초록 ▼

A fluid injector for an exhaust treatment system is disclosed. The fluid injector may have a body, a pin member, and a heater. The pin member may be disposed within the body and have a fluid receiving end and a fluid injecting end. The heater may be disposed about the fluid injecting end of the pin

A fluid injector for an exhaust treatment system is disclosed. The fluid injector may have a body, a pin member, and a heater. The pin member may be disposed within the body and have a fluid receiving end and a fluid injecting end. The heater may be disposed about the fluid injecting end of the pin member.

대표청구항 ▼

1. A fluid injector for use in an exhaust treatment system, comprising; a pin member defining an internal passageway, the pin member having a fluid receiving end and a fluid injecting end;a sleeve annularly surrounding the fluid injecting end of the pin member; anda heater disposed about the sleeve

1. A fluid injector for use in an exhaust treatment system, comprising; a pin member defining an internal passageway, the pin member having a fluid receiving end and a fluid injecting end;a sleeve annularly surrounding the fluid injecting end of the pin member; anda heater disposed about the sleeve at the fluid injecting end of the pin member, wherein the fluid injector is configured to permit fluid to flow: within the internal passageway of the pin member from the fluid receiving end of the pin member and exiting the fluid injector out of a first orifice located on the fluid injecting end of the pin member; andthrough a second passageway located between an exterior surface of the pin member and an interior surface of the sleeve from the fluid receiving end of the pin member and exiting the fluid injector out of a second orifice adjacent the first orifice, the second orifice being fluidly separated from the first orifice. 2. The fluid injector of claim 1, wherein the sleeve extends along a longitudinal axis of the pin member at least from the fluid injecting end to the fluid receiving end. 3. The fluid injector of claim 1, wherein a fluid received and injected by the fluid injector is diesel fuel. 4. The fluid injector of claim 1, wherein a fluid received and injected by the fluid injector is urea. 5. The fluid injector of claim 1, wherein the sleeve connects the heater to a body. 6. The fluid injector of claim 5, wherein the pin member, heater, and sleeve are retained in place by a mixing plate. 7. The fluid injector of claim 1, further including a heat shield surrounding the heater. 8. The fluid injector of claim 7, wherein the heat shield includes a protrusion configured to receive an electrical lead of the heater. 9. The fluid injector of claim 7, wherein an insulative air gap is maintained between the heater and the heat shield. 10. A fluid injector for an exhaust treatment system, comprising: a body;a first pin member disposed within the body, the first pin member configured to receive a fluid, wherein the body includes an annular chamber configured to receive a flow of coolant, the annular chamber being located at an axial location of the body about the first pin member;a sleeve connected to an end of the body; anda second pin member disposed within the sleeve and having a first end and a second end, the second pin member being in fluid communication with the first pin member on the first end, and an injection orifice on the second end to inject the received fluid, wherein a heater is disposed about the second pin member to heat the second pin member, the second pin member being axially separated from the annular chamber. 11. The fluid injector of claim 10, further including: a heat shield surrounding the second pin member to reduce thermal energy losses; anda cap member configured to close of an end of the heat shield, the cap member annularly surrounding the second pin member. 12. The fluid injector of claim 10, wherein a space is maintained between the first pin member and the second pin member. 13. The fluid injector of claim 10, wherein the first pin member contacts the body at only the axial location. 14. The fluid injector of claim 10, wherein the body, first pin member, sleeve, and second pin member are retained in place by a mixing plate. 15. The fluid injector of claim 14, further including a bellville washer disposed between the sleeve and the mixing plate. 16. An exhaust treatment system, comprising: a passageway connected to an engine to receive exhaust from the engine; andan injector configured to inject fluid into the exhaust within the passageway, wherein the injector includes: a body;a first pin member disposed within the body and defining a first internal passageway, wherein the body is configured to come into annular contact with a flow of coolant to cool the first pin member;a second pin member defining a second internal passageway, a proximal end of the second pin member configured to fluidly communicate with a distal end of the first pin member, wherein a longitudinal axis of the first internal passageway is parallel to a longitudinal axis of the second internal passageway, the second pin member having a fluid receiving end and a fluid injecting end;a sleeve annularly surrounding the fluid injecting end of the second pin member;wherein the injector is configured to permit fluid to flow: within the second internal passageway of the second pin member from the fluid receiving end and out the fluid injecting end; andbetween an exterior surface of the second pin member and an interior surface of the sleeve from the fluid receiving end and past the fluid injecting end; anda heater thermally coupled to the second pin member. 17. The exhaust treatment system of claim 16, wherein: the fluid received and injected by the fluid injector is diesel fuel; andthe exhaust is created by a diesel engine. 18. The exhaust treatment system of claim 16, wherein the longitudinal axis of the first internal passageway is coaxial with the longitudinal axis of the second internal passageway. 19. The exhaust treatment system of claim 16, wherein a heat shield is disposed about the heater. 20. The fluid injector of claim 16, wherein the second internal passageway of the second pin member terminates with a first orifice, and a third passageway defined between the exterior surface of the second pin member and the interior surface of the sleeve terminates with at least one second orifice distinct from the first orifice, the first orifice being located adjacent the at least one second orifice.