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Internal structure of the patented sole

The Rhenwing sole structure 

The insole is composed of an exoskeleton which supports the sole of the foot and has elastic damping on the bottom so it is personalised and restores 97% of the energy accumulated when the foot touches the ground.

In addition, the RHENWING inole is also "self-moulding". This means that it will follow
the movement of your foot without any manipulation or training of the foot with mechanical intervention. 

This leads to a sole that takes into consideration your footprint.

Regarding the semi-rigid "thermo-moulding" technology integrating the reinforced arch plant, the sole will previously be heated for the first use in order get a customised arch plant fitting exactly to your foot which will lead to a rebound effect that will be appreciated during intensive effort.

The thermo-moulding technology associates the « self-moulding »  technology of the sole with all its benefit like the respect of the natural movement of the foot and stabilisation which is fundamental to follow the rules of biomechanics.

The internal design or "exoskeleton" makes a fundamental difference for the foot, because it is the unique insole that provides additional support at the end of the toes which prevents the foot sliding forward with additional propulsion.

 The "RHENWING" insole is a real REVOLUTION.

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STABILIZATION
&
BRAKING
metatarsal heads
SUPPORT & STABILIZATION
of the arch of the foot
AMORTIZATION
& STABILIZATION
heel
STABILIZATION
toes
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WORLDWIDE PATENTED TECHNOLOGY FROM
SWITZERLAND

TECHNOLOGY'S ORIGIN

Initially, the soles were developed for post-operative cases during many years.

​The basis of this patent enhances stabilisation, cushion and eliminates movement of the foot inside a shoe and above all enables a re-education of the foot to move naturally by itself without mechanical intervention.

 

Following to high recovery and many successful results on various cases, we are now making our patent available for everyone and for all sports.

WHY WE DO TESTS?

First and foremost we are scientists and therefore our code of ethics requires us to improve product performance. Our team of researchers (Professor of orthopedic trauma and sports surgery, engineers in biomechanics and the contribution of high-level athletes) will only be based on concrete results.

In addition, we are very surprised by the number of products that do not meet the basic rules of biomechanics.

HOW ARE OUR BIOMECHANICAL SCIENTIFIC TESTS CARRIED OUT?

Our biomechanical tests are carried out by an Engineer specializing in Engineering and Ergonomics of Physical Activities.

The main measuring tool used is an electronic Footwork Insole pedometer from amcube IST:

PHOTOAMCUBE
PHOTOAMCUBE

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AMCUBE FOOTWORK INSOLE
AMCUBE FOOTWORK INSOLE

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CEMTRALES INERTIELLES
CEMTRALES INERTIELLES

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PHOTOAMCUBE
PHOTOAMCUBE

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1/3

These are instrumented insoles each made up of 80 capacitive sensors, which record dynamic pressure data in order to study the behavior of the foot alone in the shoe or with plantar orthotics. This measurement system associated with its specific software analyzes locomotion via a multitude of biomechanical parameters.

We also use Fox inertial units from the HIKOB brand.

These tools make it possible to quantify the intensity and the propagation of the shock wave which propagates from the runner's foot during the impact of the latter on the ground, to the top of the head through the musculoskeletal system. (bones, muscles, ligaments and tendons).

The objective of our scientific experiments is to compare the performance of different models of internal soles incorporated in different models of shoes . For example, we compare the performance of soles from our range and / or soles from competing brands with the performance of original soles incorporated into a pair of running shoes.

CRITERIA:

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COMFORT

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CUSHIONING

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STABILITY

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PROPULSION

TESTS RESULT : 

I absorb the shock waves, I reduce the impact forces by at least 40%. I am the most efficient sole in terms of energy return!

ABOUT
RHENWING PREMIUM ORIGINAL
ski_comp%25252525C3%25252525A9tition_2_e

     GAMME PREMIUM    _cc781905-5cde-3194 -bb3b-136bad5cf58d_

Moi
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+ 30%

COMFORT

This model is composed of a world-patented exoskeleton and self-moulding foam that respects the anatomy of the foot. This together with its' breathable thermoregulating coating captures 10 times its volume in water so it stays dry to the touch.

+ 40%

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CUSHIONED

The exoskeleton dynamically supports the arch of the foot while the foam provides selective anatomical cushioning to absorbs shocks.

+ 30%

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STABILITY

Thanks to the exoskeleton supporting the sole of the foot and the ends of the metatarsals (toes) on both uneven and / or sloping terrain: the foot is wedged and stable in the shoe.

+ 10%

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PROPULSION

The exoskeleton dynamically supports the arch of the foot and the foam restores 97% of the energy accumulated when the foot touches the ground.

PREMIUM RANGE
Me
ABOUT

RHENWING PREMIUM HYBRID

My arch system allows me to protect the joints with more than 60% cushioning, while keeping the DYNAMIC of the foot!

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     Premium Range

pillow.png

+ 40%

COMFORT

This model is composed of a world-patented exoskeleton and self-moulding foam that respects the anatomy of the foot. This together with its' breathable thermoregulating coating captures 10 times its volume in water so it stays dry to the touch.

+ 60%

force.png

CUSHIONED

The exoskeleton dynamically supports the arch of the foot while the foam provides selective anatomical cushioning to absorb shocks. This model also has a thermoformable resin that dynamically supports the arch of the foot.

+ 30%

stability.png

STABILITY

Thanks to the exoskeleton supporting the sole of the foot and the ends of the metatarsals (toes) on both uneven and / or sloping terrain: the foot is wedged and stable in the shoe.

+ 3%

growth (1).png

PROPULSION

The exoskeleton dynamically supports the arch of the foot and the foam restores 97% of the energy accumulated when the foot touches the ground.

ABOUT
RHENWING HYBRID SKI CONFORT

In addition to cushioning, I have incredible stability thanks to its anatomical structure, the sole provides a great feeling of comfort.

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+ 52%

COMFORT

This model is made up of a world-patented exoskeleton and resilient foam that respects the anatomy of the foot; and a breathable and thermoregulating coating that captures 10 X its volume in water to maintain a dry touch

Premium Range

Moi

+ 65%

force.png

CUSHIONED

The exoskeleton dynamically supports the arch of the foot while the foam provides selective anatomical cushioning. This model also has a reinforced thermoformable resin that dynamically supports the arch of the foot.

+ 40%

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STABILITY

Thanks to the exoskeleton around the natural supports of the foot, which also allows the braking of the heads of the metatarsals (= toes) on technical and / or sloping terrain: the foot is wedged and stable in the shoe.

+ 1%

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PROPULSION

The exoskeleton and reinforced thermoformable resin dynamically support the arch and the foam restores 97% of the energy accumulated during the impact of the foot on the ground.

SOLE THERMOFIT

+ 31%

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CUSHIONED

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+ 22%

COMFORT

+ 7%

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PROPULSION

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+ 20%

STABILITY

SOLE FITCOMFORT

+ 23%

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CUSHIONED

pillow.png

+ 45%

COMFORT

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+ 15%

STABILITY

+ 5%

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PROPULSION

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+ 22% in comfort: The thermoformable ergonomic Easyfeet insole respects the anatomy of the foot. With its' breathable thermoregulating coating, it captures 10 times its volume in water so it stays dry to the touch.

 

+ 31% in cushioning: the ergonomics of the Easyfeet insole with the thermoformable resin provide dynamic support for the arch of the foot and the foam absorbs shocks.

+ 20% in stability: thanks to the dynamic support of the arch of the foot by the Easyfeet insole and the posterior curvature of the insole, the heel is also supported.

 

+ 7% in propulsion: by the dynamic support of the arch of the foot by the Easyfeet insole and the foam that restores the energy accumulated when the foot touches the ground.

+ 45% in comfort: The ergonomic Fitcomfort insole respects the anatomy of the foot. It has a breathable thermoregulating coating which captures 10 times its volume in water so it stays dry to the touch.

+ 23% in cushioning: the ergonomics of the Fitcomfort sole provide dynamic support for the arch of the foot. This is made of an impacting absorbing foam.

 

+ 15% in stability: thanks to the dynamic support of the arch of the foot by the Fitcomfort insole and the posterior curvature of the insole, the heel is also supported.

 

+ 5% in propulsion: by the dynamic support of the arch of the foot and the foam that restores the energy accumulated when the foot touches the ground.

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