Portable sawmills in Attleboro, MA, have a rich history that dates back thousands of years to the early Romans who invented a mechanical sawing mill that was driven by the force of water. Strong currents turned large stones, which were connected to cogs similar to those found in a clock. As the cogs connected, they drove a blade up and down through the wood. The process was painstaking slow, but it still reduced the manual labor it took to process the boards. So over the next several years after this, other inventors from different countries around the world made the following changes to the sawmill:

Reciprocating Action

The country who took the longest to get involved in the improvement process for this machine was Europe. But the people there ended up contributing the most to its advancement because of their modifications to the sawblade. Instead of staying in a stationary position, the early Europeans designed it to move back and forth, so it had reciprocating action. This sped up the sawing process significantly. The logs still had to be manually fed through the saw though, which was no easy task considering the size of them. So a water-powered log mover was created to reduce the workload of milling places, such as the sawmill services in Attleboro, MA.

Steam Power

It took about 100 years past the Industrial Revolution Era for more changes to the portable sawmills in Attleboro, MA, to occur. This period of the 19th century was responsible for the change from water-powered sawmills to steam-powered sawmills though. The steam came from large pots of water kept boiling from the wood scraps that were left over from cutting the logs.

Electricity

The first electric sawmill was invented in the 20th century. It was fast, precise, and better than anything that sawyers had ever seen before. But it was nothing in comparison to the newest computerized models that were developed in the 21st century sawmill services in Attleboro, MA. Since they reduce human error in measuring, wood logs can now be cut in to a multitude of angles, lengths, and shapes.