Categories
Axis Sizing

Vertical Linear Motion With Rack&Pinion – 1

Linear Guide, Rack&Pinion , Reducer and Servo Motor Sizing for Vertical Motion

Now we have started the calculation of vertical motion. When designing the machine, you need to know that the coefficient of gravitational acceleration will be added to the vertical linear motion calculations.We should also pay more attention to inertia ratio between load and sero motor.

Categories
Axis Sizing

Horizontal Linear Motion With Belt&Pulley – 1

Guide, Belt Pulley , Reducer and Servo Motor Sizing

Belt pulley driven is not my favorite method for linear motion. Because this is the drive method with the weakest positioning accuracy. However, if a cheap and high speed method is required, belt pulley is the most suitable method.

I’m using Yaskawa SigmaJunmaSize+ and THK Life Calculator applications for my all calculations.

linear system calculation inputs

Target values;

Max Speed: 1000mm/sec

Stroke : 2000mm

Let’s start by calculating linear guides as usual. This time we have an asymmetric gravity point. There is also a high speed request, which is specified as 1000 mm / second. Therefore, we will use the SHS series, which is more suitable for high speed. You can use these products either externally or assembled in a linear module.

belt pulley driven linear module

Categories
Axis Sizing

Horizontal Linear Motion With Rack&Pinion – 1

Guide, Rack&Pinion , Reducer and Servo Motor Sizing

Next is the calculation of the system that will be driven by rack and pinion. Usually this drive system is used in marble, wood, laser cutting and plasma machines.

Also I’m still using Yaskawa SigmaJunmaSize + and THK Life Calculator applications.

Target values;

Max Speed: 500mm/sec

Stroke : 2000mm

linear system steps chart We’ll start with linear guide sizing again.