Chemical cooling of airbag inflation gases

US 6,095,559 A
Filed: 07/23/1998
Issued: 08/01/2000
Est. Priority Date: 07/23/1998
Status: Expired due to Fees

First Claim

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1. An assembly for use in cooling a hot gas, said assembly comprising:

an axially elongated coolant chamber containing a mass of a chemical coolant solid, said coolant chamber including at least one gas entrance opening and a plurality of radially distributed gas exit orifices, the chemical coolant being endothermically reactable with the hot gas to cool the hot gas and to form at least one gaseous endothermic reaction product, the mass of the chemical coolant solid being reduced when a sufficient quantity of heat is absorbed thereby, anda member interposed between the at least one gas entrance opening and the mass of chemical coolant, said member being permeable to the hot gas to permit passage of the hot gas therethrough to contact the chemical coolant, said member also being movable to cooperate with said coolant chamber to maintain a compressive force on the chemical coolant as the chemical coolant endothermically reacts and the mass thereof is reduced,with the cooled hot gas passing from said coolant chamber through the radially distributed gas exit orifices.

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Abstract

Assemblies and methods are provided for cooling a hot gas utilizing a solid chemical coolant wherein the mass of coolant is maintained to avoid the creation of flow passageways, channels or the like therethrough which may otherwise serve to avoid or reduce either or both the amount and extent of contact between coolant and hot gas.

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20 Claims

1. An assembly for use in cooling a hot gas, said assembly comprising:
- an axially elongated coolant chamber containing a mass of a chemical coolant solid, said coolant chamber including at least one gas entrance opening and a plurality of radially distributed gas exit orifices, the chemical coolant being endothermically reactable with the hot gas to cool the hot gas and to form at least one gaseous endothermic reaction product, the mass of the chemical coolant solid being reduced when a sufficient quantity of heat is absorbed thereby, anda member interposed between the at least one gas entrance opening and the mass of chemical coolant, said member being permeable to the hot gas to permit passage of the hot gas therethrough to contact the chemical coolant, said member also being movable to cooperate with said coolant chamber to maintain a compressive force on the chemical coolant as the chemical coolant endothermically reacts and the mass thereof is reduced,with the cooled hot gas passing from said coolant chamber through the radially distributed gas exit orifices.
- View Dependent Claims (2, 3, 4)
- - 2. The assembly of claim 1 wherein said coolant chamber is axially elongated and said member is disc-shaped and axially movable within the elongated coolant chamber.
  - 3. The assembly of claim 2 wherein said coolant chamber includes a wall portion comprising a gas permeable material.
  - 4. The assembly of claim 1 wherein said permeable member comprises a plurality of discrete points for the passage of gas therethrough.

5. An assembly for use in cooling a hot gas, said assembly comprising:
- a coolant chamber containing a mass of a chemical coolant solid, said coolant chamber including at least one gas entrance opening and at least one gas exit orifice, the chemical coolant being endothermically reactable with the hot gas to cool the hot gas and to form at least one gaseous endothermic reaction product, the mass of the chemical coolant solid being reduced when a sufficient quantity of heat is absorbed thereby, anda member interposed between the at least one gas entrance opening and the mass of chemical coolant, said member being permeable to the hot gas to permit passage of the hot gas therethrough to contact the chemical coolant, said member also being movable to cooperate with said coolant chamber to maintain a compressive force on the chemical coolant as the chemical coolant endothermically reacts and the mass thereof is reduced,with the cooled hot gas passing from said coolant chamber through the at least one gas exit orifice,wherein said coolant chamber is in the form of an axially elongated tube and said member is axially concentrically aligned with the tube to form an elongated annular chemical coolant storage volume between said member and the tube.
- View Dependent Claims (6, 7)
- - 6. The assembly of claim 5 wherein said member comprises a sleeve that radially expands to maintain a compressive force on the chemical coolant as the chemical coolant endothermically reacts and the mass thereof is reduced.
  - 7. The assembly of claim 6 wherein said sleeve comprises an overlapping rolled up perforated metal sheet.

8. An inflator assembly comprising:
- a gas generating chamber wherein a hot gas is generated, said gas generating chamber having at least one gas exit opening and, upon actuation, said gas generating chamber emitting generated hot gas through the at least one gas exit opening; and
  
  a chemical coolant assembly in fluid communication with the generated hot gas emitted from said gas generating chamber, said chemical coolant assembly including an axially elongated coolant chamber containing a mass of a chemical coolant solid and including at least one gas entrance opening and a plurality of radially distributed gas exit orifices, the chemical coolant being endothermically reactable with the generated hot gas to cool the generated hot gas and to form at least one gaseous endothermic reaction product, the mass of the chemical coolant being reduced when a sufficient quantity of heat is absorbed thereby, said chemical coolant assembly also including a member interposed between the at least one gas entrance opening and the chemical coolant, the member being permeable to the generated hot gas to permit passage of the generated hot gas therethrough to contact the chemical coolant, the member also being movable to cooperate with the coolant chamber to maintain a compressive force on the chemical coolant as the chemical coolant endothermically reacts and the mass thereof is reduced, with the cooled generated hot gas passing from the coolant chamber through the radially distributed gas exit orifices.
- View Dependent Claims (9, 10, 11)
- - 9. The assembly of claim 8 wherein said coolant chamber is axially elongated and said member is disc-shaped and axially movable within the elongated coolant chamber.
  - 10. The assembly of claim 9 wherein said coolant chamber includes a wall portion comprising a gas permeable material.
  - 11. The assembly of claim 8 wherein said permeable member comprises a plurality of discrete points for the passage of gas therethrough.

12. An inflator assembly comprising:
- a gas generating chamber wherein a hot gas is generated, said gas generating chamber having at least one gas exit opening and, upon actuation, said gas generating chamber emitting generated hot gas through the at least one gas exit opening; and
  
  a chemical coolant assembly in fluid communication with the generated hot gas emitted from said gas generating chamber, said chemical coolant assembly including a coolant chamber containing a mass of a chemical coolant solid and including at least one gas entrance opening and at least one gas exit orifice, the chemical coolant being endothermically reactable with the generated hot gas to cool the generated hot gas and to form at least one gaseous endothermic reaction product, the mass of the chemical coolant being reduced when a sufficient quantity of heat is absorbed thereby, said chemical coolant assembly also including a member interposed between the at least one gas entrance opening and the chemical coolant, the member being permeable to the generated hot gas to permit passage of the generated hot gas therethrough to contact the chemical coolant, the member also being movable to cooperate with the coolant chamber to maintain a compressive force on the chemical coolant as the chemical coolant endothermically reacts and the mass thereof is reduced, with the cooled generated hot gas passing from the coolant chamber through the at least one gas exit orifice,wherein said coolant chamber is in the form of an axially elongated tube and said member is axially concentrically aligned with the tube to form an elongated annular chemical coolant storage volume between said member and the tube.
- View Dependent Claims (13, 14)
- - 13. The assembly of claim 12 wherein said member comprises a sleeve that radially expands to maintain a compressive force on the chemical coolant as the chemical coolant endothermically reacts and the mass thereof is reduced.
  - 14. The assembly of claim 13 wherein said sleeve comprises an overlapping rolled up perforated metal sheet.

15. A method of providing a cooled gas, said method comprising the steps of:
- passing a quantity of hot gas through a permeable member and into contact with a mass of a chemical coolant solid contained within an axially elongated coolant chamber and which coolant chamber includes a plurality of radially distributed gas exit orifices, the chemical coolant solid being endothermically reactable with the hot gas to cool the hot gas and to form at least one gaseous endothermic reaction product, the size of the mass of the chemical coolant being reduced when a sufficient quantity of heat is absorbed thereby,compressing the chemical coolant between the movable member and the coolant chamber as the size of the chemical coolant solid mass is reduced, anddischarging a quantity of the cooled gas from the coolant chamber through the radially distributed gas exit orifices.
- View Dependent Claims (16, 17, 18)
- - 16. A method of inflating an airbag cushion, said method comprising:
    - generating a hot gas,cooling the hot gas by the method of claim 15 andpassing the cooled hot gas into the airbag cushion.
  - 17. The method of claim 15 wherein the coolant chamber is axially elongated and said compressing step comprises axially moving the movable member within the coolant chamber.
  - 18. A method of inflating an airbag cushion, said method comprising:
    - generating a hot gas,cooling the hot gas by the method of claim 17 andpassing the cooled hot gas into the airbag cushion.

19. A method of cooling a hot gas, said method comprising the steps of:
- passing a quantity of hot gas through a permeable member and into contact with a mass of a chemical coolant solid contained within a coolant chamber, the chemical coolant being endothermically reactable with the hot gas to cool the hot gas and to form at least one gaseous endothermic reaction product, the size of the mass of the chemical coolant being reduced when a sufficient quantity of heat is absorbed thereby, andcompressing the chemical coolant between the movable member and the coolant chamber as the size of the chemical coolant solid mass is reduced,wherein the coolant chamber is axially elongated and said compressing step comprises radially expanding the movable member within the coolant chamber.
- View Dependent Claims (20)
- - 20. A method of inflating an airbag cushion, said method comprising:
    - generating a hot gas,cooling the hot gas by the method of claim 19 andpassing the cooled hot gas into the airbag cushion.

Specification

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Current Assignee
Autoliv ASP Incorporated (Autoliv Incorporated)
Original Assignee
Autoliv ASP Incorporated (Autoliv Incorporated)
Inventors
Smith, Bradley W., Larsen, Alan R.
Primary Examiner(s)
Dickson, Paul N.

Application Number

US09/121,570
Time in Patent Office

740 Days
Field of Search

280/736, 280/741, 102/530, 102/531, 102/704
US Class Current

280/741
CPC Class Codes

B60R 21/2644   using only solid reacting s...

C06B 23/04   for cooling the explosion g...

C06D 5/06   by reaction of two or more ...

Y10S 102/704   Coolants

Chemical cooling of airbag inflation gases

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

112 Citations

20 Claims

Specification

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Chemical cooling of airbag inflation gases

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

112 Citations

20 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links