Thermoelectric humidity pump and method for dehumidfying of an electronic apparatus

US 5,884,486 A
Filed: 06/19/1997
Issued: 03/23/1999
Est. Priority Date: 06/19/1997
Status: Expired due to Fees

First Claim

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1. A thermoelectric humidity comprising:

a sealed thermoelectric cooler having in operation, a cool side and a warm side with a maintained temperature differential between the cool side and the warm side;

condensing means at the cool side of the cooler;

condensate evaporating means at the warm side of the cooler; and

condensate transfer means extending from the cool side to the warm side of the cooler for transfer of condensate from the cool side to the warm side of the cooler;

the condensate transfer means comprising a passage forming a water trap between the cool and warm sides of the cooler, the passage having an outlet on the warm side of the cooler and an inlet on the cool side of the cooler, the pump also comprising a condensate holding trough on the warm side of the cooler with the holding trough interconnected with the passage outlet and with the holding trough having a condensate overflow which is at a lower position than the passage inlet, and the condensate evaporating means comprising a plurality of upwardly extending porous evaporator fins which are heat conductively connected to the warm side of the cooler and have lower ends which extend into the trough to positions lower than the overflow to enable condensate, which has been transferred to the warm side of the cooler, to penetrate into pores of the evaporator fins by capillary action, whereby for evaporation of condensate to occur, heat is extracted from the warm side of the cooler.

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Abstract

The invention relates to apparatus and method for efficiently removing humidity from a chamber. A thermoelectric cooler with a maintained temperature differential between the cool and warm sides of the cooler is used to condense the humidity from within the chamber upon the cool side of the cooler. The condensate is transferred to the warm side of the cooler and then removed through the capillary penetration into a porous structure of an evaporator at the warm side of the cooler and further evaporation. During evaporation, the condensate extracts heat from the warm side of the cooler, the temperature of the cool side of the cooler being also decreased, which results in an increase of the overall efficiency of the apparatus.

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20 Claims

1. A thermoelectric humidity comprising:
- a sealed thermoelectric cooler having in operation, a cool side and a warm side with a maintained temperature differential between the cool side and the warm side;
  
  condensing means at the cool side of the cooler;
  
  condensate evaporating means at the warm side of the cooler; and
  
  condensate transfer means extending from the cool side to the warm side of the cooler for transfer of condensate from the cool side to the warm side of the cooler;
  
  the condensate transfer means comprising a passage forming a water trap between the cool and warm sides of the cooler, the passage having an outlet on the warm side of the cooler and an inlet on the cool side of the cooler, the pump also comprising a condensate holding trough on the warm side of the cooler with the holding trough interconnected with the passage outlet and with the holding trough having a condensate overflow which is at a lower position than the passage inlet, and the condensate evaporating means comprising a plurality of upwardly extending porous evaporator fins which are heat conductively connected to the warm side of the cooler and have lower ends which extend into the trough to positions lower than the overflow to enable condensate, which has been transferred to the warm side of the cooler, to penetrate into pores of the evaporator fins by capillary action, whereby for evaporation of condensate to occur, heat is extracted from the warm side of the cooler.
- View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 3. A pump according to claim 1, wherein said porous evaporator fins are made of sintered aluminium.
  - 4. A pump according to claim 1, wherein said porous evaporator fins are made of porous or sintered ceramic material.
  - 5. A pump according to claim 1, wherein the condensing means comprises a plurality of heat conductive condensing fins which are heat conductively connected to the cool side of the cooler.
  - 6. A pump according to claim 5, wherein the condensing fins have lower ends disposed in a localised region above the passage inlet with the fins extending, in laterally spaced positions, radially outwards from the localised region to direct condensate flow along the fins and to the passage inlet.
  - 7. A pump according to claim 6, wherein said condensing fins are covered with a plastic material having surface energy lower than water.
  - 8. A pump according to claim 7, wherein said plastic material is polytetrafluorethylene.
  - 9. A pump according to claim 1, provided with a cover extending over the warm side of the cooler and over the evaporating means, the cover provided with a plurality of air vents to enable moisturised air to pass out of the cover after evaporate.
  - 10. A pump according to claim 9, wherein the air vents are closed with a vapor permeable membrane, which is impermeable to foreign matter.
  - 11. A pump according to claim 10, wherein said membrane is made of expanded polytetrafluoroethylene.

2. An electronic apparatus comprising:
- a housing defining a chamber;
  
  electronic components mounted within the chamber;
  
  a thermoelectric humidity pump providing at least a part of a wall of the housing, the humidity pump comprising;
  
  a) a sealed thermoelectric cooler having, in operation a cool side facing into the chamber and a warm side facing outwardly from the chamber and from the housing, with a maintained temperature differential between the cool side and the warm side;
  
  b) condensing means at the cool side of the cooler and within the chamber;
  
  c) condensate evaporating means at the warm side of the cooler; and
  
  d) condensate transfer means extending from the cool side to the warm side of the cooler for transfer of condensate from the cool side and from within the chamber to the warm side of the cooler;
  
  the condensate transfer means comprising;
  
  a passage forming a water trap between the cool and warm sides of the cooler, the passage having an outlet on the warm side of the cooler and an inlet on the cool side of the cooler, the pump also comprising a condensate holding trough on the warm side of the cooler with the holding trough interconnected with the passage outlet and with the holding trough having a condensate overflow which is at a lower position than the passage inlet, and the condensate evaporating means comprising;
  
  a plurality of upwardly extending porous evaporator fins which are heat conductively connected to the warm side of the cooler and have lower ends which extend into the trough to positions lower than the overflow to enable condensate, which has been transferred to the warm side of the cooler, to penetrate into pores of the evaporator fins by capillary action, whereby for evaporation of condensate to occur, heat is extracted from the warm side of the cooler.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 12. An electronic apparatus according to claim 2, wherein said porous evaporator fins are made of sintered aluminium.
  - 13. An electronic apparatus according to claim 2, wherein said porous evaporator fins are made of porous or sintered ceramic material.
  - 14. An electronic apparatus according to claim 2, wherein the condensing means comprises a plurality of heat conductive condensing fins which are heat conductively connected to the cool side of the cooler.
  - 15. An electronic apparatus according to claim 14, wherein the condensing fins have lower ends disposed in a localised region above the passage inlet with the fins extending, in laterally spaced positions, radially outwards from the localised region to direct condensate flow along the fins and to the passage inlet.
  - 16. An electronic apparatus according to claim 15, wherein said condensing fins are covered with a plastic material having surface energy lower than water.
  - 17. An electronic apparatus according to claim 16, wherein said plastic material is polytetrafluorethylene.
  - 18. An electronic apparatus according to claim 2, provided with a cover extending over the warm side of the cooler and over the evaporating means, the cover provided with a plurality of air vents to enable moisturised air to pass out of the cover after evaporation.
  - 19. An electronic apparatus according to claim 18, wherein the air vents are closed with an vapor permeable membrane, which is impermeable to foreign matter.
  - 20. An electronic apparatus according to claim 19, wherein said membrane is made of expanded polytetrafluoroethylene.

Specification

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Current Assignee
Bell-Northern Research Ltd. (Nortel Networks Corporation)
Original Assignee
Northern Telecom Limited (Nortel Networks Corporation)
Inventors
Zapach, Trevor George, Song, Seaho, Hughes, Richard Pierre
Primary Examiner(s)
DOERRLER, WILLIAM CHARLES

Application Number

US08/878,796
Time in Patent Office

642 Days
Field of Search

62/3.2, 62/3.3, 62/3.4, 62/3.6, 62/92, 62/279, 62/281
US Class Current

62/3.4
CPC Class Codes

F24F 2003/144   by dehumidification only

F24F 5/0042   characterised by the applic...

F25B 21/02   using Peltier effect; using...

F25B 2321/0251   by a gas

F25D 21/14   Collecting or removing cond...

F25D 2321/142   characterised by droplet gu...

H05K 5/0212   Condensation eliminators

H05K 5/0213   Venting apertures; Construc...

Thermoelectric humidity pump and method for dehumidfying of an electronic apparatus

First Claim

1 Assignment

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Abstract

Citations

20 Claims

Specification

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Thermoelectric humidity pump and method for dehumidfying of an electronic apparatus

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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