Battery temperature regulation system

US 4,913,985 A
Filed: 02/21/1989
Issued: 04/03/1990
Est. Priority Date: 02/21/1989
Status: Expired due to Term

First Claim

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1. An enclosure for a controlling the ambient temperature of a battery utilizing a quantity of water for thermal transfer and thermal mass, said enclosure comprising:

a housing having a thermally insulated interior defining an internal cavity adapted to contain a battery;

a water container within the cavity in thermal contact with the battery;

a flat radiator with a hollow interior having a nearly horizontal orientation located proximate the housing above the level of the water container; and

warm supply and cold return conduits extending from the hollow interior of the radiator to the interior of the water container, the cold return conduit extending to a position within the water container relatively below the position to which the warm supply conduit extends so that water occupying the water container, the conduits and the hollow interior of the radiator circulates upwardly through the warm supply conduit, through the radiator and downwardly through the cold return conduit when the temperature of the water is above about 45 degrees Fahrenheit and the temperature of the radiator is less than the temperature of the water in the water container, and circulation of the water ceases below a water temperature of about 45 degrees Fahrenheit and when the temperature of the radiator is greater than the temperature of the water in the water container.

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Abstract

An enclosure for controlling the ambient temperature of a battery by utilizing a quantity of water for heat transfer and thermal mass is disclosed. A housing has a thermally insulated interior defining a cavity which contains the battery. A water container within the cavity is in thermal contact with the battery. A flat radiator with a hollow interior is located proximate the housing above the level of the water container, and has a nearly horizontal orientation. Warm supply and cold supply conduits extend from the hollow interior of the radiator to the interior of the water container. The cold supply conduit extends to a position within the water container relatively below the position to which the warm supply conduit extends.

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27 Claims

1. An enclosure for a controlling the ambient temperature of a battery utilizing a quantity of water for thermal transfer and thermal mass, said enclosure comprising:
- a housing having a thermally insulated interior defining an internal cavity adapted to contain a battery;
  
  a water container within the cavity in thermal contact with the battery;
  
  a flat radiator with a hollow interior having a nearly horizontal orientation located proximate the housing above the level of the water container; and
  
  warm supply and cold return conduits extending from the hollow interior of the radiator to the interior of the water container, the cold return conduit extending to a position within the water container relatively below the position to which the warm supply conduit extends so that water occupying the water container, the conduits and the hollow interior of the radiator circulates upwardly through the warm supply conduit, through the radiator and downwardly through the cold return conduit when the temperature of the water is above about 45 degrees Fahrenheit and the temperature of the radiator is less than the temperature of the water in the water container, and circulation of the water ceases below a water temperature of about 45 degrees Fahrenheit and when the temperature of the radiator is greater than the temperature of the water in the water container.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 2. The enclosure of claim 1 wherein the radiator is integral with the upper surface of the housing.
  - 3. The enclosure of claim 1 wherein the water container is flush with the battery.
  - 4. The enclosure of claim 3 wherein the water container surrounds the battery.
  - 5. The enclosure of claim 1 wherein the water container is constructed of flexible plastic material.
  - 6. The enclosure of claim 1 wherein the water container is unpressurized, and the water in the radiator is at a pressure less than atmospheric pressure.
  - 7. The enclosure of claim 1 wherein the interior cavity of the housing is adapted to contain a pair of batteries, and wherein the water container is at least partially located between the batteries and is flush with each said battery.
  - 8. The enclosure of claim 7 wherein the water container surrounds and extends between both said batteries.
  - 9. The enclosure of claim 1 wherein the radiator is inclined from horizontal so that the radiator has a high end and a low end.
  - 10. The enclosure of claim 9 wherein the warm supply and cold return conduits each include a metal fitting coupling each said conduit to the radiator, the cold return fitting being located proximate the low end of the radiator and the warm supply fitting being located intermediate the high and low ends of the radiator.
  - 11. The enclosure of claim 1 wherein the radiator includes upper and lower substantially flat, spaced plates circumferentially sealed to one another to form the hollow interior.
  - 12. The enclosure of claim 11 wherein the radiator includes a fill port to which suction is applied to draw water into the radiator through the warm supply and cold return conduits to fill the radiator, and means for sealing the fill port after the radiator has been filled with water to maintain the pressure of the water in the radiator at less than atmospheric pressure.
  - 13. The enclosure of claim 12 wherein one of the plates has projections extending to the other said plate to maintain the spacing between the plates.
  - 14. The enclosure of claim 11 wherein the plates are not connected to one another except at the peripheral seal to allow expansion of the space between the plates when the water freezes.
  - 15. The enclosure of claim 11 wherein the edge of one said plate is soldered to the other said plate to form the circumferential seal.

16. An enclosure for controlling the ambient temperature of a plurality of batteries utilizing a quantity of water for thermal transfer and thermal mass, said enclosure comprising:
- a housing having a thermally insulated interior defining an internal cavity adapted to contain a plurality of batteries, the upper portion of said housing including a pair of spaced plates forming a radiator with a hollow interior, said spaced plates being inclined from horizontal so that the radiator has a high end and a low end;
  
  a flexible water container within the cavity in thermal contact with each of the batteries; and
  
  warm supply and cold return conduits extending from the hollow interior of the radiator to the interior of the water container, the cold return conduit extending from proximate the low end of the radiator to a first position within the water container and the warm supply conduit extending from between the low and high ends of the radiator to a second position within the water container relatively above the first position so that water occupying the water container, the conduits and the hollow interior of the radiator circulates upwardly through the warm supply conduit, through the radiator and downwardly through the cold supply conduit when the temperature of the water is above about 45 degrees Fahrenheit and the temperature of the radiator is less than the temperature of the water in the water container, and circulation of the water ceases below a temperature of about 45 degrees Fahrenheit and when the temperature of the radiator is greater than the temperature of the water in the water container.
- View Dependent Claims (17, 18, 19, 20)
- - 17. The enclosure of claim 16 wherein the water container comprises an elongate plastic sleeve surrounding each of the batteries which is sealed at one end, and which has an opening at its opposite end above the level of the water, the warm supply and cold return conduits passing through said opening.
  - 18. The enclosure of claim 16 wherein one of the plates has a fill port to which suction is applied to draw water into the radiator through the warm supply and cold return conduits to fill the radiator, and means for sealing the fill port after the radiator has been filled with water to maintain the pressure of the water in the radiator at less than atmospheric pressure.
  - 19. The enclosure of claim 18 wherein one of the plates has projections extending to the other said plate to maintain the spacing between the plates.
  - 20. The enclosure of claim 19 wherein the spaced plates have a peripheral seal, and wherein the spaced plates are not connected to one another except at the peripheral seal to allow expansion of the space between the plates when the water freezes.

21. An enclosure for controlling the ambient temperature of a battery utilizing a quantity of water for thermal transfer and thermal mass, said enclosure comprising:
- a housing having a thermally insulated interior defining an internal cavity adapted to contain the battery, the upper portion of said housing including a pair of spaced plates peripherally sealed to one another and forming a radiator with a hollow interior, said spaced plates being inclined from horizontal so that the radiator has a high end and a low end;
  
  a flexible, unpressurized water container within the cavity surrounding and flush with the battery;
  
  warm supply and cold return conduits extending from the hollow interior of the radiator to the interior of the water container, the cold return conduit extending from proximate the low end of the radiator to a first position within the water container and the warm supply conduit extending from between the low and high ends of the radiator to a second position within the water container relatively above the first position;
  
  means attached to the radiator for applying suction to the hollow interior thereof to draw water upwardly through the warm supply and cold return conduits and into the radiator to charge the system; and
  
  means for sealing the suction means to maintain the pressure of the water in the radiator at less than atmospheric pressure, whereby water occupying the water container, the conduits and the hollow interior of the radiator circulates upwardly through the warm supply conduit, through the radiator and downwardly through the cold supply, when the temperature of the water is above about 45 degrees Fahrenheit and the temperature of the radiator is less than the temperature of the water in the water container, and circulation of the water ceases below its water temperature of about 45 degrees Fahrenheit and when the temperature of the radiator is greater than the temperature of the water in the water container.
- View Dependent Claims (22, 23, 24, 25, 26)
- - 22. The enclosure of claim 21 wherein the suction means comprises a fill port attached to one of the plates, and wherein the sealing means comprises a cap applied to the fill port.
  - 23. The enclosure of claim 21 wherein one of the plates has projections extending to the other said plate to maintain the spacing between the plates.
  - 24. The enclosure of claim 21 wherein the plates are not connected to one another except at the peripheral seal to allow expansion of the space between the plates when the water freezes.
  - 25. The enclosure of claim 21 wherein the interior cavity of the housing is adapted to contain a pair of batteries, and wherein the water container is at least partially located between the batteries and is flush with each said battery.
  - 26. The enclosure of claim 25 wherein the water container surrounds and extends between said batteries.

27. A method for controlling the ambient temperature of a battery comprising:
- providing a housing having a thermally insulated interior defining an internal cavity adapted to contain the battery;
  
  providing a flexible water container within the housing in thermal contact with the battery;
  
  providing a radiator including pair of spaced plates peripherally sealed and having a hollow interior;
  
  locating the spaced plates above the level of the water container proximate the housing and inclined from horizontal so that the radiator has a high end and a low end;
  
  extending warm supply and cold return conduits from the hollow interior of the radiator to the interior of the water container so that the cold return conduit extends from proximate the low end of the radiator to a first position within the water container, and the warm supply conduit extends from between the high and low ends of the radiator to a second position within the water container relatively above the first position;
  
  filling the fluid container with water;
  
  drawing the water upwardly through the warm supply and cold return conduits into the hollow interior of the radiator by applying suction to a fitting attached to the radiator; and
  
  sealing the fitting so that the water in the radiator is maintained at less than atmospheric pressure, whereby the water circulates upwardly through the warm supply conduit, through the radiator and downwardly through the cold return conduit when the temperature of the water is above about 45 degrees Fahrenheit and the temperature of the radiator is less than the temperature of the water in the water container, and circulation of the water ceases below a water temperature of about 45 degrees Fahrenheit and when the temperature of the radiator is greater than the temperature of the water in the water container.

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Current Assignee
Zomeworks
Original Assignee
Zomeworks
Inventors
Baer, Stephen C.
Primary Examiner(s)
Skapars, Anthony

Application Number

US07/313,684
Time in Patent Office

406 Days
Field of Search

429/50, 429/62, 429/71, 429/72, 429/120
US Class Current

429/50
CPC Class Codes

F28D 15/00   Heat-exchange apparatus wit...

H01M 10/613   Cooling or keeping cold

H01M 10/615   Heating or keeping warm

H01M 10/627   Stationary installations, e...

H01M 10/647   Prismatic or flat cells, e....

H01M 10/6551   Surfaces specially adapted ...

H01M 10/6557   arranged between the cells

H01M 10/6562   with free flow by convectio...

H01M 10/6567   Liquids

H01M 10/6568   characterised by flow circu...

H01M 10/658   by thermal insulation or sh...

Y02E 60/10   Energy storage using batteries

Battery temperature regulation system

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

31 Citations

27 Claims

Specification

Solutions

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Battery temperature regulation system

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

31 Citations

27 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links