0 %
Scroll Up
Scroll Down

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

Torque Converter

  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
    Label
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image
  • Image

변속기 내연기관에서 발생된 동력을 자동차의 운전조건에 따라 토크 및 주행속도를 증감시키는 역할을 하는 장치를 변속기라고 합니다.

토크 컨버터 토크 컨버터는 엔진의 동력을 변속기로 전달하는 동력전달 기구로써 자동변속기에서 클러치 조작 없이 부드러운 변속을 가능하게 합니다.

토크 컨버터는 속도비에 따라 엔진의 토크를 증배시키고, 록업 클러치의 직결을 통해 연비를 향상 시키며, 댐퍼 장착을 통해 엔진의 진동을 흡수하는 기능을 가지고 있습니다.

토크 컨버터의 보조기능 토크 컨버터와 축이 연결된 오일펌프가 회전하면서 변속기 및 토크 컨버터 내부에 유압을 공급하고, 회전 관성체로서 자동변속기 차량의 플라이휠(Fly-wheel)로서 작용하는 기능이 있습니다.

  1. 1 토크 컨버터(Torque Converter)
  2. 2 자동변속기(Automatic Transmission)

토크 컨버터의 구성 유체 클러치 (Hydrodynamic system), 댐퍼 (Turbine-Damper system), 록업 클러치(Lock-up clutch system)

  1. 1 토크 컨버터 어셈블리(T/CON ASS'Y)

유체클러치는 유체에 의한 동력전달 시 엔진 크랭크 샤프트와 변속기 샤프트의 속도비에 따라 엔진의 토크를 증배하여 전달합니다.

  1. 1 터빈 어셈블리 (TURBINE ASS'Y)
  2. 2 리액터 어셈블리 (REACTOR ASS'Y)
  3. 3 임펠러 어셈블리 (IMPELLER ASS'Y)

댐퍼 록업 클러치 직결에 의해 동력을 전달 할 때 발생되는 충격 및 엔진으로부터 유입되는 진동을 감쇄시키는 기능을 합니다.

  1. 1 댐퍼 어셈블리 (DAMPER ASS'Y)

록업 클러치 유체 클러치 블레이드의 입력 및 출력 회전 속도 차이로 인해 발생되는 동력 효율 손실을 극복하기 위해, 기계식 마찰 클러치를 사용하여 엔진 동력 전달 효율을 100%로 변환함으로써 연비를 향상시키는 역할을 합니다.

  1. 1 프론트 커버 서브 어셈블리 (FRONT COVER SUB ASS'Y)
  2. 2 마찰판 어셈블리 (FRICTION PLATE ASS'Y)
  3. 3 피스톤 어셈블리 (PISTON ASS'Y)

주요 기능 임펠러, 리엑터, 터빈, 댐퍼, 피스톤, 마찰판, 프론트커버 이모든 부품들이 유기적으로 작동함으로써 엔진의 동력을 효율적으로 전달합니다.

  1. 1 프론트커버(FRONT COVER)
  2. 2 마찰판(FRICTION PLATE)
  3. 3 피스톤(PISTON)
  4. 4 댐퍼(DAMPER)
  5. 5 터빈(TURBINE)
  6. 6 리액터(REACTOR)
  7. 7 임펠러(IMPELLER)

파워트레인(주)은 세계최고의 토크 컨버터를 생산하고 있습니다.

라인업 바로가기