PowerPoint Presentation

1Exercise (AND)

2How many input required??Solution

IncompleteHow many dual pressure valve required?What directional valve is required?

How are they connected?324/2 way or 5/2 way

3Example (Memory function)

4Example (Memory function)

5Exercise (Memory function)

6Exercise (Memory function)Key PointsDouble acting cylinderPush button valveAutomatic retraction Cylinder should continue movement even if the input is absentSpeed control

7Exercise (Memory function)

Key PointsDouble acting cylinderPush button valveAutomatic retraction Cylinder should hold the position even if the input is absentSpeed control

8Exercise (Quick Exhaust valve)

9Exercise (Memory function)Key PointsDouble acting cylinderPush button valveRoller lever valve to detect w/pAND operationRapid forward travelSpeed control during retraction

10Exercise (Memory function)Key PointsDouble acting cylinderPush button valveRoller lever valve to detect w/pAND operationRapid forward travelSpeed control during retraction

11Example (Pressure dependent Control)

12Example (Pressure dependent Control)

13Exercise(Pressure dependent Control)

14Exercise (Pressure Control)Key PointsDouble acting cylinderPush button valveRoller lever valve to detect full extensionPressure levelAND operation

15Example (Time delay)

16Example (Time delay)

17Example (Time delay)

18Exercise (Time delay)

19Exercise (Time delay)Key PointsDouble acting cylinder with speed controlPush button valveTwo limit F and RTimer -2AND operation

Multiple Actuators Coordinated motionMachine System Design (MAE206)20

21Example Multiple actuator

22Example Multiple actuator

23Example Multiple actuator

24Example Multiple actuator

25Example Multiple actuator