Methodology and apparatus to reduce fuel consumption in conveyor dryers and ovens

US 7,316,080 B1
Filed: 05/26/2005
Issued: 01/08/2008
Est. Priority Date: 05/27/2004
Status: Expired due to Fees

First Claim

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1. In a conveyor oven for heating a product,said conveyor oven having a conveyor with a conveying run extending from a heating section, through a transition section and into a cooling section, and a return run extending from said cooling section to said heating section,said heating section having a heating section housing having at least one heating element mounted therein and at least one heating section blower for circulating air through said heating section and past said heating element to heat the circulated air and creating an area of relatively positive pressure beneath said conveying run of said conveyor in said heating section,said cooling section having a cooling fan connected to a cooling section housing through an inlet in said cooling section housing for drawing-cooling air through said cooling section and creating an area of relatively low pressure beneath said conveying run of said conveyor in said cooling section,and said heating section is divided from said transition section by one or more baffles interposed between said transition section and said heating section and between said conveying run and said return run and wherein no heating elements and no means for circulating air through said transition section are incorporated into said transition section,the improvement comprising means connected to and extending through a housing for said transition section for introducing ambient air into said transition section between said conveying run and said return run to thereby increase the air pressure in said transition section relative to the air pressures in areas of said cooling section and of said heating section below said conveying run and proximate said transition section wherein the temperature of the air introduced into said transition section is lower than the temperature of the heated air in said drying section.

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Abstract

A method and apparatus for reducing fuel consumption in conveyor ovens by creating a barrier to the infiltration of heated air from a heating section of the oven into a cooling section of the oven thereby reducing the loss of heated air and reducing consumption of fuel otherwise required to maintain the selected oven temperature. The barrier is formed by directing a stream of pressurized air into a transition section between the heating and cooling sections of the oven.

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18 Claims

1. In a conveyor oven for heating a product,said conveyor oven having a conveyor with a conveying run extending from a heating section, through a transition section and into a cooling section, and a return run extending from said cooling section to said heating section,said heating section having a heating section housing having at least one heating element mounted therein and at least one heating section blower for circulating air through said heating section and past said heating element to heat the circulated air and creating an area of relatively positive pressure beneath said conveying run of said conveyor in said heating section,said cooling section having a cooling fan connected to a cooling section housing through an inlet in said cooling section housing for drawing-cooling air through said cooling section and creating an area of relatively low pressure beneath said conveying run of said conveyor in said cooling section,and said heating section is divided from said transition section by one or more baffles interposed between said transition section and said heating section and between said conveying run and said return run and wherein no heating elements and no means for circulating air through said transition section are incorporated into said transition section,the improvement comprising means connected to and extending through a housing for said transition section for introducing ambient air into said transition section between said conveying run and said return run to thereby increase the air pressure in said transition section relative to the air pressures in areas of said cooling section and of said heating section below said conveying run and proximate said transition section wherein the temperature of the air introduced into said transition section is lower than the temperature of the heated air in said drying section.
- View Dependent Claims (2, 3, 4)
- - 2. The apparatus of claim 1 wherein said means for introducing air comprises an auxiliary blower in communication with a conduit, said conduit in communication with said transition section and opening into said transition section below said conveying run and above said return run.
  - 3. The apparatus as in claim 1 wherein said means for introducing air comprises a nozzle extending into said transition section beneath and transverse to said conveying run and across a substantial portion of the width of said conveyor;
    - said nozzle having at least one air discharge opening formed therein and connected to an auxiliary blower mounted external to said transition section and connected to said nozzle by a conduit for supplying air through said nozzle and into said transition section.
  - 4. The apparatus as in claim 3 wherein said nozzle spans a substantial portion of the distance between a lower edge of a path of travel of said conveying run and an upper edge of a path of travel of said return run of said conveyor said air discharge opening of said nozzle opening toward said heating section such that air discharged therethrough diffuses in a direction opposite the direction of travel of said conveying run.

5. In a conveyor oven for heating a product, said conveyor oven having a conveyor with a conveying run extending from a heating section, through a transition section and into a cooling section, and a return run extending from said cooling section to said heating section, said heating section having at least one heating section blower for circulating heated air through said heating section and creating an area of relatively positive pressure beneath said conveying run of said conveyor in said heating section, said cooling section having a cooling fan for circulating cooling air through said cooling section and creating an area of relatively low pressure beneath said conveying run of said conveyor in said cooling section, the improvement comprising a diffuser extending into said transition section beneath said conveying run for introducing air into said transition section below said conveying run and above said return run;
- said diffuser connected to an auxiliary blower for supplying air through said diffuser and into said transition section; and
  
  wherein said diffuser comprises a duct having an air discharge opening formed therein facing said heating section and with an upper baffle extending above said duct and a lower baffle extending below said duct.

6. A method for minimizing the migration of heated air from a relatively positive pressure heating section of a conveyor oven to a relatively negative pressure cooling section which is separated from the heating section by a transition section, and in which product to be heated is conveyed on a continuous conveyor having a conveying run extending from said heating section through said transition section and into said cooling section, said heating section having a heating section housing having at least one heating element positioned therein with at least one heating section blower circulating air heated by said at least one heating element through said heating section;
- said cooling section having a cooling section housing and a cooling section blower connected to said cooling section housing for drawing air through said cooling section housing and venting said air out of said cooling section and the transition section having a transition section housing separating the transition section from said heating section and said cooling section wherein said transition section does not include a heating element located therein or a blower connected to said transition section housing for circulating heated air through said transition section, the method comprising the step of directing a stream of ambient air or a stream of air from an exhaust for said cooling section into said transition section and between said conveying run and a return run of said conveyor, and wherein said stream of air directed into said transition section is cooler than the heated air in said heating section.
- View Dependent Claims (7, 8, 9)
- - 7. The method as in claim 6 wherein said conveyor is porous and the step of directing the stream of air into the transition section further comprises directing the stream of air through a nozzle inserted between said conveying run and said return run of said conveyor and in a direction opposite said direction of travel of said conveying run.
  - 8. The method as in claim 7 further comprising the step of sizing said nozzle to extend across a substantial portion of said transition section.
  - 9. The method as in claim 7 wherein said step of directing said stream of air into said transition section comprises directing said stream of air toward said heating section and in a direction opposite the direction of travel of the conveying run.

10. A method for minimizing the migration of heated air within a conveyor oven having a continuous conveyer extending from a heating section, through a transition section and to a cooling section, the conveyor including a conveying run and an underlying return run, said heating section having at least one heating element and at least one heating section blower for circulating heated air through said heating section and past said heating element and wherein no heating elements are located in said transition section, the method comprising the step of inserting a diffuser, comprising a duct with at least one air discharge opening formed therein, into the transition section between the conveying run and the underlying return run and transverse to the path of travel of the conveying run and directing a stream of air through the diffuser and into the transition section to increase the pressure of said air in said transition section relative to said cooling section and wherein the stream of air is cooler than said air in the heating section.
- View Dependent Claims (11, 12, 13)
- - 11. The method as in claim 10 further comprising the step of positioning a baffle to project upward from said diffuser toward the conveying run.
  - 12. The method as in claim 10 further comprising the step of positioning a baffle to project downward from said diffuser toward the return run.
  - 13. The method as in claim 10 wherein the step of directing the stream of air includes directing the stream of air toward the heating section and in a direction opposite the direction of travel of the conveying run.

14. In a conveyor oven for heating a product,said conveyor oven having a conveying run extending from a heating section, through a transition section and thence into a cooling section,said heating section having at least one blower blowing heated air past said product on said conveying run,said cooling section having at least one fan drawing relatively cool air past said product on said conveying run,the improvement comprising a diffuser comprising a duct having at least one air discharge opening and extending into said conveyor oven and across a portion of said conveyor transverse to a direction of travel of said conveyor run, said diffuser flow connected to a source of pressurized air for directing a stream of air into said transition section to increase the air pressure in said transition section relative to the air pressures in said heating section and said cooling section, thereby reducing migration of heated air from said heated section to said cooling section.
- View Dependent Claims (15, 16)
- - 15. The conveyor oven as in claim 14 wherein said air discharge opening in said duct opens toward said heating section.
  - 16. The conveyor over as in claim 15 wherein said duct extends substantially across said transition section adjacent an entrance opening to said cooling section.

17. In a conveyor oven for heating a product,said conveyor oven having a conveyor with a conveying run extending from a heating section, through a transition section and into a cooling section, and a return run extending from said cooling section to said heating section,said heating section having a heating section housing having at least one heating element mounted therein and at least one heating section blower for circulating air through said heating section and past said heating element to heat the circulated air and creating an area of relatively positive pressure beneath said conveying run of said conveyor in said heating section,said cooling section having a cooling fan connected to a cooling section housing through an inlet in said cooling section housing for drawing cooling air through said cooling section and creating an area of relatively low pressure beneath said conveying run of said conveyor in said cooling section and exhausting said air drawn through said cooling section through a cooling section exhaust duct,and said heating section is divided from said transition section by one or more baffles interposed between said transition section and said heating section and between said conveying run and said return run and wherein no heating elements and no means for circulating air through said transition section are incorporated into said transition section,the improvement comprising means connected to and extending through a housing for said transition section for introducing exhaust air from said cooling section exhaust duct into said transition section between said conveying run and said return run to thereby increase the air pressure in said transition section relative to the air pressures in areas of said cooling section and of said heating section below said conveying run and proximate said transition section wherein the temperature of the air introduced into said transition section is lower than the temperature of the heated air in said drying section.
- View Dependent Claims (18)
- - 18. The apparatus of claim 17 wherein said means for introducing air comprises a nozzle connected to said cooling section exhaust duct and extending into said transition section beneath and transverse to said conveying run and across a substantial portion of the width of said conveyor;
    - said nozzle spans a substantial portion of the distance between a lower edge of a path of travel of said conveying run and an upper edge of a path of travel of said return run of said conveyor;
      
      said nozzle having at least one air discharge opening toward said heating section such that air discharged therethrough diffuses in a direction opposite the direction of travel of said conveying run.

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Current Assignee
Solution Dynamics, LLC
Original Assignee
Solution Dynamics, LLC
Inventors
Woolsey, Rick L.
Primary Examiner(s)
Lu; Jiping

Application Number

US11/138,558
Time in Patent Office

957 Days
Field of Search

344/43, 34507-510, 341/30, 342/09, 342/10, 342/12, 342/15, 342/16, 342/17, 342/18, 342/19, 34223-225, 342/41, 342/07, 342/31, 432121-123, 432126-128, 432143-146, 432152-155, 432/176, 432/199
US Class Current

34/509
CPC Class Codes

F26B 17/04 the belts being all horizon...

F26B 25/008 Seals, locks, e.g. gas barr...

Methodology and apparatus to reduce fuel consumption in conveyor dryers and ovens

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

33 Citations

18 Claims

Specification

Solutions

Use Cases

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Methodology and apparatus to reduce fuel consumption in conveyor dryers and ovens

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

33 Citations

18 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links