Girard-Perregaux Echappement Constant

93500-53-131-BA6C

Girard-Perregaux Echappement Constant View larger
Girard-Perregaux Echappement Constant

Brand  : Girard-Perregaux
Collection  : Haute Horlogerie
Model  : Girard-Perregaux Echappement Constant
Reference  : 93500-53-131-BA6C
Complement : White Gold - Alligator Bracelet
On sale : 2013

128 000 €Recorded list price in FranceI WANT IT

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  • Brand  : Girard-Perregaux
    Collection  : Haute Horlogerie
    Model  : Girard-Perregaux Echappement Constant
    Reference  : 93500-53-131-BA6C
    Complement : White Gold - Alligator Bracelet
    On sale : 2013
    List Price : 128 000 €
    Diameter : 48 mm
    Styles : Atypical
    High Horology
    Types : Hand-winding
    Calibre : Girard-Perregaux MVT-009100-0007
    Calibre distinction : Silicon constant escapement
    Complication : Power Reserve Indicator
    Case material : White Gold
    Case peculiarity : Sapphire caseback
    Circular satin finished bezel
    Crown with engraved GP logo
    Shape : Round
    Water-resistance : 30 meters
    Dial : Grained
    Dial color : Silver
    Grey
    Display : Skeleton hands
    Dauphine-shaped hands
    Indexes : Baton-type
    Glass : Sapphire
    Antireflective coating
    Domed
    Strap material : Alligator leather
    Strap color : Black
    Strap clasp : Folding buckle
    + More characteristics : Movement
    Caliber: 17½ ’’’
    Frequency: 21.600 Vib/h – (3 Hz)
    Power reserve:
    approximately one week
    Jewels: 28
    Number of components: 271
    Functions: hour. minute. central second. linear power reserve

    Case
    Crown:
    white gold with engraved GP logo
    Case back: sapphire glass. secured with 6 screws. all inscriptions hand engraved

    Dial
    Silvered with grained finish and rhodium-plated appliques

DESCRIPTION

  • Girard-Perregaux Constant Escapement
    The high-tech revolution in motion


    A true technical revolution that stunned connoisseurs when some prototypes of the innovative mechanism were first presented, the Constant Escapement is now integrated into the movements driving the new models of Girard-Perregaux’s Haute Horlogerie collection. It has taken five years of research and development in virtually unexplored territory to consolidate and ensure the reliability of this significant step in watchmaking history.

    The name, in addition to being a nod to one of the Maison’s historical figures, Constant Girard-Perregaux, also refers to a holy grail in mechanical watchmaking that has perplexed watchmakers since the dawn of time: the constant force. Keeping true to its innovative vision, the brand decided to try using a quite novel approach to achieve it.

    The concept presented on that occasion in the form of a functional mechanism was breathtaking, promising and poetic: the design was lightweight and graceful.

    However, the goal was far from being the result of art for art’s sake, this was a new and convincing answer to the age-old preoccupation in watchmaking: the precision and regularity of a mechanical watch.

    To get an idea of what is at stake and truly understand the importance of this innovation, it is worth recalling a few basic notions. The heart of a mechanical watch is ruled by the regulating organ, which manages the flow rate of the energy received from the barrel to drive the gear train and the rotation speed of the hands. The classic image is that of a faucet managing the flow of water.

    The main factor is not so much the speed of the beats of this heart, the chosen frequency, but their regularity. The dance can be three in a bar or four in a bar, or even a thousand; but the essential thing is that it keeps the beat over time.

    All sorts of systems had been dreamed up before the famous Swiss lever escapement was presented in wristwatches, and became more or less standard. Yet it suffers from one drawback: it can only give back the energy it receives from the barrel, which diminishes with time. This energy, which defines its timekeeping accuracy, is too fast to start with, and finishes like a machine running out of steam. A curve, the curse and the bane of watchmakers, illustrates the phenomenon: the curve of the amplitude, or angular displacement of a sprung balance wheel or a pendulum, which lessens towards the end of the run.

    The principle of a constant force escapement is that whatever the energy supplied by the barrel, the escapement returns a constant energy to the regulator (balance wheel) . To achieve this, they had the brilliant idea of integrating an intermediate device into the escapement, consisting of an extremely thin blade that stores the energy up to an invariable threshold bordering on instability, and then transmits it all instantaneously, before recommencing the cycle.

    The inspiration came from an experiment, which anyone can repeat by holding a train ticket vertically between thumb and forefinger, bending it to form a C or an open round bracket. If you then apply pressure from the side you will feel resistance until the moment when the card snaps to the other side to mirror its former shape, and close the round bracket. Try it with a business card, it works every time.

    The phenomenon of instability is known as buckling, which is the passage from a state of compression to one of bending. Spring specialists thus speak of buckled blades. Here, the silicon blade measures one sixth of a hair’s thickness and plays the role of a micro-accumulator of energy. This blade is flexed to a point as close as possible to its unstable state, and only needs an infinitesimal quantity of energy – a micro-impulse given by the balance wheel (less perturbing than in a lever escapement) – for it to snap from one state to the other, and in the process, to push the balance wheel forward, compensating for the variable energy of the barrel and liberating the same quantity of energy every time.

    Unlike other systems that propose a constant force averaged over time, this is an authentic constant force escapement, as the force is instantaneous and continuous. And indeed, it is quite measurable using laboratory testing methods.

    The designers chose a symmetrical double construction. This was not for aesthetic reasons, but to balance the forces at the center of the balance wheel and avoid a concentration of constraints at that point in order to ensure totally unencumbered rotation.

    The blade is formed in one piece with the frame which holds it by both ends and plays a decisive role in the very precise locking of the point of contact for the microimpulse which will make it snap over. The relatively simple principle brings with it the need for absolute precision to put it into practice, which would have been impossible before the use of silicon and the arrival of new part manufacturing techniques, such as deep reactive ion etching (DRIE). The partnership with CSEM) in Neuchâtel, Switzerland was decisive. Watchmaking experts and physicists carried out complex calculations to determine the characteristics of the blade, and the many factors governing the buckling point. In the end, the structure of the device incorporating the blade is monolithic. It is held in virtual levitation and undergoes no friction except at the moment of the impulse and the flexing of the blade. The energy of the blade is directly transmitted back to the balance wheel.

    Since the blade is the key element of the Constant Escapement, its natural vibration governed the choice of frequency: it will be 3 Hz (21.600 vibrations per hour) for the magic to work. But the future remains open, and tests have already been carried out at other frequencies. In any case, the challenge here is not about high frequencies. The two escapement wheels look nothing like those found in a lever escapement.

    They have three teeth for a frequency of 3 Hz, and would need four for 4 Hz. The movement was designed to run for several days with a linear power reserve indicator on the dial, demonstrating the efficiency of this escapement in the long run. The energy is supplied by two barrels coupled in parallel (a new patented design): the cover and the ratchet are a single piece to maximize the thickness available and each drum contains two springs stacked in series. Two other patents have been filed: one for the blade naturally, filed back in 2008, the other for the incorporation of limit stops in a flexible system.

    While silicon was the material of choice for its ideal properties in the design and manufacture of the blade, it may be replaced by other materials for escapement wheels, while the movement blanks are in brass coated in black PVD for a contemporary look. The movement’s aesthetic is meant to be technical, threedimensional, but also to give a nod to tradition, with references to the brand’s icons such as its famous three Bridges, laid out in a fresh way on its dial side, while on the back there are two arrow bridges.

    To cap it all, this revolutionary movement looks ahead to after sales servicing right from the drawing board stage: the whole of the escapement is a module and can be handled by a specialized watchmaker.

    First model in the Constant Escapement collection

    In housing this unique movement with its totally original and innovative escapement, the case had to do justice to the feat of engineering, to showcase it without hiding behind it.

    Launching the Haute Horlogerie Constant Escapement collection, the first model to be equipped with the device stands out with its resolutely technical and contemporary design, with a nod Girard-Perregaux’s codes and its creative tradition. The movement takes its place in a comfortable round 48 mm diameter case in white gold with a curved case band.

    To offer maximum visibility to the escapement itself, with its butterfly wing frame and the vibrating blade in its central axis, the hours and minutes occupy a sub-dial offcentered at 12 o’clock. This is flanked by the two energy reservoirs in the shape of the double barrels. Logically linear, the power reserve indicator is placed at 9 o’clock.

    The whole of the lower part of the watch is reserved for the Constant Escapement, which occupies center stage and steals the show, beating at the frequency of 3 Hz or 21,600 vibrations per hour. Under the anti-glare treated sapphire glass the brand’s three emblematic bridges are visible and play their structural role in a novel layout. This manually wound caliber is no thicker than 8 mm, while the case that houses it measures 14.63 mm, with a wide open sapphire glass back held in place by 6 screws offering another angle of view on the remarkable 3-D construction of this unique movement.

    With its hand-sewn alligator strap and folding clasp, the model will be offered in Girard-Perregaux’s Haute Horlogerie collection.

    Girard-Perregaux Constant Escapement at a glance

    - A revolutionary concept addressing a holy grail of watchmaking, Constant Force. A breakthrough in the field of chronometry with a completely new architecture and design of the escapement (3 different patents).

    - Unprecedented precision: a victory over waning power in traditional mechanical watches, through constant power delivery to the oscillator meaning constant amplitude and constant rate.

    - Avant-garde materials and advanced technology. Use of a 14 micron silicon buckled-blade, a strategic component 6 times thinner than a human hair.

    - Long power reserve and linear indicator due to an innovative double twin barrel (patent pending). A total length of 3 meters of barrel spring.

    - Spectacular avant-garde design inspired by the Girard-Perregaux tradition. When Girard-Perregaux changed the sound of time…

    The amplitude, accuracy and beat of mechanical watches are measured analyzing the sound of the movement. The ticking sound of mechanical watches (the sound made by two rubies banging into the steel teeth of the escape wheel for Swiss lever escapements) is recognized and analyzed by electronic devices.

    With the revolutionary architecture of the constant escapement, the devices are totally inoperative making necessary the use of laser Cameras to measure the accuracy of the movement.

    More poetically, one can simply hear the different sound produced by the constant escapement…

    CSEM, an innovation partner
    CSEM, Centre Suisse d' Electronique et de Microtechnique (Swiss Center for Electronics and Microtechnology), offers technological know-how and manufacturing experience to its partners; exploiting its advanced technologies to provide new integrated solutions. It is the ideal partner to complement Girard-Perregaux’s technical watchmaking expertise and experience, especially in the manufacture of high-precision, 3D, microfabricated silicon components.

    Silicon has the right characteristics — no other material could be used for the Constant Escapement application. It has particularly well known properties including some that were essential to realizing Girard-Perregaux’s Constant Escapement concept. The deep reactive ion etching method of producing silicon components makes it possible to manufacture extremely complex shapes with extreme precision which gives a lot of freedom to the design. Silicon is light and not magnetic. It has an excellent friction coefficient and doesn’t require any lubricant. Last, it has a high elastic limit and no fatigue effect.

  • Girard-Perregaux Constant Escapement
    The high-tech revolution in motion


    A true technical revolution that stunned connoisseurs when some prototypes of the innovative mechanism were first presented, the Constant Escapement is now integrated into the movements driving the new models of Girard-Perregaux’s Haute Horlogerie collection. It has taken five years of research and development in virtually unexplored territory to consolidate and ensure the reliability of this significant step in watchmaking history.

    The name, in addition to being a nod to one of the Maison’s historical figures, Constant Girard-Perregaux, also refers to a holy grail in mechanical watchmaking that has perplexed watchmakers since the dawn of time: the constant force. Keeping true to its innovative vision, the brand decided to try using a quite novel approach to achieve it.

    The concept presented on that occasion in the form of a functional mechanism was breathtaking, promising and poetic: the design was lightweight and graceful.

    However, the goal was far from being the result of art for art’s sake, this was a new and convincing answer to the age-old preoccupation in watchmaking: the precision and regularity of a mechanical watch.

    To get an idea of what is at stake and truly understand the importance of this innovation, it is worth recalling a few basic notions. The heart of a mechanical watch is ruled by the regulating organ, which manages the flow rate of the energy received from the barrel to drive the gear train and the rotation speed of the hands. The classic image is that of a faucet managing the flow of water.

    The main factor is not so much the speed of the beats of this heart, the chosen frequency, but their regularity. The dance can be three in a bar or four in a bar, or even a thousand; but the essential thing is that it keeps the beat over time.

    All sorts of systems had been dreamed up before the famous Swiss lever escapement was presented in wristwatches, and became more or less standard. Yet it suffers from one drawback: it can only give back the energy it receives from the barrel, which diminishes with time. This energy, which defines its timekeeping accuracy, is too fast to start with, and finishes like a machine running out of steam. A curve, the curse and the bane of watchmakers, illustrates the phenomenon: the curve of the amplitude, or angular displacement of a sprung balance wheel or a pendulum, which lessens towards the end of the run.

    The principle of a constant force escapement is that whatever the energy supplied by the barrel, the escapement returns a constant energy to the regulator (balance wheel) . To achieve this, they had the brilliant idea of integrating an intermediate device into the escapement, consisting of an extremely thin blade that stores the energy up to an invariable threshold bordering on instability, and then transmits it all instantaneously, before recommencing the cycle.

    The inspiration came from an experiment, which anyone can repeat by holding a train ticket vertically between thumb and forefinger, bending it to form a C or an open round bracket. If you then apply pressure from the side you will feel resistance until the moment when the card snaps to the other side to mirror its former shape, and close the round bracket. Try it with a business card, it works every time.

    The phenomenon of instability is known as buckling, which is the passage from a state of compression to one of bending. Spring specialists thus speak of buckled blades. Here, the silicon blade measures one sixth of a hair’s thickness and plays the role of a micro-accumulator of energy. This blade is flexed to a point as close as possible to its unstable state, and only needs an infinitesimal quantity of energy – a micro-impulse given by the balance wheel (less perturbing than in a lever escapement) – for it to snap from one state to the other, and in the process, to push the balance wheel forward, compensating for the variable energy of the barrel and liberating the same quantity of energy every time.

    Unlike other systems that propose a constant force averaged over time, this is an authentic constant force escapement, as the force is instantaneous and continuous. And indeed, it is quite measurable using laboratory testing methods.

    The designers chose a symmetrical double construction. This was not for aesthetic reasons, but to balance the forces at the center of the balance wheel and avoid a concentration of constraints at that point in order to ensure totally unencumbered rotation.

    The blade is formed in one piece with the frame which holds it by both ends and plays a decisive role in the very precise locking of the point of contact for the microimpulse which will make it snap over. The relatively simple principle brings with it the need for absolute precision to put it into practice, which would have been impossible before the use of silicon and the arrival of new part manufacturing techniques, such as deep reactive ion etching (DRIE). The partnership with CSEM) in Neuchâtel, Switzerland was decisive. Watchmaking experts and physicists carried out complex calculations to determine the characteristics of the blade, and the many factors governing the buckling point. In the end, the structure of the device incorporating the blade is monolithic. It is held in virtual levitation and undergoes no friction except at the moment of the impulse and the flexing of the blade. The energy of the blade is directly transmitted back to the balance wheel.

    Since the blade is the key element of the Constant Escapement, its natural vibration governed the choice of frequency: it will be 3 Hz (21.600 vibrations per hour) for the magic to work. But the future remains open, and tests have already been carried out at other frequencies. In any case, the challenge here is not about high frequencies. The two escapement wheels look nothing like those found in a lever escapement.

    They have three teeth for a frequency of 3 Hz, and would need four for 4 Hz. The movement was designed to run for several days with a linear power reserve indicator on the dial, demonstrating the efficiency of this escapement in the long run. The energy is supplied by two barrels coupled in parallel (a new patented design): the cover and the ratchet are a single piece to maximize the thickness available and each drum contains two springs stacked in series. Two other patents have been filed: one for the blade naturally, filed back in 2008, the other for the incorporation of limit stops in a flexible system.

    While silicon was the material of choice for its ideal properties in the design and manufacture of the blade, it may be replaced by other materials for escapement wheels, while the movement blanks are in brass coated in black PVD for a contemporary look. The movement’s aesthetic is meant to be technical, threedimensional, but also to give a nod to tradition, with references to the brand’s icons such as its famous three Bridges, laid out in a fresh way on its dial side, while on the back there are two arrow bridges.

    To cap it all, this revolutionary movement looks ahead to after sales servicing right from the drawing board stage: the whole of the escapement is a module and can be handled by a specialized watchmaker.

    First model in the Constant Escapement collection

    In housing this unique movement with its totally original and innovative escapement, the case had to do justice to the feat of engineering, to showcase it without hiding behind it.

    Launching the Haute Horlogerie Constant Escapement collection, the first model to be equipped with the device stands out with its resolutely technical and contemporary design, with a nod Girard-Perregaux’s codes and its creative tradition. The movement takes its place in a comfortable round 48 mm diameter case in white gold with a curved case band.

    To offer maximum visibility to the escapement itself, with its butterfly wing frame and the vibrating blade in its central axis, the hours and minutes occupy a sub-dial offcentered at 12 o’clock. This is flanked by the two energy reservoirs in the shape of the double barrels. Logically linear, the power reserve indicator is placed at 9 o’clock.

    The whole of the lower part of the watch is reserved for the Constant Escapement, which occupies center stage and steals the show, beating at the frequency of 3 Hz or 21,600 vibrations per hour. Under the anti-glare treated sapphire glass the brand’s three emblematic bridges are visible and play their structural role in a novel layout. This manually wound caliber is no thicker than 8 mm, while the case that houses it measures 14.63 mm, with a wide open sapphire glass back held in place by 6 screws offering another angle of view on the remarkable 3-D construction of this unique movement.

    With its hand-sewn alligator strap and folding clasp, the model will be offered in Girard-Perregaux’s Haute Horlogerie collection.

    Girard-Perregaux Constant Escapement at a glance

    - A revolutionary concept addressing a holy grail of watchmaking, Constant Force. A breakthrough in the field of chronometry with a completely new architecture and design of the escapement (3 different patents).

    - Unprecedented precision: a victory over waning power in traditional mechanical watches, through constant power delivery to the oscillator meaning constant amplitude and constant rate.

    - Avant-garde materials and advanced technology. Use of a 14 micron silicon buckled-blade, a strategic component 6 times thinner than a human hair.

    - Long power reserve and linear indicator due to an innovative double twin barrel (patent pending). A total length of 3 meters of barrel spring.

    - Spectacular avant-garde design inspired by the Girard-Perregaux tradition. When Girard-Perregaux changed the sound of time…

    The amplitude, accuracy and beat of mechanical watches are measured analyzing the sound of the movement. The ticking sound of mechanical watches (the sound made by two rubies banging into the steel teeth of the escape wheel for Swiss lever escapements) is recognized and analyzed by electronic devices.

    With the revolutionary architecture of the constant escapement, the devices are totally inoperative making necessary the use of laser Cameras to measure the accuracy of the movement.

    More poetically, one can simply hear the different sound produced by the constant escapement…

    CSEM, an innovation partner
    CSEM, Centre Suisse d' Electronique et de Microtechnique (Swiss Center for Electronics and Microtechnology), offers technological know-how and manufacturing experience to its partners; exploiting its advanced technologies to provide new integrated solutions. It is the ideal partner to complement Girard-Perregaux’s technical watchmaking expertise and experience, especially in the manufacture of high-precision, 3D, microfabricated silicon components.

    Silicon has the right characteristics — no other material could be used for the Constant Escapement application. It has particularly well known properties including some that were essential to realizing Girard-Perregaux’s Constant Escapement concept. The deep reactive ion etching method of producing silicon components makes it possible to manufacture extremely complex shapes with extreme precision which gives a lot of freedom to the design. Silicon is light and not magnetic. It has an excellent friction coefficient and doesn’t require any lubricant. Last, it has a high elastic limit and no fatigue effect.

  • Brand  : Girard-Perregaux
    Collection  : Haute Horlogerie
    Model  : Girard-Perregaux Echappement Constant
    Reference  : 93500-53-131-BA6C
    Complement : White Gold - Alligator Bracelet
    On sale : 2013
    List Price : 128 000 €
    Diameter : 48 mm
    Styles : Atypical
    High Horology
    Types : Hand-winding
    Calibre : Girard-Perregaux MVT-009100-0007
    Calibre distinction : Silicon constant escapement
    Complication : Power Reserve Indicator
    Case material : White Gold
    Case peculiarity : Sapphire caseback
    Circular satin finished bezel
    Crown with engraved GP logo
    Shape : Round
    Water-resistance : 30 meters
    Dial : Grained
    Dial color : Silver
    Grey
    Display : Skeleton hands
    Dauphine-shaped hands
    Indexes : Baton-type
    Glass : Sapphire
    Antireflective coating
    Domed
    Strap material : Alligator leather
    Strap color : Black
    Strap clasp : Folding buckle
    More characteristics : Movement
    Caliber: 17½ ’’’
    Frequency: 21.600 Vib/h – (3 Hz)
    Power reserve:
    approximately one week
    Jewels: 28
    Number of components: 271
    Functions: hour. minute. central second. linear power reserve

    Case
    Crown:
    white gold with engraved GP logo
    Case back: sapphire glass. secured with 6 screws. all inscriptions hand engraved

    Dial
    Silvered with grained finish and rhodium-plated appliques