Claims
- 1. An intake manifold for mounting to an internal combustion engine comprising:a lower shell defining a plurality of longitudinally spaced shell ports, each of said ports being adapted for installation over a corresponding intake port for an engine cylinder head; an upper shell including a plurality of runners for guiding air to said shell ports; a middle shell sandwiched between said lower and upper shells and including a plurality of channels for interconnecting said runners and said shell ports; a plurality of fuel injector pockets formed within said upper, middle, and lower shells with each of said pockets having an injector opening in communication with said corresponding shell port; and an internal fuel rail formed between said upper and middle shells for supplying fuel to each of said injector pockets.
- 2. An intake manifold according to claim 1 wherein said injector pockets have an upper opening in communication with said fuel rail.
- 3. An intake manifold according to claim 2 including a plurality of fuel injectors wherein one of said injectors is received into one of said injector pockets such that said injectors are substantially enclosed within said upper, middle, and lower shells.
- 4. An intake manifold according to claim 3 wherein one of said injector pockets is formed adjacent to each one of said runners.
- 5. An intake manifold according to claim 3 including an internal wire harness rail formed between said upper and middle shells for supporting a wire harness that electrically connects each of said injectors to a power supply.
- 6. An intake manifold according to claim 5 including an external wire port defined on one side of said middle shell through which said wire harness is connected to the power supply.
- 7. An intake manifold according to claim 2 including an external fuel port defined on one side of said middle shell to which an external fuel supply member is connected for supplying fuel to said fuel rail.
- 8. An intake manifold for mounting to an internal combustion engine comprising:a lower shell defining a plurality of longitudinally spaced shell ports, each of said ports being adapted for installation over a corresponding intake port for an engine cylinder head; an upper shell including a plurality of runners for guiding air to said shell ports; a middle shell sandwiched between said lower and upper shells and including a plurality of channels for interconnecting said runners and said shell ports; a plurality of fuel injector pockets formed within said upper, middle, and lower shells with each of said pockets having an injector opening in communication with said corresponding shell port; a plurality of fuel injectors wherein one of said injectors is received into each one of said injector pockets; and an internal wire harness rail formed between said upper and middle shells for supporting a wire harness that electrically connects each of said injectors to a power supply.
- 9. An intake manifold according to claim 8 wherein said fuel injectors are substantially enclosed within said upper, middle, and lower shells.
- 10. An intake manifold according to claim 8 including a fuel rail formed between said upper and middle shells for supplying fuel to each of said injector pockets.
- 11. An intake manifold according to claim 10 wherein said injector pockets have an upper opening in communication with said fuel rail.
- 12. An intake manifold according to claim 11 including an external fuel port defined on one side of said middle shell to which an external fuel supply member is connected for supplying fuel to said fuel rail.
- 13. An intake manifold according to claim 8 including an external wire port defined on one side of said middle shell through which said wire harness is connected to the power supply.
- 14. A method for assembling an air intake manifold comprising the steps of:providing an upper shell with an plurality of upper fuel injector pocket portions, a middle shell with a plurality of middle fuel injector pocket portions, and a lower shell with a plurality of lower fuel injector pocket portions; installing a wire harness assembly between the upper and middle shells; connecting the upper shell to the middle shell such that the upper fuel injector pocket portions are aligned with the middle fuel injector pocket portions; connecting the lower shell to the middle shell such that the middle fuel injector pocket portions are aligned with the lower fuel injector pocket portions to form a plurality of fuel injector pockets that extend through the upper, middle, and lower shells; installing a fuel injector into each of the injector pockets to form a manifold and injector subassembly.
- 15. A method according to claim 14 wherein the lower shell includes a plurality of shell ports in communication with the injector pockets and including the step of inserting the fuel injector into the injector pocket via the corresponding shell port.
- 16. A method according to claim 15 including the step of mounting the manifold and injector subassembly to an internal combustion engine.
- 17. A method according to claim 16 including the step of aligning each one of the shell ports with a corresponding engine cylinder head port.
- 18. A method according to claim 14 including the step of providing an internal fuel rail extending longitudinally between the upper and middle shells for supplying fuel to the injector pockets.
- 19. A method according to claim 14 including the step of connecting the fuel injector to the wiring harness subsequently to connection the upper shell to the middle shell and the lower shell to the middle shell.
Parent Case Info
The present application claims priority to provisional application Ser. No. 60/166,399 filed on Nov. 18, 1999 and to provisional application Ser. No. 60/205,732 filed on May 19, 2000.
US Referenced Citations (22)
Provisional Applications (2)
|
Number |
Date |
Country |
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60/166399 |
Nov 1999 |
US |
|
60/205732 |
May 2000 |
US |