Unveiling the Mystery of Automatic Movement Earthquaking

Unveiling the Mystery of Automatic Movement Earthquaking

Unveiling the Mystery of Automatic Movement Earthquaking

Are you a watch enthusiast who has experienced the disconcerting phenomenon of an automatic movement “earthquaking”? This occurrence can be quite alarming, but fear not, for we are here to shed light on what exactly happens when the rotor in your automatic timepiece gets hung up due to various factors.

Understanding Automatic Movements

Before delving into the intricacies of an “earthquaking” automatic movement, let’s first understand how automatic movements work. Automatic movements, also known as self-winding movements, are a marvel of engineering in the world of horology. These movements harness the natural motion of the wearer’s wrist to wind the watch’s mainspring, thus eliminating the need for manual winding to keep the watch running.

The beating heart of an automatic movement is the rotor, a semicircular weight that rotates with the movement of the wearer’s wrist. As the rotor spins, it winds the mainspring, storing energy that powers the watch.

The Earthquaking Phenomenon

Now, let’s address the issue of an automatic movement “earthquaking.” This term describes the sensation of the rotor in an automatic watch feeling stuck or not spinning freely. When the rotor gets hung up, the watch may make a rattling or grinding noise, akin to the rumbling of an earthquake – hence the term “earthquaking.”

Several factors can contribute to the rotor getting stuck or experiencing resistance in its movement:

1. *Lack of Wrist Movement*: If the watch has not been worn for an extended period, the rotor may not have received enough motion to wind the mainspring fully. This can lead to the rotor feeling stuck when the watch is worn again.

2. *Buildup of Dirt and Debris*: Dust, dirt, or other particles can accumulate in the movement over time, impeding the smooth rotation of the rotor. This buildup can cause resistance and result in the earth-quaking sensation.

3. *Worn Bearings or Components*: In some cases, the bearings or components supporting the rotor may become worn or damaged, leading to increased friction and hindering the rotor’s movement.

Resolving the Issue

If you encounter the “earthquaking” phenomenon in your automatic watch, there are several steps you can take to address the issue:

1. *Wear the Watch*: Simply wearing the watch and allowing the rotor to move freely with your wrist motion can often resolve the problem, especially if the issue was caused by lack of movement.

2. *Service the Watch*: If the rotor continues to feel stuck or encounters resistance, it may be necessary to have the watch serviced by a professional. A watchmaker can clean the movement, replace worn components, and ensure that the rotor functions smoothly once again.

3. *Preventive Maintenance*: Regular maintenance and servicing of your automatic watch can help prevent issues like “earthquaking.” Keeping the watch clean and ensuring that it receives adequate wrist movement can go a long way in maintaining its optimal performance.

In conclusion, while the “earthquaking” phenomenon in automatic movements may be unsettling, it is often a solvable issue that can be addressed through proper care and maintenance. By understanding the workings of your automatic watch and taking proactive steps to keep it in top condition, you can enjoy its precision and craftsmanship for years to come. If you’d like to set up a service with Wrist Check Mafia, just reach out, we are happy to service any automatic or quartz movements.