Flat, multi-luminal tube for cross-flow-type indirect heat exchanger, having greater outer wall thickness towards side externally subject to corrosive inlet gas such as wet, salty air

US 4,570,700 A
Filed: 12/13/1983
Issued: 02/18/1986
Est. Priority Date: 01/10/1983
Status: Expired due to Term

First Claim

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1. In a heat exchanger flat tube for use in a cross-flow indirect heat exchanger:

(a) in which a corrosive vapor to be cooled is passed externally, transversally of the flat tube, while a fluid capable of absorbing heat conducted through an outer peripheral sidewall of the tube extending perimetrically of the tube is circulated longitudinally of the tube through longitudinal passageway means of the tube,(b) in which the tube is made of a metal having a relatively high heat conductivity, but one which is, over time, capable of being corrosively attacked by said vapor to such a degree as to eventually produce pinholes through said outer peripheral wall, at least at vapor inlet conditions to the heat exchanger,(c) in which said outer peripheral wall of the tube is constructed and arranged to have two opposite relatively broad faces and two opposite narrow edges, and(d) in which said tube is constructed and arranged to have one of said narrow edges be a leading edge thereof as respects said vapor inlet,the improvement wherein;

said outer peripheral wall of said tube is substantially thicker over a portion thereof which includes all of said leading edge and respective adjoining parts of said opposite faces, than it is over the remainder thereof.

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Abstract

A transversally corrugated multi-luminal flat tube for circulating the refrigerant of an evaporator for an automotive air conditioner in indirect heat exchange relation with air is provided with one laterally marginal portion, being the one which faces inlet air flow in a transverse cross-flow system, that is so thick-walled about its outer perimeter, that inlet air, which is corrosive because it contains moisture and salt, will be prevented for a sufficiently long time from corroding pinholes through that part of the tube, the remaining part of the outer periphery of the flat tube, because it is less subject to corrosive attack being thinner walled, so as to maximize durability and mass flow rate, while minimizing weight and cost.

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20 Claims

1. In a heat exchanger flat tube for use in a cross-flow indirect heat exchanger:
- (a) in which a corrosive vapor to be cooled is passed externally, transversally of the flat tube, while a fluid capable of absorbing heat conducted through an outer peripheral sidewall of the tube extending perimetrically of the tube is circulated longitudinally of the tube through longitudinal passageway means of the tube,(b) in which the tube is made of a metal having a relatively high heat conductivity, but one which is, over time, capable of being corrosively attacked by said vapor to such a degree as to eventually produce pinholes through said outer peripheral wall, at least at vapor inlet conditions to the heat exchanger,(c) in which said outer peripheral wall of the tube is constructed and arranged to have two opposite relatively broad faces and two opposite narrow edges, and(d) in which said tube is constructed and arranged to have one of said narrow edges be a leading edge thereof as respects said vapor inlet,the improvement wherein;
  
  said outer peripheral wall of said tube is substantially thicker over a portion thereof which includes all of said leading edge and respective adjoining parts of said opposite faces, than it is over the remainder thereof.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The improved heat exchanger flat tube of claim 1, wherein:
    - said longitudinal passageway means is divided internally of said tube by longitudinally extending wall means into a single, transversally extending series of a plurality of side-by-side longitudinal passageways.
  - 3. The improved heat exchanger flat tube of claim 2, wherein:
    - said wall means are integrally formed with said outer peripheral wall.
  - 4. The improved heat exchanger flat tube of claim 2, wherein:
    - said tube is transversally corrugated about axis at least generally parallel to said broad faces, so as to have two oppositely opening, longitudinally extending series of troughs defined externally thereon; and
      
      fin means externally secured on each broad face of said tube in each said trough, such fin means being constructed and arranged to divide said trough into a plurality of vapor flow passageways defining at opposite ends thereof said vapor inlet and a vapor outlet.
  - 5. The improved heat exchanger flat tube of claim 4, wherein:
    - said tube is made of an aluminum alloy;
      
      said broad faces are each about 100 mm to about 200 mm broad;
      
      said tube has a thickness from one said broad face to the other of about 3 mm to about 10 mm;
      
      said outer peripheral wall of said tube has a thickness of 0.3 mm to 1.5 mm in said thicker portion thereof, and a thickness of 0.2 mm to 1.0 mm in said remainder thereof; and
      
      said thicker portion extends throughout less than half the breadth of each said broad face thereof.
  - 6. The improved heat exchanger flat tube of claim 5, wherein:
    - said thickened portion extends throughout at least 5 mm of the breadth of each said broad face.
  - 7. The improved heat exchanger flat tube of claim 5, wherein:
    - said outer peripheral wall of said tube is thickened on said thicker portion substantially entirely by being internally thickened, with external thickness of said tube remaining substantially constant across said tube corresponding both to where said thickened portion and remainder of said outer peripheral wall are located.
  - 8. The improved heat exchanger flat tube of claim 7, wherein:
    - said wall means are spaced further apart where they extend between corresponding sites on said thickened portion of said outer peripheral wall than where they extend between corresponding sites on said remainder of said outer peripheral wall, by amounts such as to provide all said longitudinal passageways with at least approximately equal transverse cross-sectional areas.
  - 9. The improved heat exchanger flat tube of claim 2, wherein:
    - said outer peripheral wall of said tube is thickened in said thicker portion substantially entirely by being internally thickened, with external thickness of said tube remaining substantially constant across said tube corresponding both to where said thickened portion and remainder of said outer peripheral wall are located.
  - 10. The improved heat exchanger flat tube of claim 9, wherein:
    - said wall means are spaced further apart where they extend between corresponding sites on said thickened portion of said outer peripheral wall than where they extend between corresponding sites on said remainder of said outer peripheral wall, by amounts such as to provide all said longitudinal passageways with at least approximately equal transverse cross-sectional areas.

11. In a cross-flow indirect heat exchanger including at least one flat tube constructed and arranged to have a corrosive vapor to be cooled passed externally, transversally of the tube, while a fluid capable of absorbing heat conducted through an outer peripheral sidewall extending perimetrically of the flat tube is circulated longitudinally of the tube through longitudinal passageway means of the tube, the tube being made of a metal having a relatively high heat conductivity but being capable, over time, of being corrosively attacked by said vapor to such a degree as to eventually produce pinholes through said outer peripheral wall, at least at vapor inlet conditions to the heat exchanger, said heat exchanger being so constructed and arranged that said tube has two opposite relatively broad faces and two opposite narrow edges with one of said narrow edges being presented as a leading edge as respects said vapor inlet,the improvement wherein:
- said outer peripheral wall of said tube is substantially thicker over a portion thereof which includes all of said leading edge and respective adjoining parts of said opposite faces, than it is over the remainder thereof.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 12. The improved heat exchanger of claim 11, wherein:
    - said longitudinal passageway means is divided internally of said tube by longitudinally extending wall means into a single, transversally extending series of a plurality of side-by-side longitudinal passageways.
  - 13. The improved heat exchanger of claim 12, further including:
    - said longitudinal passageways opening at opposite ends of said tube respectively into a cooling fluid inlet manifold and a cooling fluid outlet manifold secured with said tube.
  - 14. The improved heat exchanger of claim 13, wherein:
    - said tube is transversally corrugated about axis at least generally parallel to said broad faces, so as to have two oppositely opening, longitudinally extending series of troughs defined externally thereon; and
      
      fin means externally secured on each broad face of said tube in each said trough, such fin means being constructed and arranged to divide said trough into a plurality of vapor flow passageways defining at opposite ends thereof said vapor inlet and a vapor outlet.
  - 15. The improved heat exchanger of claim 14, wherein:
    - said tube is made of an aluminum alloy;
      
      said broad faces are each about 100 mm to about 200 mm broad;
      
      said tube has a thickness from one said broad face to the other of about 3 mm to about 10 mm;
      
      said outer peripheral wall of said tube has a thickness of 0.3 mm to 1.5 mm in said thicker portion thereof, and a thickness of 0.2 mm to 1.0 mm in said remainder thereof; and
      
      said thicker portion extends throughout less than half the breadth of each said broad face thereof.
  - 16. The improved heat exchanger of claim 15, wherein:
    - said thickened portion extends throughout at least 5 mm of the breadth of each said broad face.
  - 17. The improved heat exchanger of claim 15, wherein:
    - said outer peripheral wall of said tube is thickened on said thicker portion substantially entirely by being internally thickened, with external thickness of said tube remaining substantially constant across said tube corresponding both to where said thickened portion and remainder of said outer peripheral wall are located.
  - 18. The improved heat exchanger of claim 17, wherein:
    - said wall means are spaced further apart where they extend between corresponding sites on said thickened portion of said outer peripheral wall than where they extend between corresponding sites on said remainder of said outer peripheral wall, by amounts such as to provide all said longitudinal passageways with at least approximately equal transverse cross-sectional areas.
  - 19. The improved heat exchanger of claim 12, wherein:
    - said outer peripheral wall of said tube is thickened on said thicker portion substantially entirely by being internally thickened, with external thickness of said tube remaining substantially constant across said tube corresponding both to where said thickened portion and remainder of said outer peripheral wall are located.
  - 20. The improved heat exchanger of claim 19, wherein:
    - said wall means are spaced further apart where they extend between corresponding sites on said thickened portion of said outer peripheral wall than where they extend between corresponding sites on said remainder of said outer peripheral wall, by amounts such as to provide all said longitudinal passageways with at least approximately equal transverse cross-sectional areas.

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Litigation Campaign Assessment

Current Assignee
Nippondenso Co., Ltd. (DENSO Corporation)
Original Assignee
Nippondenso Co., Ltd. (DENSO Corporation)
Inventors
Yamauchi, Yoshiyuki, Ohara, Toshio, Fukumi, Sigenobu
Primary Examiner(s)
Richter, Sheldon J.

Application Number

US06/560,977
Time in Patent Office

798 Days
Field of Search

165/134, 165/146, 165/147, 165/170, 165/172, 165/177, 165/DIG. 9, 165/DIG. 13
US Class Current

165/134.1
CPC Class Codes

F25B 39/02   Evaporators

F28D 1/0391   a single plate being bent t...

F28D 1/0478   the conduits having a non-c...

F28F 1/02   Tubular elements of cross-s...

F28F 1/022   with multiple channels

Y10S 165/906   Reinforcement

Flat, multi-luminal tube for cross-flow-type indirect heat exchanger, having greater outer wall thickness towards side externally subject to corrosive inlet gas such as wet, salty air

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

99 Citations

20 Claims

Specification

Solutions

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Flat, multi-luminal tube for cross-flow-type indirect heat exchanger, having greater outer wall thickness towards side externally subject to corrosive inlet gas such as wet, salty air

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

99 Citations

20 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links