Active fuel system bladder

US 6,360,729 B1
Filed: 07/20/2000
Issued: 03/26/2002
Est. Priority Date: 07/20/2000
Status: Expired due to Fees

First Claim

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1. A fuel storing device for a motor vehicle comprising:

an exterior shell;

a flexible bladder disposed in said exterior shell and separating said exterior shell into a fuel storage portion and a space portion, said flexible bladder capable of containing fuel;

a refueling pipe hermetically sealed to said exterior shell and coupled with said fuel storage portion;

a fuel delivery pump fluidically coupled with said fuel storage portion, said fuel delivery pump being external from said exterior shell;

a pressure sensor for monitoring pressure in said space portion;

an air temperature sensor;

an air pump coupled to said space portion capable of increasing the pressure within said space portion;

a vent solenoid relief valve coupled to said space portion for decreasing the pressure within said space portion; and

a controller electronically coupled to said pressure sensor, said air temperature sensor, said air pump and said vent solenoid relief valve, wherein said controller is capable of directing said air pump to pump air into said space portion to increase pressure in said space portion and is capable of directing said vent solenoid relief valve to open to decrease pressure in said space portion.

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Abstract

An active bladder system and method for using same minimizes vapor formation in a fuel tank. A low-permeation, flexible conductive bladder (18) is contained within a fuel tank (12). The bladder (18) holds or contains the liquid fuel (25) in the fuel tank (12). The bladder (18) has air pressure applied to the outside of the bladder (18) to keep the bladder (18) against the fuel (25) to prevent vapor formation during engine running modes and diurnal cycles. A fuel delivery pump (23), external to the fuel tank, pressurizes the fuel to a desired pressure for use by an engine. The system is depressurized during refueling stages. Because vapor generation is minimized during running mode and diurnal cycles, no carbon canister or purge system is required by the present invention, resulting in cost savings and lower emissions levels. The present invention is compatible with conventional fueling infrastructures and may reduce fuel pump (23) current draw due to positive pressure on the bladder (18) during running modes. An additional thermal barrier (14) is added to the outside of the fuel tank (12) to further prevent vapor formation.

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18 Claims

1. A fuel storing device for a motor vehicle comprising:
- an exterior shell;
  
  a flexible bladder disposed in said exterior shell and separating said exterior shell into a fuel storage portion and a space portion, said flexible bladder capable of containing fuel;
  
  a refueling pipe hermetically sealed to said exterior shell and coupled with said fuel storage portion;
  
  a fuel delivery pump fluidically coupled with said fuel storage portion, said fuel delivery pump being external from said exterior shell;
  
  a pressure sensor for monitoring pressure in said space portion;
  
  an air temperature sensor;
  
  an air pump coupled to said space portion capable of increasing the pressure within said space portion;
  
  a vent solenoid relief valve coupled to said space portion for decreasing the pressure within said space portion; and
  
  a controller electronically coupled to said pressure sensor, said air temperature sensor, said air pump and said vent solenoid relief valve, wherein said controller is capable of directing said air pump to pump air into said space portion to increase pressure in said space portion and is capable of directing said vent solenoid relief valve to open to decrease pressure in said space portion.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The fuel storing device of claim 1 further comprising a thermal barrier surrounding said exterior shell.
  - 3. The fuel storing device of claim 1, wherein said flexible bladder is substantially impervious to said fuel.
  - 4. The fuel storing device of claim 3, wherein said flexible bladder is comprised of polytetrafluoroethylene.
  - 5. The fuel storing device of claim 1, wherein said air pump is an electronic air pump.
  - 6. The fuel storing device of claim 1, wherein said air pump is a mechanical air pump.
  - 7. The fuel storing device of claim 1, wherein said flexible bladder has an inner portion, said inner portion substantially coupled to said fuel to prevent vapor generation within said flexible bladder during running modes and diurnal cycles.
  - 8. The fuel storing device of claim 1, wherein said refueling pipe having a vapor recirculation tube and vent valve, said vent valve capable of venting vapor pressure during a refueling process.

9. A method of eliminating vapor generation in a fuel tank having a flexible bladder contained within an exterior shell, where said exterior shell and said flexible bladder define a space portion and a fuel containing portion, the method comprising:
- selectively increasing the pressure in the space portion as a function of a first set of operating conditions;
  
  selectively decreasing the pressure in the space portion as a function of a second set of operating conditions; and
  
  selectively holding constant the pressure in the space portion as a function of a third set of operating conditions.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 10. The method according to claim 9, wherein the step of selectively increasing the pressure in the space portion as a function of a first set of operating conditions comprises the step of pumping air into the space portion from an air pump as a function of a first set of operating conditions.
  - 11. The method according to claim 10, wherein the step of pumping air into the space portion from an air pump as a function of a first set of operating conditions comprises the step of pumping air into the space portion from an air pump as a function of a fuel level within the flexible bladder, an engine operation mode, and a pressure level within the space portion.
  - 12. The method according to claim 11, wherein the step of pumping air into the space portion from an air pump as a function of a first set of operating conditions comprises the step of pumping air into the space portion from an air pump as a function of a fuel level within the flexible bladder and a pressure level within the space portion when an engine containing the fuel tank is in running mode.
  - 13. The method according to claim 9, wherein the step of selectively decreasing the pressure in the space portion as a function of a second set of operating conditions comprises the step of venting the space portion as a function of a second set of operating conditions.
  - 14. The method according to claim 13, wherein the step the step of venting the space portion as a function of a second set of operating conditions comprises the step of venting the space portion as a function of a fuel level within the flexible bladder, an engine operation mode, and a pressure level within the space portion.
  - 15. The method according to claim 14, wherein the step of venting the space portion as a function of a fuel level within the flexible bladder, an engine operation mode, and a pressure level within the space portion comprises the step of venting the space portion through a vent solenoid relief valve as a function of a fuel level within the flexible bladder and a pressure level within the space portion when an engine containing the fuel tank is in running mode.
  - 16. The method according to claim 13, wherein the step of selectively decreasing the pressure in the space portion as a function of a second set of operating conditions comprises the step of venting the space portion prior to replenishing the fuel tank with fuel.
  - 17. The method according to claim 14, wherein the step the step of venting the space portion prior to replenishing the fuel tank with fuel comprises the step of opening a vent solenoid relief valve to return the space portion to atmospheric pressure.
  - 18. The method according to claim 9, wherein the step of selectively holding constant the pressure in the space portion as a function of a third set of operating conditions comprises the step of holding constant the pressure in the space portion when an engine containing the fuel tank is not running.

Specification

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Litigation Campaign Assessment

Current Assignee
Ford Global Technologies, LLC (Ford Motor Company)
Original Assignee
Ford Global Technologies, LLC (Ford Motor Company)
Inventors
Ellsworth, Eric D.
Primary Examiner(s)
MILLER, CARL STUART

Application Number

US09/621,289
Time in Patent Office

614 Days
Field of Search

123/516, 123/519, 123/520, 123/521, 123/518, 123/198.D, 220/723, 220/721, 220/905, 220/4.14
US Class Current

123/518
CPC Class Codes

B60K 15/03 Fuel tanks chassis frame co...

B60K 15/03504 adapted to avoid loss of fu...

Active fuel system bladder

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

62 Citations

18 Claims

Specification

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Active fuel system bladder

First Claim

2 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

62 Citations

18 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links