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For over 30 years, our family-owned luxury watch store has provided customers with quality products and exceptional service. Our third-generation business is proud to bring you an extensive selection of watches from top Swiss Watch brands. Our team of experts is here to help you find the perfect timepiece that fits your style and budget.

Watch Movements

A movement is what makes a watch “go.” Most watch companies purchase either the entire movement or parts of the movement from other companies. There are a handful of companies that are ‘vertically integrated’ and make their own movements without using any supplies from subcontractors. These companies are referred to as Manufactures, and the watches they make are typically more expensive and highly sought after because of their exclusivity.

Movement Types


Manual and automatic movements are mechanical; they are both made up of only mechanical parts like gears and springs. The quartz and auto-quartz movements have an electrical circuit and require a battery to run but may also have some mechanical parts.

Mechanical watches are far more expensive than battery-powered ones because they are much more labor intensive to build. Even though battery watches are inherently more accurate, almost all collectors and connoisseurs prefer manual or automatic as these movements represent the accumulation of almost 600 years of refinement, expertise, and craftsmanship.

Manual Movement
Automatic Movement
Quartz Movement

An easy way to differentiate a quartz and a mechanical movement is by looking at the second hand. With mechanical watches (left), the second hand has a smooth, sweeping motion, whereas with the quartz watch (right), the second hand has a “ticking” motion, moving once per second.

Manual Movements


A manual movement, frequently called a hand-wound movement, is the oldest type of watch movement made, dating back to the 16th century. It requires daily winding in order to work. Manual movements are the most traditional movements and are usually found in very conservative, expensive, and collectable watches.

Important aspects to consider before purchasing a manual watch:

  • Daily winding is required.
  • When winding a manual watch, it should be wound until there is a feeling of tension or tightness on the crown. If it is wound past this point, damage to the movement may occur.
  • Remove the watch from the wrist prior to winding or setting. Failure to do so will cause damage to the movement, crown, and stem.

Components of the manual movement:

Crown

The wheel on the side of the watch that is used to set time. It can also be turned to wind the watch to run.

Mainspring

The power source of the movement. The kinetic energy from winding the crown is transferred to the coil-shaped mainspring, which stores the energy by getting tighter and tighter.

Gear Train

Transmits the stored energy from the mainspring to the escapement through a series of small gears.

Escapement

Acts like a brake, taking the energy transmitted from the mainspring through the gear train and pushing it out into equal, regular parts.

Balance Wheel

The heart of the movement, receiving the energy to run from the escapement. The balance wheel beats, or oscillates, in a circular motion between five and ten times per second. A watchmaker can make the balance wheel oscillate faster or slower, which in turn makes the watch run faster or slower.

Dial Train

Another series of gears that transmit the regulated, equally metered energy from the balance wheel to the hands of the watch, making them move.

Jewels

Synthetic rubies that are set at points of high friction, like the center of a gear that is constantly in motion. Used as bearings to reduce metal-to-metal friction and wear, they improve performance and accuracy. Rubies are used because they absorb heat well and are extremely hard.

In a manual movement, turning the crown winds the mainspring, causing it to store energy (1). The gear train transfers the energy to the escapement (2). The escapement meters out the energy into regulated parts (3). The balance wheel uses this regulated energy to beat back and forth at a constant rate (4). Every certain number of beats, the dial train transfers the energy to the hands of the watch (5). The hands advance (6).

Automatic Movements


An automatic, or self-winding, movement is a mechanical movement first marketed in the beginning decades of the 20th century. It winds itself while worn on the wrist, eliminating the need for daily hand winding. However, if not worn for some time, the watch will stop and require a manual winding. This does not include taking the watch off before bed.

Components of the automatic movement:

Crown

The wheel on the side of the watch that is used to set time. It can also be turned to wind the watch to run.

Mainspring

The power source of the movement. The kinetic energy from winding the crown is transferred to the coil-shaped mainspring, which stores the energy by getting tighter and tighter.

Gear Train

Transmits the stored energy from the mainspring to the escapement through a series of small gears.

Escapement

Acts like a brake, taking the energy transmitted from the mainspring through the gear train and pushing it out into equal, regular parts.

Balance Wheel

The heart of the movement, receiving the energy to run from the escapement. The balance wheel beats, or oscillates, in a circular motion between five and ten times per second. A watchmaker can make the balance wheel oscillate faster or slower, which in turn makes the watch run faster or slower.

Dial Train

Another series of gears that transmit the regulated, equally metered energy from the balance wheel to the hands of the watch, making them move.

Jewels

Synthetic rubies that are set at points of high friction, like the center of a gear that is constantly in motion. Used as bearings to reduce metal-to-metal friction and wear, they improve performance and accuracy. Rubies are used because they absorb heat well and are extremely hard.

Rotor

A half circle-shaped metal weight attached to the movement that can swing freely in 360 degrees as the wrist moves. The rotor is connected by a series of gears to the mainspring and as it turns, it winds the mainspring, giving the watch energy. The rotor is equipped with a clutch that will disengage it from winding when the mainspring is fully wound.

In an automatic movement, movement of the wrist turns the rotor, which winds the mainspring. Turning the crown also winds the mainspring (1). The gear train transfers the energy to the escapement (2). The escapement meters out the energy into regulated parts (3). The balance wheel uses this regulated energy to beat back and forth at a constant rate (4). Every certain number of beats, the dial train transfers the energy to the hands of the watch (5). The hands advance (6).

Quartz Movements


A quartz movement uses a battery for its power source and does not need winding like a mechanical watch. It is the most accurate type of movement currently being produced.

Components of the quartz movement:

Battery

Like the mainspring on a mechanical watch, this is the power source of the watch. Typically, the battery on a quartz watch will last between 12 and 24 months before needing to be replaced. It is important to replace the battery as quickly as possible once it has died as there is a possibility of it leaking acid and damaging the movement.

Integrated Circuit

This ‘carries’ the electrical charge between the various parts of the quartz movement.

Quartz Crystal

Performs the same function as the balance wheel on a mechanical watch. The Integrated circuit applies electricity from the battery to the quartz crystal in a constant stream. Quartz vibrates when electricity is applied to it and also generates voltage when it vibrates.

Stepping Motor

Transforms the electrical impulses into mechanical power.

Dial Train

Functions just like the dial train found on a mechanical movement.

In a quartz movement, electricity is carried from the battery to the quartz crystal via the integrated circuit. This electricity makes the quartz crystal vibrate at a rate of 32,768 per second. These electrical pulses are sent via the integrated circuit to the stepping motor, which sends every 32,768th electrical pulse to the dial train, advancing the hands on the watch.

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