Apparatus for controlling exhaust attack angle for a variable turbine
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02D-023/00
F01B-029/10
출원번호
US-0293921
(2002-11-13)
우선권정보
KR-0070428 (2001-11-13)
발명자
/ 주소
Park, Jun-Cheol
출원인 / 주소
Hyundai Motor Company
대리인 / 주소
Morgan Lewis &
인용정보
피인용 횟수 :
7인용 특허 :
14
초록▼
An apparatus for controlling an exhaust attack angle for a variable turbine applied in a turbocharger of an engine is provided that comprises: an actuator driven according to a strength of a supplied current; one or more vanes rotatably installed at the perimeter of a turbine; and a transmission ass
An apparatus for controlling an exhaust attack angle for a variable turbine applied in a turbocharger of an engine is provided that comprises: an actuator driven according to a strength of a supplied current; one or more vanes rotatably installed at the perimeter of a turbine; and a transmission assembly that is linked to said actuator, which converts linear motion of the actuator to rotational motion and transmits the rotational motion to the vane in order to rotate the vane, thereby varying the exhaust attack angle based on the strength of the supplied current.
대표청구항▼
1. An apparatus for varying the attack angle on a turbine, the apparatus comprising:an actuator driven according to engine speed, said actuator comprising: an amplifier for creating an output current signal from an input engine speed signal, wherein the output current signal is proportional to the i
1. An apparatus for varying the attack angle on a turbine, the apparatus comprising:an actuator driven according to engine speed, said actuator comprising: an amplifier for creating an output current signal from an input engine speed signal, wherein the output current signal is proportional to the input signal; an actuator part that moves in response to the output current signal; and a transmission assembly, said transmission assembly comprising: a driving cam, movement of said actuator part causing said driving cam to rotate; a rotating ring installed along a perimeter of the turbine, rotation of said driving cam causing said rotating ring to rotate; and one or more vanes on mounts along a perimeter of the turbine, wherein said mounts are rotatable to vary the attack angle of the one or more vanes on the turbine, and wherein rotation of said rotating ring causes said mounts to rotate. 2. The apparatus of claim 1, wherein the actuator part moves in response to heat generated by the output current signal.3. An apparatus for varying the attack angle on a turbine, the apparatus comprising:an actuator driven according to engine speed; one or more vanes installed along a perimeter of the turbine, said vanes being rotatable to vary the attack angle on the turbine; and a transmission assembly driven by the actuator and operatively engaged with said vanes, whereby the transmission assembly causes the one or more vanes to rotate, wherein said actuator comprises: an amplifier, wherein said amplifier amplifies an input engine speed signal into an output current signal; and an expansion and contraction part, wherein said expansion and contraction part expands or contracts in response to said output current signal, wherein the output current signal is proportional to the input signal. 4. The apparatus of claim 3, wherein said expansion and contraction part rotates due to said expansion and contraction.5. The apparatus of claim 3, wherein said transmission assembly comprises:a driving cam, said expansion or contraction causing said driving cam to rotate; a rotating ring installed along a perimeter of the turbine, rotation of said driving cam causing said rotating ring to rotate and rotation of said rotating ring causing said vanes to rotate. 6. An apparatus for controlling an exhaust attack angle for a variable turbine in a turbocharger of an engine, the apparatus comprising:an actuator driven by a supplied signal; one or more vanes rotatably installed at the perimeter of the turbine; and a transmission assembly, linked to said actuator, that converts linear motion of said actuator to rotational motion and transmits the rotational motion to said vane to rotate said vane, wherein said actuator comprises: a current amplifier for outputting a current signal after amplifying an input current signal; an expansion and contraction part that expands and contracts in response to the output current signal; and an operating rod, installed at an end of said expansion and contraction part, that moves in response to the motion of said expansion and contraction part, wherein the output current signal is proportional to the input signal. 7. The apparatus of claim 6, wherein said expansion and contraction part is formed as a spring.8. The apparatus of claim 7, wherein said actuator further comprises a tube case with a through hole into which said expansion and contraction part is inserted.9. The apparatus of claim 8, wherein said operating rod and said tube case are respectively composed of a ceramic material.10. The apparatus of claim 7, wherein ends of said expansion and contraction part are respectively provided with a positive terminal plate and a negative terminal plate, said terminal plates being connected to corresponding terminals of said current amplifier, and said operating rod is connected to one of said terminal plates.11. The apparatus of claim 6, wherein said actuator is installed on an equipped bracket that is connected to a turbine case.12. The apparatus of claim 6, wherein the variable turbine includes a turbine case and said transmission assembly comprises:an outer crank connected to said actuator in order to be linked and moved by motion of said actuator; a rotating plate, one end of which is connected to said outer crank and that rotates in response to motion of said outer crank; an inner crank connected to the other end of said rotating plate and rotating with said rotating plate; a rotating ring installed inside said turbine case and rotatable by a driving cam formed at one end of said inner crank; and one or more rotary cams that are connected to said vane by way of a rotary shaft, and engaged in one or more grooves formed along an inner circumference of said rotating ring, and rotated by rotation of said rotating ring. 13. The apparatus of claim 6, wherein said expansion and contraction part is composed of a shape memory alloy.14. The apparatus of claim 6, wherein said current signal is based on engine revolutions per minute.15. The apparatus of claim 6, wherein the current signal controls expansion and contraction of the expansion and contraction part by controllably heating the expansion and contraction part.16. The apparatus of claim 15, wherein heating the expansion and contraction part with the current signal contracts the expansion and contraction part to retract the operating rod and rotate the at least one rotatable vane to reduce the exhaust attack angle of the turbine.17. An apparatus for controlling an exhaust attack angle for a variable turbine in a turbocharger of an engine, the apparatus comprising:an actuator driven by a supplied signal; one or more vanes rotatably installed at the perimeter of the turbine; and a transmission assembly, linked to said actuator, that converts linear motion of said actuator to rotational motion and transmits the rotational motion to said vane to rotate said vane, wherein said actuator comprises: a current amplifier for outputting a current signal after amplifying an input current signal, an expansion and contraction part that expands and contracts in response to the output current signal; and an operating rod, installed at an end of said expansion and contraction part, that moves in response to the motion of said expansion and contraction part, said expansion and contraction part being formed as a spring, and ends of said expansion and contraction part are respectively provided with a positive terminal plate and a negative terminal plate, said terminal plates being connected to corresponding terminals of said current amplifier, and the expansion and contraction part being made of a shape memory alloy. 18. The apparatus of claim 17, wherein said supplied signal is based on engine revolutions per minute.19. The apparatus of claim 17 wherein the supplied signal is a current signal.
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