Linkage Design Outputs

Results from the calculations are shown immediately in several different ways. First and foremost, there is a drawing of the setup that changes in response to the inputs. This is shown on the "drawings" page.

A second form of output, a numeric output, is shown on this page. It is broken into three blocks. The first, "Maximum / Minimum Outputs", defines the limits of the control surface deflection at maximum and minimum servo deflection and at an intermediate point if this results in greater surface deflection. This allows the modeler to set up the geometry per the airplane designer's instructions or to his own liking.

The program also provides approximate maximum servo torque as well as pushrod forces. This enables choosing a suitable servo and pushrod design.

The second numeric output reports the "Current Values". The graphic drawing of the servo setup is provided with a slider bar. This slider controls the deflection of the servo - the servo and control surface move in response to the slider bar. As you move the system, the "Current Values" data block reports the key angles, torques and forces on the system.

The third numeric output block reports the "Geometry Output". This is a comprehensive report of the information that you need to set up your model in the shop or to lay it out on the drafting board or CAD system.

A third form of output is provided in a series of plots. These can provide additional, rapid insight into the design of the system. These are shown on the "plots" page.

Maximum/Minimum Outputs

These outputs are reported in the same format for all three pushrod setups.

Control surface deflections are reported in terms of degrees and linear dimensions.

All outputs are reported in English and metric units.

Current Values

Current values are also reported in the same format for all three pushrod setups.

Geometry Output

Geometry output gathers up all the key information in one place so that you can print it out and use it in the shop or in the design drafting process.

All three pushrod programs use the same geometry output format, with small variations. The output for Short Pushrod and Perpendicular Axis Pushrod are shown here.

All of the key angular dimensions are also reported in terms of linear deflection to make setup in the shop easier.

The Rotary program does not have a geometry output block because in its case the input block is the output block (!).

Maximum/Minimum Outputs for Rotary

The Rotary outputs are similar to the others except that it adds information on deflection due to system flexibility.

Current Values for Rotary

These are reported in a similar format to the max/min outputs.