Injector method of switching between injection state and drain state

We claim: 1. An injector, comprising: an injector body comprising an inlet passage configured to receive fluid from an inlet port at the injector body, at least one injection outlet configured to deliver fluid, and a central bore; a needle valve disposed for reciprocal movement within the central bore between a closed position and an opened position, the needle valve comprising an armature, a valve tip and an elongated body between the armature and the valve tip; and an actuator configured to move the needle valve between the closed position wherein a first portion of a surface of the valve tip engages a first portion of a surface of the injector body to form a first seal that inhibits flow through the at least one injection outlet, and the opened position wherein a second portion of the surface of the valve tip engages a second portion of the surface of the injector body to form a second seal that inhibits flow through a drain outlet, and the inlet port is positioned longitudinally intermediate the drain outlet and the at least one injection outlet. 2. The injector of claim 1 , wherein the first portion of the surface of the injector body and the second portion of the surface of the injector body are formed on a single integral piece. 3. The injector of claim 1 , wherein the injector body further includes a delivery head, the delivery head defining the at least one injection outlet. 4. The injector of claim 3 , wherein the first portion of the surface of the injector body is formed on an upper surface of a lower seat of the delivery head. 5. The injector of claim 4 , wherein the injector body further includes a flow control plate positioned longitudinally above the lower seat of the delivery head. 6. The injector of claim 5 , wherein the second portion of the surface of the injector body is formed along a lower surface of the flow control plate. 7. The injector of claim 5 , wherein the flow control plate includes an intermediate passage in fluid communication with an inlet chamber positioned between the delivery head and the injector body and the at least one injection outlet. 8. The injector of claim 7 further including an inlet chamber, the inlet chamber being positioned between the flow control plate and the injector body, and an outlet chamber, the outlet chamber being positioned between the flow control plate and the delivery head. 9. The injector of claim 8 , wherein a top of the inlet chamber is longitudinally below a bottom of the inlet passage. 10. The injector of claim 8 , wherein a bottom of the outlet chamber is longitudinally below a bottom of the inlet passage. 11. The injector of claim 1 further including a spring positioned between the actuator and the armature to bias the needle valve toward the closed position. 12. The injector of claim 1 , wherein the actuator is mounted to the injector body via a clamp. 13. An injector, comprising: an injector body comprising an inlet passage configured to receive fluid from an inlet port at the injector body, a drain outlet, at least one injection outlet configured to deliver fluid, and a central bore, and the inlet port is positioned longitudinally intermediate the drain outlet and the at least one injection outlet; a needle valve disposed for reciprocal movement within the central bore between a closed position and an opened position, the needle valve comprising a plunger head, a valve tip and an elongated body between the plunger head and the valve tip; and an actuator configured to move the needle valve between the closed position wherein an angled upper surface of the valve tip engages an angled lower surface of the injector body to form a first seal that inhibits flow through the at least one injection outlet, and the opened position wherein an angled lower surface of the plunger head engages an angled upper surface of the injector body to form a second seal that inhibits flow through the drain outlet. 14. The injector of claim 13 , wherein the injector body further includes a delivery head. 15. The injector of claim 14 , wherein the at least one injection outlet is formed between the delivery head and at least one of the valve tip and the injector body. 16. The injector of claim 13 , wherein the needle valve further includes an enlarged portion between the plunger head and the valve tip. 17. The injector of claim 16 further including a spring positioned between the enlarged portion and the valve tip to bias the needle valve toward the closed position. 18. An injector, comprising: an injector body comprising an inlet passage configured to receive fluid from an inlet port at the injector body, a drain outlet, at least one injection outlet configured to deliver fluid, and a central bore, and the inlet port is positioned longitudinally intermediate the drain outlet and the at least one injection outlet; a needle valve disposed for reciprocal movement within the central bore between a closed position and an opened position, the needle valve comprising a piston, a valve tip and an elongated body between the piston and the valve tip; and an actuator mounted to the injector body, the actuator being configured to move the needle valve between the closed position wherein an angled lower surface of the valve tip engages an angled upper surface of the injector body to form a first seal that inhibits flow through the at least one injection outlet, and the opened position wherein an angled upper surface of the piston engages an angled lower surface of the injector body to form a second seal that inhibits flow through the drain outlet. 19. The injector of claim 18 further comprising a spring positioned between the piston and the injector body to bias the needle valve toward the opened position. 20. The injector of claim 19 , wherein the spring is positioned longitudinally above the piston.