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How Watches Work Glossary of Watch Terms Automatic Watch Maintenance
Find the Perfect Watch Sizing Your Watch Care & Cleaning
FAQs Buying Guide Water Resistance and Watches



How Watches Work

In addition to their exterior beauty, watches are also an incredible feat of engineering and craftsmanship. Many complicated parts must all work in tandem in order to not only tell time, but perform the myriad other functions that many of today’s watches perform. This section contains an overview of the major parts of a watch, as well as an explanation of how watches operate.

Watch Parts
Watches contain many parts that work together to tell time, as well as perform other useful functions. These could include a chronograph, altimeter, alarm, day/date calendar, phases of the moon, slide-rule, etc. Here are descriptions of the major internal and external parts and their functions. For more detailed explanations, you can also visit our Watch Glossary.

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External Watch Parts

Crystal
The cover over the watch face is called the crystal. There are three types of crystals commonly found in watches: Acrylic crystal is an inexpensive plastic that allows shallow scratches to be buffed out. Mineral crystal is composed of several elements that are heat-treated to create an unusual hardness that aids in resisting scratches. Sapphire crystal is the most expensive and durable, approximately three times harder than mineral crystals and 20 times harder than acrylic crystals. A non-reflective coating on some sport styles prevents glare.

Hands
A watch's hands are the pointing device anchored at the center and circling around the dial indicating hours, minutes, seconds and any other special features of the watch. There are many different types of hands:

  • Alpha: A hand that is slightly tapered
  • Baton: A narrow hand sometimes referred to as a ‘stick hand’
  • Dauphine: A wide, tapered hand with a facet at the center running the length of the hand
  • Skeleton: Cutout hands showing only the frame
  • Luminous: Hand made of skeleton form with the opening filled with a luminous material

Bezel
The surface ring on a watch that surrounds and holds the crystal in place is called the bezel. A rotating ratchet bezel moves in some sport watches as part of the timing device. If rotating bezels are bi-directional (able to move clockwise or counter clockwise), they can assist in calculations for elapsed times.

Crown
The nodule extending from the watchcase that is used to set the time, date, etc. is called the crown. Most pull out to set the time. Many water-resistant watches have crowns that screw down for a better water-tight seal.

Dial
The watch face that contains the numerals, indices or surface design is called the dial. While these parts are usually applied, some may be printed on. Sub-dials are smaller dials set into the main face of the watch. These can be used for added functions, such as elapsed times and dates.

Case (or Watchcase)
The watchcase is the metal housing that contains the internal parts of a watch. Stainless steel is the most typical metal used, but titanium, gold, silver and platinum are also used. Less expensive watches are usually made of brass that has been plated with gold or silver.

Bracelet
A bracelet is the flexible metal band consisting of assembled links, usually in the same style as the watch case. Detachable links are used to change the length of the bracelet. Bracelets can be made of stainless steel, sterling silver, gold, or a combination.

Strap
A strap is simply a watchband made of leather, plastic or fabric.

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Internal Watch Parts
A watch’s main timekeeping mechanism is called its movement. Today’s watch movements fall into two categories: Automatic mechanical or quartz. Automatic mechanical movements mark the passage of time by a series of gear mechanisms. Most automatic movements are wound by the normal, everyday movement of your wrist, which charges the watch’s winding reserve. Quartz movements are powered by a battery and do not stop working once removed from your wrist.

Balance Wheel
The regulating organ of a watch with a mechanical movement that vibrates on a spiral hairspring is called the balance wheel. Lengthening or shortening the balance spring makes the balance wheel go faster or slower to advance or retard the watch. The travel of the balance wheel from one extreme to the other and back again is called oscillation.

Gear Train
This series of small gears in both quartz and mechanical movement watches is responsible for transmitting the power from the battery (in a quartz watch) or spring (in a mechanical watch) to the escapement, which distributes the impulses that mark the time.

Escapement
This part of the watch restricts the electrical or mechanical impulses of the gear train, metering out the passage of time into equal, regular parts.

Motion Work
The motion work is a series of parts inside a watch that receive power from the escapement and gear train, which distribute and generate the watch’s power. The motion work is responsible for actually turning the watch’s hands.

Mainspring
The mainspring is the energy source responsible for powering the watch movement (as opposed to a battery in a watch with a quartz crystal movement). The spring is wound, either manually (using the winding stem) or automatically, by the motion of the wearer’s wrist. Potential energy is stored in the coiled spring, then released to the gear train which transmits the power to the escapement and motion work, which turns the hands on the watch dial.

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How a Watch Works
Watches essentially tell time by the integration of three main components: an energy source, a time regulating mechanism and a display. The energy source can be electronic (as in a battery) or mechanical (as in a wound spring). A watch’s main timekeeping mechanism is called its movement. Today’s watches fall into two categories: Mechanical movements and Quartz movements. Here’s a breakdown of how each type of movement works:

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Mechanical (Automatic) Watches
Mechanical watches are made up of about 130 parts that work together to tell time. Automatic mechanical movements mark the passage of time by a series of gear mechanisms, and are wound by the movement of your wrist as you wear it. The gear train then transmits the power to the escapement, which distributes the impulses, turning the balance wheel. The balance wheel is the time regulating organ of a mechanical watch, which vibrates on a spiral hairspring. Lengthening or shortening the balance spring makes the balance wheel go faster or slower to advance or retard the watch. The travel of the balance wheel from one extreme to the other and back again is called oscillation. A series of gears, called the motion work, then turns the hands on the watch face, or dial. See illustration below.

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Quartz Crystal Watches
Quartz watches work with a series of electronic components, all fitting together in a tiny space. Rather than a wound spring, a quartz watch relies on a battery for its energy. The battery sends electrical energy to a rotor to produce an electrical current. The current passes through a magnetic coil to a quartz crystal, which vibrates at a very high frequency (32,768 times a second), providing highly accurate timekeeping. These impulses are passed through a stepping motor that turns the electrical energy into the mechanical energy needed to turn the gear train. The gear train turns the motion work, which actually moves the hands on the watch dial.

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