RRP Dyad

Dyads do not change the number of Degrees-of-Freedom of a kinematic-chain. If the kinematic-chain has Green Part-Outlines before you add the Dyad, it should have Green Part-Outlines after


To show you how to add this Dyad, we have two design cases.

In Case 1, we join the two Parts in the Dyad to the Base-Part and the Rocker
In Case 2, we join the two Parts in the Dyad to the Base-Part and the Slider

In the RRP Dyad there are : two Pin-Joints, one Slide-Joint, and two Parts.

I follow a consistent three-step procedure.

General Three-Step Procedure to add a Dyad

STEP 1: Add the two new Parts
STEP 2: Add the two 'outer' Joints: Join each new Part to two separate Kinematically Defined Parts (with Green Part-Outlines)
STEP 3: Add the 'inner' Joint: Join the two new Parts together

Note: This Dyad is not 'symmetrical'. The 'P' joint could be joined to the Motion-Part or the 'other' kinematically-defined Part. In the two examples below, the 'P' joint is joined to the Base-Part.

Warning

Note: Occasionally, a Dyad does not operate correctly. The Pin-Joints 'break' when you cycle the machine, even though you cannot see why they break.

It is possible that MechDesigner has assembled the Dyad in a Closure where the Parts cannot reach the Joints - even though to you, they should assemble. To correct the problem, you may need to change the Dyad closure until the assembly operates as you expect it to.

See Kinematic Closure

CASE 1:
Rocker and Base-Part

CASE 2:
Slider and Base-Part

Examples

 

 

 

 

Videos

RRPRocker1

RRPSlider1

Preparation:

Two Kinematically Defined Parts:

Case 1: Part 1:Base-Part, Part 2:Rocker
Case 2: Part 1:Base-Part, Part 2:Slider

RRPRocker2

RRPSlider2

Step 1: New Parts

Add two Parts.

RRPRocker3

RRPSlider3

Step 2: 'Outer' Joints

Add the two 'outer' Joints (R-P Joints). In this case, a:

Pin-Joint with a new Part and the Motion Part1s-red
Slide-Joint with the other new Part and the Base-Part 2s

The two Joints are the two 'outer' Joints of the Dyad: R-P

RRP Dyad with Rocker

RRP Dyad with Slider

Step 3: 'Inner' Joints

Connect the two new parts together with a Pin-Joint3s

The Kinematic-Chain becomes Kinematically Defined again with an RRP Dyad.

Note: For clarity, I have added Lines to the Sliding-Parts to offset the Pin-Joints from Sliding-Parts.

RRPRocker5

RRPSlider5

Kinematics-Tree

Shows the original Rocker or Slider, plus the new RRP Dyad.

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