For Bentley Supersports - Watch Breitling - Free user manual and instructions
Find the device manual for free For Bentley Supersports Breitling in PDF.
Frequently Asked Questions - For Bentley Supersports Breitling
User questions about For Bentley Supersports Breitling
0 question about this device. Answer the ones you know or ask your own.
Ask a new question about this device
Download the instructions for your Watch in PDF format for free! Find your manual For Bentley Supersports - Breitling and take your electronic device back in hand. On this page are published all the documents necessary for the use of your device. For Bentley Supersports by Breitling.
USER MANUAL For Bentley Supersports Breitling
text_image
Lanella trunculus bilutionnella Biodinatorial rotating head Lanella trunculus Bilutionnella Lanella ginsula bilutionnella Metal ginsula bilutionnella Lanella ginsula bilutionnella Oxidium sputumumata x 2.5 x anisotranscens. M10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 Codela 1938 Dial degraded to 1938/17 716-544-1938 Quadratic 1938/1938 Codela 1938/1938 Model 1938/1938 Uniprocyst D1938 sec. 2/12/2016/12/12 2/12/2016/12/12 2/12/2016/12/12 AVG SPEED Technician variable: Variable Thermometer Variable Thermometer Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Technician variable: 1.5 Typical dimension: 1.5 Typical dimension: 1.5 Typical dimension: 1.5 Typical dimension: 1.5 Typical dimension: 1.5 Typical dimension: 1.5 Typical dimension: 1.5 Typical dimension: 1.5 Typical dimension: 1.5 Typical dimension: 1.5FRANÇAIS
MISE EN SERVICE 5
PARTICULARITÉS 8
ENTRETIEN 19
ENGLISH
PREPARING THE WATCH FOR USE 23
SPECIAL CHARACTERISTICS 26
MAINTENANCE 37
DEUTSCH
INBETRIEBNAHME 41
BESONDERHEITEN 44
WARTUNG 55
ITALIANO
text_image
Technical diagram of a mechanical watch with engraved annotations and a magnified inset showing a detail view.natural_image
Close-up of a mechanical clock face showing dials, gears, and a central dial (no text or symbols visible)2. TACHYMÈTRE VARIABLE
text_image
Three circular analog rulers with measurement markings and pink circular indicators, showing numerical readings.natural_image
Technical line drawing of a mechanical clamp or bracket assembly (no text or symbols)
natural_image
Technical line drawing of a mechanical component with highlighted internal area and red arrows indicating features (no text or symbols)
natural_image
Technical diagram of a mechanical component with arrows indicating direction (no text or symbols)
text_image
② click
text_image
④ clickMAINTENANCE
A chronometer is a high-precision instrument that has successfully passed the entire battery of tests imposed by the COSC (Swiss Official Chronometer Testing Institute), a neutral and independent body which individually tests each movement according to the prescriptions in force.
The certification test for wristwatches with sprung balance oscillators, according to the ISO 315-9 norm, consists of observing each movement for 15 days and 15 nights, in 5 positions and at 3 different temperatures (8°, 23°C, 38°C). In order to earn the prestigious chronometer label, a movement's performances must meet 7 very strict criteria, including a daily variation in rate ranging between only -4/+6 seconds.
The term "chronometer" should not be confused with that of "chronograph", which is a complicated watch fitted with an additional mechanism enabling the measurement of the duration of an event. A chronograph is not necessarily chronometer-certified, but all B REITLING chronographs carry the much-coveted title of "chronometers".
PREPARING THE WATCH FOR USE
WINDING - TIME-SETTING
Nota bene: mechanical watches endowed with a date, day, month or moon-phase indicator are equipped with a complex mechanism that is set into motion between 8 pm and 3 am. It is therefore vital to avoid adjusting the calendar or moving the time backwards during this period.
-
Unscrew the water-resistant crown in an anti-clockwise direction. Wind the watch h by 40 clockwise turns of the crown.
-
Pull the crown out to position 2, turn it anti-clockwise to adjust the calendar to the day prior to the date when it is set into operation.
-
Pull the crown out to position 3. Turn the hands so as to make the calendar jump once when the hands pass through midnight. Then adjust the hour and minute.
-
Push the crown back to position 1. Press it gently, turning it gently in a clockwise direction, then tighten it again until you feel some resistance. Do not force!
USING THE CHRONOGRAPH
I. MEASURING A SINGLE SHORT TIME
-
Press pushpiece A to start the chronograph. Hand 3 shows the measurement in seconds.
-
Stop the measurement by pressing pushpiece A once more. The measurement is done in hours (totalizer 1), minutes (totalizer 2), seconds and 1/4 of a second (hand 3).
-
Return the chronograph to zero by pressing push-piece B.
II. MEASURING AN INTERRUPTED SHORT TIME
-
Press pushpiece A to start the chronograph. Hand 3 allows you to follow the measurement in seconds.
-
To interrupt the measurement, press pushpiece A once more. To restart the time measurement, press pushpiece A. This procedure makes it possible to add several short times.
-
The chronograph is reset to zero by pressing push-piece B, once the final measurement has been stopped.
USING THE TACHOMETER
Your chronograph is equipped with two different tachometric devices enabling one to determine the average speed of a vehicle.
1. FIXED TACHOMETER
The tachometric scale makes it possible to determine an average speed calculated on the basis of the time required to cover a fixed distance of 1 kilometer or 1 mile. The place on the scale where the seconds hand has been stopped after the measurement indicates the average speed in km/h (if the distance covered is one kilometer) or in mph (if the distance covered is one mile).
Example 1: if it takes 20 seconds to cover one kilometer or one mile, the average speed is 180 km/h or 180 mph respectively.
natural_image
Close-up of a mechanical watch with visible dial and wrist (no text or symbols)Example 2: if it takes 36 seconds to cover one kilometer or one mile, the average speed is 100 km/h or 100 mph respectively.
natural_image
Close-up of a mechanical stopwatch with dual dials and a magnified inset showing a close-up of the dial (no text or symbols visible)2. VARIABLE TACHOMETER
The variable tachometer enables one to determine an average speed whatever the distance covered, the time elapsed or the speed reached. It is however an approximate measurement device.
The variable tachometer is composed of a fixed scale (a) and a mobile scale or disc (b). The fixed scale is read off clockwise, and the mobile disc in the opposite direction. The graduations between two numbers represent tenths of units. To read off a result, the decimal point must be placed correctly. For example, the figure 3.2 may represent 0.32, 3.2, 32, 320, etc. The fixed scale comprises three reference marks:
- SECONDS (1) on the figure 3.6 (one hour equals 3,600 seconds);
• MINUTES (2) on the figure 6 (one hour equals 60 minutes);
● HOURS (3) on the figure 1 (one hour is the base unit for all calculations).
text_image
1 2 3 a b
(a) Fixed scale
(b) Mobile scale (disc)
2.1 Mode of operation
Always place the distance covered opposite the reference mark serving as the basis for the calculation:
- on SECONDSif the interval is measured in seconds;
- on MINUTES if the interval is measured in minutes;
• on HOURSif the interval is measured in hours.
N.B. The time measured using the chronograph must be converted if necessary into seconds, minutes or hours to correspond to one of the three reference marks on the fixed scale. For example: 1 minute 20 seconds = 80 seconds; 1 hour 10 minutes = 70 minutes, etc.
Example 1: if a vehicle covers 1.5 km (or 1.5 miles) in 45 seconds, what is its average speed?
Solution: place the figure 1.5 (distance covered) on the SECONDSmark of the fixed scale, then read off the result opposite the figure 45 (interval measured); in this case 120 km/h (or 120 m ph).
Example 2: if a vehicle covers 4.5 km (or 4.5 miles) in 1 minute 30 seconds (= 90 seconds), what is its average speed? Solution: place the figure 4.5 (distance covered) on the SECONDSmark on the fixed scale, then read off the result opposite the figure 90 (= 1 minute 30 seconds); in this case 180 km/h (or 180 mph).
Example 3: if a vehicle covers 50km (or 50 miles) in 15 minutes, what is its average speed? Solution: place the figure 50 (distance traveled) on the MINUTESmark on the fixed scale, then read off the result opposite the figure 15; in this case 200km / h (or 200mph ).
Example 4: if a vehicle covers 800 km (or 800 miles) in 5 hours, what is its average speed? Solution: place the figure 800 (distance covered) on the HOURSmark on the fixed scale, then read off the result opposite the figure 5; in this case 1 60 km/h (or 160 mph).
text_image
Three circular analog rulers with measurement markings and pink circular annotations indicating specific readings.2.2 Other uses
Variable tachometric scales can be used for performing other calculations: multi-plications, divisions, rules of three, hourly production rates, hourly consumption or flow rates, heartbeats/minute (pulsometer), etc.
Multiplication: to multiply 3 x 18, place the figure 18 on the fixed scale or the mobile scale opposite the figure 3. The HOURSmark on the fixed scale and figure 1 on the mobile disc both indicate the result, which is 54.
Division: division works in the opposite way to the previous example. To divide 54 by 2, one need only place the figure 54 opposite the HOURSmark on the fixed scale or figure 1 on the mobile disc. The result is read off opposite figure 2 on one or other of the scales. This single operation produces a complete division table of the figure 54:
54:2=27
54:3=18
54:18=3, c tc.
Rule of three: both scales enable one to perform a multiplication and then a division in just one operation. For example, to determine the price of 6 meters of cable, if 1.5 meters costs £9, one places the number 9 opposite the figure 6. The result is shown opposite the figure 1.5; in this case £36.
Hourly production or consumption rate: measuring a production rate or an hourly consumption rate follows the same principle as the measurement of an average speed. For example, if a machine produces 15 units in 45 seconds, what is its hourly production? Solution: place the figure 15 (the quantity produced) on the SECONDSmark on the fixed scale, then read off the result opposite figure 45 (interval measured); in this case 1,200 units per hour.
Pulsometer: the pulsometer enables fast calculation of pulse rate. For example, if 27 beats are measured over a 24-second period, one need only place the figure 27 (number of heart - beats) opposite the MINUTESmarker, and then read off the result opposite figure 24 (length of observation); in this case 67 beats per minute.
SUN COMPASS
Your B REITLING chronometer may be used as a sun compass, thus enabling you to determine the Northerly-Southerly direction. For regions that have instated daylight saving time, subtract one hour when directing the watch.
In the Northern hemisphere
Point the hour hand precisely towards the sun. In relation to the watch dial, the point located midway between the current time and 12 o'clock indi cates the South, the North being exactly opposite.
In the Southern hemisphere
Point the hour-marker located at 12 o'clock on the dial precisely towards the sun. In relation to the watch dial, the point located midway between the current time and 12 o'clock indicates the North, the South being exactly opposite.
^1/_100 th OF AN HOUR DIAL DISPLAY
Your BREITING chronometer is equipped with a scale dividing the hour into hundredths, thus making it easier to read off the minutes on a decimal base. E.g.: 0.6h = 36 minutes.
text_image
12 11 10 9 8 7 6 5 4 3 2 1 0 12 8SPEED BRACELET
The Speed bracelet is equipped with an instantly adjustable comfort extension built into the clasp, a device that is greatly appreciated in hot weather or during long plane journeys.
N.B. At the time of purchase, the bracelet length adjustment must be done with the extension in position 1.
natural_image
Technical line drawing of a mechanical clamp or bracket assembly (no text or symbols)
natural_image
Technical line drawing of a mechanical component with highlighted internal area and red arrows indicating features (no text or symbols)
natural_image
Technical diagram of a mechanical component with arrows indicating direction (no text or symbols)
text_image
② click
text_image
④ click36
MAINTENANCE
Your BREITLING chronometer is a sophisticated instrument which is constantly subjected to a wide variety of stresses and strains. Within a very small volume, a large number of components contribute to handling all the functions. Their mechanical action inevitably leads to a certain amount of wear and tear, which may be controlled by maintenance consisting of renewing the lubrication and replacing worn components. Like any precision measurement instrument, your watch must be regularly maintained in order to function at its highest level of potential: we recommend a regular service every two years, while the complete overhaul should be scheduled about every five years. Your authorized B REITLING dealer will be pleased to handle this for you.
WATER-RESISTANCE
The movement of your chronometer is protected by a complex case fitted with gaskets to ensure its water-resistance. Under the influence of various external agents – perspiration, chlorinated or salt water, cosmetics, fragrances or dust – these gaskets gradually deteriorate and must be regularly replaced. If used intensively in water, we recommend that this be done once a year as part of a service. If the watch is only occasionally used in water, this operation may be carried out every two years. Moreover, a
water-resistance test should be done every year; it takes only a few minutes and can be performed by your authorized B REITLING dealer.
BREITLING models are water-resistant to varying degrees. The extent of the water-resistance, expressed in meters (M) is a standard value and does not indicate an absolute depth of immersion. The crown and pushpieces must not under any circumstances be operated under water or when the watch is wet. The table below indicates the conditions in which your watch may reasonably be used, according to its degree of water-resistance.
| ACTIVITIES/DEGREE OF WATER-RESISTANCE | 3bars/30M/100FT 5bars | 50M/165FT 10bars/100M | M/330FT 50bars/500M/ | G50FT+ |
| Splashing | √ | √ | √ | √ |
| Shower, swimming, surface water sports | √ | √ | √ | |
| Water-skiing, dives, snorkeling | √ | √ | ||
| Diving | √ |
USEFUL TIPS
BREITLING genuine leather straps are crafted with the most refined materials and represent extremely high-quality products. Like all objects in natural skin (shoes, gloves, etc.), their length of life varies considerably,
according to the conditions in which they are worn. In particular, water, cosmetics and perspiration accelerate the aging process. A metal or synthetic BREITLING bracelet is thus better suited to activities involving frequent contact with water or humidity.
BREITLING metal cases and bracelets are made from the finest alloys and guarantee sturdiness and wearer comfort. Regular cleaning by rinsing and brushing in clear water will keep your watch shiny. This operation is strongly recommended after each immersion in salty or chlorinated water. For watches fitted with a leather strap, proceed in the same manner, while avoiding getting the strap wet.
WHAT TO AVOID
Like any valuable objects, B REITLING chronometers deserve special care. It is important to protect them from jarring and knocks by hard objects, and not to expose them to chemical products, solvents, dangerous gases, or magnetic fields. Moreover, your B REITLING chronometer is designed to run smoothly at temperatures ranging between 0°C and 50°C.
IHR BREITLING CHRONOMETER
natural_image
Close-up of a mechanical clock face showing dials, hands, and a magnified inset (no readable text or symbols)text_image
Technical diagram of a mechanical dial with measurement scales and a highlighted circular detail showing magnified view.2. DER VARIABLE TACHOMETER
text_image
Three circular analog rulers with measurement markings and pink circular annotations indicating specific readings.text_image
Diagram showing two circular compass faces with directional arrows and sun symbols, likely illustrating solar or wind patterns.natural_image
Technical line drawing of a mechanical clamp or bracket assembly (no text or symbols)
natural_image
Technical line drawing of a mechanical component with highlighted internal area and red arrows indicating features (no text or symbols)
natural_image
Technical diagram of a mechanical component with arrows indicating direction (no text or symbols)
text_image
② click
text_image
④ clickWARTUNG
natural_image
Close-up of a mechanical watch face showing front and back views with no visible text or symbolsnatural_image
Close-up of a mechanical clock face with visible gears and a magnified inset showing a specific dial (no text or symbols)2. TACHIMETRO VARIABILE
text_image
Three circular analog rulers with pink measurement markings and Chinese labels indicating positions or measurements.2.2 Altri impieghi
natural_image
Technical line drawing of a mechanical clamp or bracket with an arrow indicating motion (no text or symbols)
natural_image
Technical line drawing of a mechanical component with highlighted internal area and red arrows indicating features (no text or symbols)
natural_image
Technical diagram of a mechanical component with arrows indicating direction (no text or symbols)
text_image
② click
text_image
④ click72
MANUTENZIONE
natural_image
Close-up of a mechanical watch with visible dials and a magnified inset showing the time (no text or symbols)natural_image
Close-up of a mechanical stopwatch with dual dials and a highlighted section (no readable text or symbols)2. TAQUÍMETRO VARIABLE
natural_image
Technical line drawing of a mechanical clamp or bracket with a black arrow indicating force direction (no text or symbols)
natural_image
Technical line drawing of a mechanical component with highlighted internal area and red arrows indicating features (no text or symbols)
natural_image
Technical diagram of a mechanical component with arrows indicating direction (no text or symbols)
text_image
② click
text_image
④ clickMANTENIMIENTO
natural_image
Close-up of a mechanical stopwatch with dual dials and a magnified inset showing a close-up of the dial (no readable text or symbols)text_image
Technical diagram of a mechanical dial with labeled components and a magnified inset showing a highlighted section.2. TAQUÍMETRO VARIÁVEL
text_image
Three circular analog rulers with pink measurement labels showing readings in Newtons and secondstext_image
Two circular diagrams with pink annotations highlighting measurement points, likely illustrating a physical or engineering concept.natural_image
Technical line drawing of a mechanical clamp or bracket assembly (no text or symbols)
natural_image
Technical line drawing of a mechanical component with highlighted internal area and red arrows indicating features (no text or symbols)
natural_image
Technical diagram of a mechanical component with arrows indicating direction (no text or symbols)
text_image
② click
text_image
④ clickMANUTENÇÃO
text_image
Technical diagram of a mechanical stopwatch with dual dials and a highlighted circular section showing measurement markings.natural_image
Technical line drawing of a mechanical clamp or bracket with no visible text or symbols
natural_image
Technical line drawing of a mechanical component with highlighted internal area and red arrows indicating features (no text or symbols)
natural_image
Technical diagram of a mechanical component with arrows indicating direction (no text or symbols)
text_image
② click
text_image
④ click126 127
PEMOHT
natural_image
Close-up of a mechanical watch with visible dials, gears, and a magnified inset showing a close-up of the dial (no text or symbols)134 135
natural_image
Close-up of a mechanical stopwatch with dual dials and a magnified inset showing a close-up of the dial (no text or symbols visible)2. 可変タキメーター
text_image
Three circular diagrams showing measurement scales with pink circles and numerical labels, likely illustrating a physical or engineering concept.2.2 その他の使用方法
natural_image
Technical line drawing of a mechanical clamp or bracket with a black arrow indicating force direction (no text or symbols)
natural_image
Technical line drawing of a mechanical component with red arrows indicating force or movement (no text or symbols)
natural_image
Mechanical assembly diagram showing a bracket with internal components and directional arrows (no text or symbols)
text_image
② click
text_image
④ click144 145
メンテナンス
text_image
Technical diagram of a mechanical stopwatch with dual dials and a highlighted circular detail showing measurement markings.natural_image
Close-up of a mechanical stopwatch with dual dials and a magnified inset showing the dial face (no visible text or symbols)2. 可變測速計
natural_image
Technical line drawing of a mechanical clamp or bracket assembly (no text or symbols)
natural_image
Technical line drawing of a mechanical component with red arrows indicating features (no text or symbols)
natural_image
Technical diagram of a mechanical component with arrows indicating direction (no text or symbols)
text_image
② click
text_image
④ click162.163
保養
natural_image
Close-up of a mechanical watch with visible dials and a magnified inset showing a circular detail (no text or symbols)text_image
Technical diagram of a mechanical clock with dual dials and a magnified inset showing a detailed view of the 120-degree cycle.2. 可变测速计
text_image
Three circular analog meters with measurement markings and numerical labels, likely for reading or measuring purposes.2.2 其他用途
natural_image
Technical line drawing of a mechanical clamp or bracket assembly (no text or symbols)
natural_image
Technical line drawing of a mechanical component with highlighted internal area and red arrows indicating force or movement (no text or symbols)
natural_image
Mechanical assembly diagram showing a bracket with mounting holes and a directional arrow (no text or symbols)
text_image
② click
text_image
④ click181 181
