positioned between a first position and a second position; providing a second variable damper limiting said second airstream, said second variable damper capable of being positioned between a third position and a fourth position; positioning said first variable damper to said first position and positioning said second variable damper to said third position; causing said first airflow exiting said first air discharge orifice to converge with said second airflow exiting said second air discharge orifice at a first breakpoint location creating a combined turbulent third airflow which originates on a first side of said enclosure and proceeds in a turbulent form to at least the center of said enclosure; transitioning said first variable damper from said first position to said second position and transitioning said second variable damper from said third position to said fourth position moving the airflow convergence location from said first breakpoint location to a second breakpoint location creating a combined turbulent third airflow proceeding in a turbulent form to at least the center of said enclosure; and transitioning said first variable damper from said second position back to said first position and transitioning said second variable damper from said fourth position to said third position returning said combined turbulent third airflow from said second breakpoint location to said first breakpoint location. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. ) A method for controlling a resultant air stream within an oven comprising the steps of:
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providing an enclosure; providing a heat source which provides treated air to said enclosure; providing a main recirculation fan; using said main recirculation fan to move said treated air; dividing said moving treated air into at least a first airstream and a second airstream; providing a first air discharge orifice directing said first airstream into the enclosure; providing a second air discharge orifice directing said second airstream into the enclosure; providing a first variable damper limiting said first airstream, said first variable damper capable of being positioned between a first position, a second position, a third position, and a fourth position; providing a second variable damper limiting said second airstream, said second variable damper capable of being positioned between a fifth position, a sixth position, a seventh position, and an eighth position; positioning said first variable damper to said first position and positioning said second variable damper to said fifth position; causing said first airflow exiting said first air discharge orifice to converge with said second airflow exiting said second air discharge orifice at a first breakpoint location on a first side of an enclosure creating a combined turbulent third airflow which proceeds in a turbulent form to at least the center of said enclosure; transitioning said first variable damper from said first position to said second position and transitioning said second variable damper from said fifth position to said sixth position moving the airflow convergence location from said first breakpoint location to a second breakpoint location also located on said first side of an enclosure, and wherein said combined turbulent third airflow proceeds in a turbulent form from said second breakpoint location to at least the center of said enclosure; transitioning said first variable damper from said second position back to said first position and transitioning said second variable damper from said sixth position to said fifth position returning said second breakpoint location to said first breakpoint location; repeating the transition between said first breakpoint and said second breakpoints two or more times consecutively; transitioning said first variable damper into a third position and transitioning said second variable damper into a seventh position causing said first airstream exiting said first air discharge orifice to converge with said second airstream exiting said second air discharge orifice at a third breakpoint located on a second side of the enclosure, and wherein said combined turbulent third airflow proceeds in a turbulent form from said third breakpoint location to at least the center of said enclosure; transitioning said first variable damper from said third position to fourth position and transitioning said second variable damper from said seventh position to said eighth position moving the convergence location from said third breakpoint location to a fourth breakpoint location located on said second side of the enclosure, and wherein said combined turbulent third airflow proceeds in a turbulent form from said fourth breakpoint location to at least the center of said enclosure; transitioning said first variable damper from said fourth position back to said third position and transitioning said second variable damper from said eighth position back to said seventh position returning said fourth breakpoint location to said third breakpoint location; and repeating the transition between said third breakpoint and said fourth breakpoints two or more times consecutively. - View Dependent Claims (17, 18, 19, 20, 21, 24, 25)
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22. ) A method for controlling a resultant air stream within an oven comprising the steps of:
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providing an enclosure; providing a heat source which provides treated air to said enclosure; providing a Programmable Logic Controller (PLC) programmed with a cycle counter and a dwell time parameter; providing a Human to Machine Interface (HMI) in communication with said PLC; providing a non-overloading main recirculation fan; providing a Variable Frequency Drive (VFD) motor which drives said non-overloading main recirculation fan according to an input from the PLC; using said non-overloading main recirculation fan to move said treated air; dividing said moving treated air into at least a first airstream and a second airstream; providing a first air discharge orifice directing said first airstream into the enclosure; providing a second air discharge orifice directing said second airstream into the enclosure; providing a first variable damper limiting said first airstream, said first variable damper capable of being positioned into at least four positions, including a first position, a second position, a third position, and a fourth position; providing a second variable damper limiting said second airstream, said second variable damper capable of being positioned into at least four positions, including a fifth position, a sixth position, a seventh position, and an eighth position; providing a first servo motor attached to and controlling position of said first variable damper; providing a second servo motor attached to and controlling position of said second variable damper; providing a first brake arresting the position of said first servo motor, said brake engaged when said first servo motor is not being directed to a new position; providing a second brake arresting the position of said second servo motor, said brake engaged when said second servo motor is not being directed to a new position; using said first servo motor to place said first variable damper into said first position and using said second servo motor to transition said second variable damper into said fifth position; causing said first airflow exiting said first air discharge orifice to converge with said second airflow exiting said second air discharge orifice at a first breakpoint location on a first side of the enclosure creating a combined turbulent third airflow extending perpendicular to said first side and which remains turbulent to at least the center of said enclosure; using said first servo motor to transition said first variable damper from said first position to said second position and using said second servo motor to transition said second variable damper from said fifth position to said sixth position thereby moving the airflow convergence location from said first breakpoint location to a second breakpoint location also located on said first side of said enclosure, and wherein said combined turbulent third airflow proceeds in a turbulent form from said second breakpoint location to at least the center of said enclosure; using said first servo motor to transition said first variable damper from said second position back to said first position and using said second servo motor to transition said second variable damper from said sixth position to said fifth position returning said second breakpoint location to said first breakpoint location; using said first servo motor to transition said first variable damper to said third position and using said second servo motor to transition said second variable damper into a seventh position causing said first airstream exiting said first air discharge orifice to converge with said second airstream exiting said second air discharge orifice at a third breakpoint located on a second opposite sidewall of the enclosure, and wherein said combined turbulent third airflow proceeds in a turbulent form from said third breakpoint location to at least the center of said enclosure; using said first servo motor to transition said first variable damper from said third position to said fourth position and using said second servo motor to transition said second variable damper from said seventh position to said eighth position moving the convergence location from said third breakpoint location to a fourth breakpoint location located on said second opposite sidewall of the enclosure, and wherein said combined turbulent third airflow proceeds in a turbulent form from said fourth breakpoint location to at least the center of said enclosure; using said first servo motor to transition said first variable damper from said fourth position back to said third position and using said second servo motor to transition said second variable damper from said eighth position back to said seventh position returning said fourth breakpoint location to said third breakpoint location; positioning said first servo motor according to signals delivered by said PLC; positioning said second servo motor according to signals delivered by said PLC; controlling the speed of said Variable Frequency Drive (VFD) motor via signals from said PLC to ensure said third turbulent airflow remains turbulent to the center of said enclosure; displaying the current positions of said first variable damper and said second variable damper on a display of said HMI; and holding said third turbulent airflow at one of said first breakpoint, said second breakpoint, said third breakpoint, or said fourth breakpoint for a length of time controlled by said dwell time parameter.
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Specification