Dubai PR Network, Online Press Release from Dubai and Middle East
Filter PR by
Ulysse Nardin InnoVision 2: undisputed pioneer of innovations in timekeeping
Ulysse Nardin InnoVision 2: undisputed pioneer of innovations in timekeeping

Dubai, UAE, February 12, 2017:  Without Rolf W. Schnyder in the early 1980s, who knows what would have become of Ulysse Nardin? Following the quartz crisis, which also had serious repercussions for our competitors, there were difficult times for the traditional brand which was founded in 1846. The visionary entrepreneur’s purchase of the brand heralded a new sense of innovation which pervaded Ulysse Nardin after 1983. Clear evidence of this can be seen in the Astrolabium Galileo Galilei in 1985, the Planetarium Nicolaus Copernicus 1988, the Tellurium Johannes Kepler 1992 or the Perpetual Ludwig 1996, a hitherto unparalleled perpetual calendar. These pieces are accepted as milestones in watchmaking. 

Ludwig Oechslin was the driving force behind this and other exceptional timepieces which put Ulysse Nardin back at the very center of the horological world following long years of absence. At the start of the 21st century, he was also the decisive influence behind the first use of a material which had only been known for its use in electronic components up to then. This was not the only reason why “Freak”, launched in 2001, was the embodiment of a real revolution. Its innovative “Dual Direct escapement” made anchors and escapement wheels as unnecessary as rubies for friction reduction or oil for lubrication. Energy is transferred directly to the balance wheel by two drive wheels made of light, hard but highly flexible and entirely non-magnetic silicium with extremely smooth surfaces. There is no other way of saying it: this watch heralded an unprecedented new era in mechanical watchmaking. Ulysse Nardin was subsequently the first watch manufacturer in the world to use thermally stabilized silicium for the core of all its conventionally ticking watches. By this we mean the tiny but absolutely essential balance spring. This made Ulysse Nadin the silicon pioneer of mechanical watchmaking.

Of course, the research did not stop with the introduction of the legendary “Freak”. Quite the opposite. The deve-lopment team felt particularly invigorated by the challenge and went on to discover the benefits of using diamonds in watch movements. 2005 saw the launch of the “Freak Diamond heart” and with it the first components made from the hardest material currently known to man. Because of the immense costs this entailed, the significantly more affordable “DIAMonSIL” was brought out in 2007. In this watch, the silicium escapement parts are covered in a synthetic nanocrystalline diamond film. In terms of hardness, this synthesis is in no way inferior to pure diamond.

In the same year, Ulysse Nardin made a splash again with the “InnoVision 1”. Ten different features in total really made this watch stand out from its rivals. For several hundred years, brass, steel and artificial rubies had played a crucial role in the manufacture of mechanical movements. But now Ulysse Nardin demonstrated that the time was right for a whole new range of materials and production technologies to be used in watchmaking. Selective photolithography technology had a large role to play in the manufacturer’s innovations. This features “DRIE” (Deep Reactive Ion Etching) and LIGA (the German acronym for Lithography, Electroplating and Molding). This was the first time that these had been combined in one technique, with each technology offering unforeseen possibilities for the design of movement components. This signaled the start of a long road towards new horizons in timekeeping for Ulysse Nardin. At the Geneva Watch Fair SIHH 2017, under the aegis of CEO Patrik Hoffmann, the “InnoVision 2” marked an important milestone for the watch manufacturer, with its ten unrivaled, sensational innovations. 

InnoVision 2

There is no doubt the current essence of the Ulysse Nardin Research and Develop-ment team’s comprehensive expertise is captured by the InnoVision 2. On one hand, this can be seen in the fundamental design features, such as the self-winding mechanism, the oscillator, the escapement and the time display. On the other hand, there is the use of ground-breaking materials and state-of-the-art production technologies. In all, this exceptional watch boasts of ten innovations which were the talk of the Geneva Watch Fair SIHH 2017, which Ulysse Nardin happened to be attending for the first time in the company’s history. 

Innovation 1: 
Dual Constant escapement

The escapement carries out two fundamental tasks in mechanical watches. 

Firstly, it prevents unrestricted unloading of the spring mechanism. Secondly, the escapement transfers regular pulses to the oscillation system to maintain the oscillations from the balance wheel and the balance spring. With the Dual Direct escapement which was launched in 2001, Ulysse Nardin had already set new standards in efficiency. In a traditional Swiss escapement, a large amount of the energy supplied actually needs to be used by the escapement. What is more, and this was also typical of Dual Direct, the force of the impulses relayed to the escapement decreases with the decreasing torque of the main spring. As a result, this reduces the amplitude of the balance wheel which in turn has a negative effect on accuracy. This is exactly what the “Dual Constant” counteracts. It is a sophisticated constant force escapement. The small pulses that are transmitted to the balance wheel and balance spring are always equal because they are not dependent on the tension of the mainspring. This is made possible by a complex silicium structure with locking elements, which interacts with silicium escapements which are as cleverly designed in this movement as they were in the “Dual Direct”. 

The key feature is the flexible silicium blades, which are initially pre-tensioned by the mechanism for each half-oscillation of the balance wheel. This means that they absorb around 150 nanojoules of energy. 60 nanojoules of this is released rapidly and highly accurately to the oscillation system during the subsequent shift from a stable to a metastable state. And this continues until the power of the watch is drained. The special feature of the blocking lever which catches hold of the escapement wheels is that it is held by the flexible blades. This removes the need for a bearing shaft; an advantage, as this would inevitably reduce friction. Logically, the constant-force escapement, which is pending patent, has a very positive effect on isochronism. By this, watchmakers mean that every half-oscillation of the balance wheel lasts exactly the same length of time, independent of the balance wheel’s amplitude. Of course, it goes without saying that the accuracy of this thoroughly extraordinary timepiece is second to none. (2 patents issued, 1 patent pending).

Innovation 2:
Direct silicium bonding

DRIE (Deep Reactive Ion Etching) is the name of the photolithography deep etching process used by Ulysse Nardin to produce the escapement element from monocrystalline silicium. A two-part production process is required, owing to the extreme complexity and three-dimensional structure. The two parts must then be connected together. Bonding is used to achieve this, a process which dates back to 1986. However, Ulysse Nardin uses it to manufacture relatively small watch components for the first time. The sealed bond is created by compressing hydrophobic surfaces at process temperatures of between 1800 and 2200 degrees Fahrenheit (1000 to 1200 degrees Celsius) with the addition of oxygen. What is novel here is that the process creates stable silicium oxide joins, which spread in all directions from the first contact point on the vertical surfaces. In this way, what was originally two becomes one.  (1 patent pending).

Innovation 3:
Silicon balance wheel with gold mass elements and stabilizing micro paddles

Anyone who wishes to measure the constant passing of time must firstly divide it into equal segments and then count them meticulously. Whether electronic or mechanical, this is exactly what watches do. In conventional timepieces, the escapement is responsible for this: in other words, the balance wheel and the balance spring in unison.

In the InnoVision 2, Ulysse Nardin uses silicium for both of these components as a matter of course, owing to the material’s wide-ranging beneficial properties. It has a density which is 3.6 times lower than the Glucydur used to make conventional balance wheels. Furthermore, silicium has a high degree of homogeneity, making it very conducive to facilitating equal mass distribution. In addition, the raw material is non-magnetic, corrosion- and shock-resistant and highly flexible despite its great hardness. 

Now we come to the balance wheel: For engineers and watchmakers, a balance wheel must fulfill precisely defined criteria. Its center must have the lowest possible mass yet a high moment of inertia.

The InnoVision 2’s new balance wheel possesses precisely these apparently contradictory characteristics. The part that might loosely be described as the body is a real flyweight at only seven milligrams. Ulysse Nardin uses the DRIE process to form it from silicium wafers. Oxidizing the surface creates the required thermo and mechanical stability. Moreover, the oxidization process results in slightly rounded edges. The unusual shape of the regulator lever, which looks like a paddle, is no coincidence. It maintains constant oscillation by smoothing air turbulence within the casing. In addition, and even more importantly, in this watch, the different amplitudes caused by switching between horizontal and vertical positions are equalized. Ultimately, this means that the quality factor is not compromised whatever its position. This is calculated by the number of oscillations performed by the balance wheel and spring without the need for more energy. With a view to gearing control, at 8 mg cm², the balance wheel’s remarkably high. The moment of inertia can be adjusted with small gold elements included in the outer mass sectors in order to adjust the chronometrical precision. All in all, the entire balance wheel’s mass is significantly lower than that of conventionally constructed examples. This is what watchmaking progress looks like. (1 patent pending).

Innovation 4:

Wearable timepieces have had automatic winding since around 1770. This was devised to eliminate the need for a key to tighten the mainspring. Self-winding found its way to the wrist in the 1920s. 1932 brought about the single-direction rotor with unlimited rotation. 

It was another ten years before the oscillating weight delivered energy to the barrel in both rotational directions for the first time. Since then, engineers, technicians and watchmakers have been permanently focused on finding ways to optimize the function and efficiency of the automatic winding mechanism. In particular, systems polarizing the movements of the rotor have offered and continue to offer a lot of potential. A part of the conventionally constructed transmission shows a noticeable loss of friction and a notable degree of inefficient idling. This was reason enough for Ulysse Nardin to radically redesign the InnoVision 2’s self-winding mechanism, following a thorough analysis. At the start of the chain of automatic energy generation there is a centrally located ball-bearing rotor. Underneath it has three further small ball-bearings, which operate on two pairs of leaf springs in a filigree-shaped structure. The ring attached to this has a total of four springy ratchets. Its small, hook-shaped free end engages with the angular serrated winding wheel centered above the barrel. Each rotation of the oscillating weight makes the structure and the ring oscillate. This makes one or two of the four ratchets move the winding wheel in the clockwise direction, as viewed from the rear. 

Finally an elaborate, two-stage satellite-reduction gear is needed. This transforms the relatively quick but low-energy actions of the innovative excenter changer into slow and therefore more powerful actions capable of tightening the centered mainspring. 

“Grinder”, which is the name of the innovative self-winding mechanism, justifiably makes one think of high-performance yachting, with which Ulysse Nardin is closely associated through the Swedish Artemis team. This automatic winding system em-bodies the efficiency which is the priority when setting sail on a fast-paced yacht. It transforms even the tiniest amounts of kinetic energy into potential. There is virtually no idling. If necessary, the mainspring can of course be tightened by turning the rear bezel, as is also the case for “Freak”. (1 patent issued, 1 patent pending).

Innovation 5:
Sapphire-coated silicium center wheel bridge 

The various advantages of silicium in mechanical movements are now sufficiently well-known. As early as 2007, Ulysse Nardin proved that there is always room for im-provement by coating silicon components with a synthetic, nanocrystalline diamond film. 
With ten Mohs or 10,600 Vickers, the most precious raw material is also the hardest available. In second place come sapphire or corundum with nine Mohs or 2,200 Vickers. This is why Ulysse Nardin, in collaboration with the EPFL High School of Lau-sanne and Sigatec, has now developed an innovative and therefore patented method for coating silicium with a wafer-thin film of sapphire. Obviously, the thickness of the coating of around one micrometer (μm) must be taken into account during construction. The Innovision 2’s elongated center wheel bridge is made from this innovative combination of materials. The entire component has harder surfaces and a higher mechanical stability as a consequence. And all this for a more favorable price than using the proven diamond coating.  (1 patent issued).

Innovation 6:
24-Karat hard gold gear train wheels

Gear wheels in mechanical movements are conventionally made of brass. Not so in the InnoVision 2. Ulysse Nardin very purposefully chose hard gold for these components. If the gear wheels that are conventionally used in time-keeping gear trains interact with steel pinions then friction will occur as a logical consequence. Using gold ensures a better and therefore more efficient transfer of force. This has a positive effect on the energy consumption of the whole mechanism and ultimately on the power reserve of the watch. Once the gold gear wheels have been manufactured using the photolithographic LIGA process, it is possible to create an attractive outer surface with delicate and stable structures.

Innovation 7:
Glass balance wheel bridge with integrated shock protection 

Nowadays, a movement without shock protection would be unthinkable. Classic designs, such as the “Incabloc” comprise a total of five micro elements. These include the bearings, the fixed bearing jewel and the endstone jewel and a spring. The ring jewel, which may move in its bearing if there is a large impact, is pushed back into its central position by the spring. As a result, frictional resistance must obviously be overcome. This is not the case with the InnoVision 2’s innovative system. Ulysse Nardin manufactures the balance cock itself and the entire integrated shock protection system from glass. The system consists of a coil spring held in place by resiliently suspended balance shaft bearings and a height-restricted cover. The bearing returns to its original position without being slowed by friction thanks to this innovative monobloc construction method, as the glass spring simply moves back to its rest position. In addition to flexibility and strength, glass exhibits extraordinarily good frictional behavior. In contrast to silicium, which the 2007 InnoVision 1’s balance wheel bridge and shock protection were made from, glass is completely transparent and is nowhere near as fragile as it might appear to be at first glance. Ulysse Nardin has relevant expertise in this field, thanks to its previous experiments with glass.

Innovation 8:
Super LumiNova filled channels integrated into the glass balance wheel bridge

Manufacturing the InnoVision 2’s balance cock from transparent glass offered un-foreseen opportunities to the engineers and material scientists. During the production of this component, they were able to create delicate channels within it. When it is dark, impressive light effects are created thanks to the use of Super LumiNova filled in the channels. The manufacturer has a patent pending for this sophisticated process. (1 patent pending).

Innovation 9:
Eye-catching 1 – 11 and 13 – 23 time display

It is generally known that a whole day comprises 24 hours, which are conventionally divided into two times twelve. When it comes to ways displaying exactly what the time is, there are some examples of hands which only rotate around their axis once every 24 hours or additional day-night indicators. Looking at what the market currently offers, Ulysse Nardin has taken an innovative, if not entirely new step with the InnoVision 2. The display represents the hours 1 to 11 first and then those from 13 to 23 digitally. The digits can be read through appropriately shaped apertures. The corresponding printed ring is moved directly by the large barrel. The respective mechanism requires 15 minutes each time it switches between midday and midnight. (The hours before (AM) and after (PM) midday appear in the windows in different colors.) Ulysse Nardin has applied for a patent for this extraordinary time display. (1 patent pending).

Innovation 10:
Three-dimensional glass minute hands

Be honest now ! In the course of a day, men, and some women too, look at their watch more often than they look in the mirror. Alongside the exceptional digital time display, the InnoVision 2 also has a minute hand which is unrivaled on the market. In truth, it is a three-dimensional glass sculpture, manufactured using precision laser cutting. The resolution that can be achieved through this process is in the range of three to five micrometers. To ensure that the delicate glass creation is not damaged by violent impacts, it sits on a fine metal plate.

Posted by : BIZ COM - For Proactive Communications,
Viewed 24815 times
PR Category : Lifestyle
Posted on : Sunday, February 12, 2017  5:46:00 PM UAE local time (GMT+4)
Replication or redistribution in whole or in part is expressly prohibited without the prior written consent of
Email this article Print this article

Share this article with your friends and followers
Back to BizCom PR

Related Stories

Most Viewed Press Release posted in the last 7 days
Mitch Evans Looks For Another Italian Triumph As Formula E Descends On Rimini Debut - Wher... [18249-Views]
Oliver rowland wins misano e-prix opener after antonio felix da costa disqualification [15313-Views]
Khabib's Official Training Gloves Will Be Sold at Tooba Charity Auction in Dubai [14301-Views]
Victory for Pascal Wehrlein after last Lap Heartbreak for Rowland [13563-Views]
Formula E and FIA to unveil new gen3 evo race car at upcoming monaco E-prix [9733-Views]
The Tortue Watch: A Perpetually Reinvented Timepiece [7581-Views]
Henry Jacques launches Collection de l'Atelier [7396-Views]
Tag Heuer Monaco Split-Seconds Chronograph: Watches & Wonders 2024 [7351-Views]
South Indian Cinema Megastars Rana Daggubati, Rockstar DSP Akul Balaji, Vijay Raghavendra,... [6753-Views]
Mansour bin Mohammed congratulates Hamdan bin Mohammed on the Qatar-UAE Super Shield crown [6732-Views]
Sivakov takes final stage of Giro D'Abruzzo [5847-Views]
Nikai unveils next-generation Google TVs redefining home entertainment [5650-Views]
Goodbye to the Grrr-Eight One: Jeep® Brand Announces 2024 Wrangler Rubicon 392 Final Editi... [5289-Views]
Abt Joins Forces With Lola And Yamaha For Formula E's Ground-Breaking Gen3 Evo Era [5195-Views]
Jan Christen takes first professional victory at Abruzzo [4662-Views]
Swiss International School Dubai students get seven-star work experience at Burj Al Arab [4576-Views]
Turkish Airlines closes 2023, carrying 83.4 million passengers with a 23.5% increase in do... [4572-Views]
MoHAP lights up UAE landmarks in blue to mark World Health Day. [4428-Views]
Heritance Aarah Maldives: Your Summer Culinary Getaway [4399-Views]
World Future Energy Summit Opens with Collective Call for Collaboration on ‘Pathway to 1.5... [4354-Views]
Hitachi Energy unveils cutting-edge solutions at Middle East Energy 2024 [4244-Views]
UAE Participates in 2024 Spring Meetings of IMF and WBG [4178-Views]
AUS secures top spots in academic and employer reputation in UAE, announces QS World Unive... [4125-Views]
Zone in with oakley® latch panel: Take Control Of The Chaos With New Lifestyle Sunglasses [4125-Views]
Kia wins prestigious 2024 Car Design Award for Brand Design Language with ‘Opposites Unit... [4038-Views]
RSS Facebook Twitter LinkedDin on Instagram
Top Sections
Top Stories