A bezel is a simple but extremely effective tool letting you perform all sorts of tasks: from timing a dive to calculating the average speed of a motorbike, from gauging your fuel supply or the distance of incoming fire to consulting the time in Japan, a bezel gets the job done and jacks up the functionality of your watch. The trick is deciphering what all the markings on the bezel or on the dial (in that case, we talk scales) represent and how to use them.
DIVING BEZELS (OR COUNT-UP)
The purpose of a dive bezel is to track elapsed time underwater. One of the ISO 6425 standards for a divers’ watch is that it must be fitted with a unidirectional bezel with a scale showing 60 minutes and markings at least every 5 minutes, well as a pre-select marker (usually in the form of a luminous triangle or diamond) to mark a specific minute reading. Since chronograph pushers jeopardise water-resistance, some of the first modern underwater watches, coinciding with the advent of the scuba, settled on a much simpler solution to time immersions with the incorporation of a rotating bezel.
Most dive bezels go beyond the ISO 6425 requirement of 5-minute interval markings and feature 1-minute markings from 0 to 15 (sometimes up to 20 minutes and picked out in colour), with the rest of the 60-minute bezel marked with 5-minute increments. This is the standard layout and became the popular look of dive watches like Cronos Water Ghost Luxury Dive Watch PT5000 Movement L6005
The two key players to time immersions are the minute hand (often picked out in bright colours) and the bezel. To operate, simply twist the bezel so that the zero marker (triangle) aligns with the minute hand pointing to the current time. As the minute hand advances, it will also indicate elapsed time on the bezel in a simpler and more visually graphic manner. Most rotating bezels are unidirectional, capable of being manipulated in one direction only. In the case of dive watches, this direction is anticlockwise to avoid accidental blows that might dislodge the bezel and lead the diver to believe he/she has more time than originally programmed.
Another variation on the theme to time immersions is an internal rotating bezel, usually set with an additional crown at 4 o’clock – on so-called compressor watches, has a locking device on its bezel that needs to be disengaged before it can be manipulated. The downside is that in real life conditions, a scuba diver will set the bezel on his wrist just before plunging into the water with one hand. A watch like the Ploprof might be the epitome of safety, but it does require two hands to set.
COUNTDOWN BEZELS
A variant of the dive bezel, which is, in fact, just a count-up scale graduated on 60-minutes, is the countdown bezel. On such bezels, the scale (which can be 60 minutes or 12 hours) is printed counter-clockwise and allows you to measure the time remaining in an event, either before the event begins or after it has started. Countdown bezels are typically bidirectional, which makes them inadequate for diving.
These bezels are often found on pilot or military watches, and they were used to conduct military strikes – countdown after launching a bomb, for instance. Also, such countdown bezels are useful for regatta races. To use them, the principle is the same as with a dive bezel. The minute or the hour hand is used as a reference: rotate the bezel so that the time remaining is set to the dedicated hand. When the hand reaches zero on the scale, the event should occur.
TACHYMETRE SCALE
Next up is the tachymetre, another very useful function that can be seen inscribed on the bezel or dial of many chronograph watches. The main use of a tachymetre is to measure the speed of an object travelling at a fixed distance, but it can also be used to measure distance and calculate anything that might take you less than a minute to accomplish – tie a bow tie? Unlike a dive bezel, a tachymeter (US), tachymetre (UK) or tachymètre (FR) scale is fixed and has nothing to do with a tachometer scale on a car that measures RPM.
A tachymetre is, in essence, a conversion tool used in conjunction with the chronograph allowing you to convert elapsed time in seconds to speed (in units per hour) for events lasting up to one minute. (For those of you with a mathematical bent, a tachymetre = 3600 divided by elapsed time in seconds.) The beauty of a tachymetre is its neutrality (hence the word UNITS engraved on some bezels) and almost any unit of measurement can be employed – kilometres/miles/metres/knots and even cans of tomatoes travelling on a conveyor belt.
Supposing you know that the distance a car will be covering between A and B is 1 km. To gauge the average speed of the car, hit the chronograph when the car reaches A, and stop it again when it reaches B. The corresponding reading of the seconds hand against the tachymetre scale will give you the speed. However, if you are determining the speed of an athlete running a 200-metre race, which she completes in 28 seconds, the tachymetre reading of 130 km/h will need to be divided by five (1/5th of a kilometre) to give you the average speed of 26km/h. You can also use a tachymetre to measure anything that takes under a minute to accomplish. You’ve always wanted to know how many bow ties you could tie in an hour. By using your chronograph, you discover that it takes you 45 seconds to tie one bow tie, which corresponds to roughly 80 on the tachymetre scale meaning you can tie just over 80 bow ties in an hour (or you can do the math and divide 3,600 by 46 = 78,260).
A tachymetre can also be used to measure distance travelled, if you know the speed and the speed remains constant. Imagine you are driving down the motorway on cruise control at 120 km. Start the chronograph seconds hand and when it reaches 120 on the tachymetre scale, you will have covered 1 km. This is an obvious example but can be extrapolated for more complex calculations.
GMT/24H OR DUAL TIME INDICATOR
An invaluable travel companion that is easy-to-use and gives you the time in two (sometimes even three) different time zones simultaneously is a GMT scale on the bezel. The most famous GMT model is the pioneering 1954 Rolex GMT-Master. Designed in cooperation with Pan Am for its crew on long-haul flights, the GMT-Master and its two-tone red and blue (Pepsi) bezel shot up to iconic status. Equipped with a fourth hand and a 24-hour track on the bezel, the GMT Master paved the way and established the look of many future GMT watches.
The main 12-hour dial of the watch is normally used to indicate local time while home time is set on the 24-hour bezel and read off by an additional hour hand or pointer. Usually, the GMT hand has a different shape or colour to distinguish it from the hour, minute and seconds hands.
To use the GMT function, simply twist the bezel into the neutral position by aligning the triangle with the 12 o’clock marker on the dial. Set the GMT hand via the crown to the time zone of your choice (usually home time) by aligning the hand with the time on the bezel. Then set local time with the main hand. You can also use the rotating bezel to set a third-time zone, but you would lose the 24-hour function and might get confused about whether it is X pm or X am back home.
SLIDE RULE
Intimidating to the uninitiated, a slide rule bezel is a complex but powerful calculating tool. A complex on-the-wrist flight computer equipped with two logarithmic scales, anybody with a mathematical mind can execute an infinite number of complex calculations.
The original slide rule bezel featured the three most important units for pilots: STAT for standard mileage, KM for kilometres and NAUT for nautical miles allowing pilots to calculate fuel consumption, airspeed, time, distance, convert miles to kilometres and perform a host of other useful functions.
Slide rules are, for the most part, extinct objects in our lives today so coming to terms with how to use one will require patience and a willingness to learn. However, simpler tasks like multiplications and divisions can be performed and it might be a good party trick to learn before strapping on one of these powerful analogue calculators.
Let’s say you want to multiply 16 x 8. Turn the outer rotating bezel scale to line up number 16 with the number 10 on the next bezel (picked out in red on the Navitimer and used as the unit index or reference point in the alignment of the rule). Then find the 8-marker on the inner bezel and consult the number on the outer bezel which should be 128. Dividing works in reverse. For more complex operations, arm yourself with patience and devour the thick manuals that accompany these models.
PULSOMETER (DOCTOR’S WATCHES)
Designed for anybody who wants to determine their heart rate and very popular with doctors in the pre-digital age, pulsometer scales can be placed along the circumference of the main dial or even etched onto the bezel. Relying on a central chronograph seconds hand, the pulsometer will measure the heart rate over a base of 15 or 30 pulsations.
All you have to do is start the chronograph, count the beats corresponding to the calibrated pulsations and consult the position of the seconds hand on the outer scale to determine the heart rate (pulse rate) in beats per minute.
A different version of the pulsometer bezel is the Asthmometer. This type of scale also refers to doctor’s watches, but instead of measuring heart rates, it measures breathing – by indicating the number of breaths per minute. This type of scale was also useful for athletes to measure their breathing before and after an intense effort.
TELEMETER
The telemeter scale, designed to measure distances to remote objects, became a vital tool to calculate fire range in battle and, like the tachymetre and pulsometer, operates in tandem with a chronograph. Since light travels faster than sound, the idea was that as soon as a soldier spotted a flare of light on the horizon, he could activate the chronograph and then stop it when the cannon exploded – if he was lucky.
Today the only real function of a telemeter is to calculate the distance of a storm based on the elapsed time between lightning and thunder.
DECIMAL BEZEL
Far less common than the tachymetre, the decimal bezel divides the minute into 100 parts allowing for the decimal conversion of time. Used primarily for industrial and scientific timing operations – to make calculations of time or cost prices – the decimal bezel is used in conjunction with the chronograph allowing you to measure and translate time into decimal values in a controlled environment. The classic example provided by Omega in its vintage Speedmaster manual describes a calculation to estimate the time taken to cut a screw. By starting the central seconds hand of the chronograph when the production-line worker picked up the screw and stopping it when he picked up the second screw, the overseer could come up with a decimal reading making life simpler when having to make longer calculations.