EP3311686B1 - Low drag garment - Google Patents
Low drag garment Download PDFInfo
- Publication number
- EP3311686B1 EP3311686B1 EP17275164.6A EP17275164A EP3311686B1 EP 3311686 B1 EP3311686 B1 EP 3311686B1 EP 17275164 A EP17275164 A EP 17275164A EP 3311686 B1 EP3311686 B1 EP 3311686B1
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- EP
- European Patent Office
- Prior art keywords
- garment
- fabric
- texture
- range
- low drag
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 244000309466 calf Species 0.000 claims description 3
- 239000011343 solid material Substances 0.000 claims description 3
- 238000009940 knitting Methods 0.000 claims description 2
- 210000002414 leg Anatomy 0.000 description 17
- 238000012360 testing method Methods 0.000 description 10
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Images
Classifications
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- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D13/00—Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches
- A41D13/0015—Sports garments other than provided for in groups A41D13/0007 - A41D13/088
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- A—HUMAN NECESSITIES
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- A41B—SHIRTS; UNDERWEAR; BABY LINEN; HANDKERCHIEFS
- A41B1/00—Shirts
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- A41B—SHIRTS; UNDERWEAR; BABY LINEN; HANDKERCHIEFS
- A41B11/00—Hosiery; Panti-hose
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- A—HUMAN NECESSITIES
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- A41B—SHIRTS; UNDERWEAR; BABY LINEN; HANDKERCHIEFS
- A41B17/00—Selection of special materials for underwear
- A41B17/005—Low friction features
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- A—HUMAN NECESSITIES
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- A41D1/082—Trousers specially adapted for sporting purposes for skiing
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- A41D1/00—Garments
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- A41D1/084—Trousers specially adapted for sporting purposes for cycling
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- A41D1/086—Trousers specially adapted for sporting purposes for horse riding
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B71/00—Games or sports accessories not covered in groups A63B1/00 - A63B69/00
- A63B71/08—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions
- A63B71/12—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the body or the legs, e.g. for the shoulders
- A63B71/1225—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the body or the legs, e.g. for the shoulders for the legs, e.g. thighs, knees, ankles, feet
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B71/00—Games or sports accessories not covered in groups A63B1/00 - A63B69/00
- A63B71/08—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions
- A63B71/14—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the hands, e.g. baseball, boxing or golfing gloves
- A63B71/141—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the hands, e.g. baseball, boxing or golfing gloves in the form of gloves
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- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41B—SHIRTS; UNDERWEAR; BABY LINEN; HANDKERCHIEFS
- A41B2500/00—Materials for shirts, underwear, baby linen or handkerchiefs not provided for in other groups of this subclass
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- A—HUMAN NECESSITIES
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- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
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- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
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- A41D2600/10—Uses of garments specially adapted for specific purposes for sport activities
- A41D2600/104—Cycling
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B71/00—Games or sports accessories not covered in groups A63B1/00 - A63B69/00
- A63B71/08—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions
- A63B71/12—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the body or the legs, e.g. for the shoulders
- A63B71/1225—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the body or the legs, e.g. for the shoulders for the legs, e.g. thighs, knees, ankles, feet
- A63B2071/1266—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the body or the legs, e.g. for the shoulders for the legs, e.g. thighs, knees, ankles, feet for the calf
Definitions
- the present invention relates to a garment with low aerodynamic drag.
- the invention relates to a garment comprising an article of sports clothing for use in sports where the athlete typically travels at a speed in the range 5-20m/s, for example cycling, sprint running, skiing and speed skating, where aerodynamic drag on an athlete can have a significant effect on the athlete's performance.
- the human body tends to have a much lower aspect ratio, particularly when upright, which may typically be nearer to 1:1 for the arms and legs, and 1:2 for the torso. As a result, the human body approximates to a " bluff body", and pressure drag tends to be by far the larger contributory factor to the overall aerodynamic drag experienced by an athlete.
- US 5887280 describes a garment that includes an array of vortex generators designed to reduce pressure drag ("form drag").
- the vortex generators are arranged in rows transverse to the direction of air flow and are relatively large, for example having a height of 2.5mm or 6mm, leading to a significant increase in surface drag (“skin friction").
- EP16165668.1 ( EP3085259 ) there is described a low drag garment that is made from a texture fabric, wherein the texture height increases substantially continuously from the front to the rear of the garment.
- Such a garment potentially provides a very low level of drag within a specific range of speeds.
- providing a texture height that increases substantially continuously can be technically difficult and the resulting garment can therefore be very expensive.
- EP3085258 there is described a low drag garment having a plurality of textured zones, including a first zone with a mean texture height in the range 0-200 ⁇ m, and a second zone with a mean texture height that is greater than the mean texture height of the first zone and preferably in the range of 100-500 ⁇ m.
- a garment is slightly simpler and cheaper to manufacture than the garment described in EP16165668.1 , and provides a very low level of drag within a specific range of speeds, but it is still expensive compared to many "off the shelf' cycling garments.
- the garment must be fitted very well (both in manufacturing and when putting the garment on) to ensure that the zones are located in the correct positions for optimum performance.
- Other low drag garments are known such as those disclosed in WO 2015/151820 , JP H03 137204 A and WO 2010/151684 A1 .
- a very low level of drag can also be achieved by providing a garment with a substantially uniform texture height that extends over at least part of the surface of the garment, providing that the texture height is optimised according to the expected speed range of an athlete during a specific event or competition.
- the competition may for example be a cycle race.
- competitors in different events or competitions may travel at very different speeds: for example, in track cycling competitors may travel at speeds of up to 20m/s.
- road cycling instantaneous speeds may vary between about 6m/s (when hill climbing) and 20m/s or more (when descending or sprinting), while the average speed for a top cyclist on level ground may be about 12m/s.
- average speeds for top competitors may typically be in the range 10-15m/s.
- the speed range 5-20m/s is crucial as the aerodynamic drag is very significant and competitors tend to spend the majority of the race travelling at speeds in this range.
- Some garments designed for cycling have textures that produce low drag at the upper end of this range, but not at the lower end.
- Other cycling garments produce low drag at the lower end of the speed range but not at the upper end.
- a garment designed for use while road cycling should produce low drag across the whole of the 5-20 m/s speed range.
- the speed range 5-20m/s is also crucial as well as a number of other sports, for example running (typical speed 5-10m/s), speed skating (up to 15m/s), horse riding (up to 15m/s) and downhill skiing (average speed about 15-20m/s).
- Particular preferred objectives of the invention are to provide a garment that reduces aerodynamic drag on the body of an athlete, by providing surface textures that minimise pressure drag in the speed range 5-20 m/s, where laminar flow is still significant (as opposed to higher speed applications such as aerospace and automotive applications where the laminar flow region is negligible and turbulent flow dominates), and preferably without significantly increasing friction drag.
- a low drag garment having a front region, a rear region and at least one side region, the low drag garment comprising a textured fabric in said at least one side region, wherein the textured fabric has a texture pattern with a substantially uniform texture height in the range 0.2-0.8mm, characterised in that the textured fabric in the side region has a texture pattern that comprises a plurality of isolated texture formations separated by regions with substantially no surface texture, and the texture formations are arranged in a plurality of rows and each said row extends transverse to a direction of airflow from the front region to the rear region of the garment wherein the rows (10) have a mean spacing D in a direction of airflow in the range 1mm to 10mm.
- side region is defined in relation to the direction of movement of an athlete wearing the garment while taking part in a particular sport, and are therefore related to the direction of airflow over the garment during normal use.
- front region relates to the part or parts of the garment that face forward in the direction of movement during use: i.e. into the airflow
- rear region relates to the part or parts of the garment that face backward opposite to the direction of movement: i.e. away from the airflow.
- side region relates generally to those parts of the garment that connect the front and rear regions of the garment and face substantially perpendicular to the direction of movement and the direction of airflow. It should be noted that in a sport such as rowing where the athlete normally faces backwards, the front region of the garment will be positioned on the athlete's back and the rear region on their front.
- the textured fabric has a texture pattern with a substantially uniform texture height in the range 0.3-0.7mm, more preferably 0.4-0.6mm.
- the textured surface of the fabric is designed to minimise pressure drag while not significantly increasing surface drag, thereby increasing the athletic performance of the person wearing the garment.
- the textured fabric is provided in at least one side region of the garment, where the flow is essentially laminar and the boundary layer is growing.
- the textured fabric helps to turbulate the flow of air over the surface, thereby delaying flow separation at the transition point.
- a garment with a substantially uniform texture height is less sensitive to position on the body, so that the fit of the garment is slightly less critical.
- the garment includes a body portion and the textured fabric is provided in at least one side region of the body portion, and wherein the textured fabric in the side region of the body portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm.
- the garment includes a sleeve portion and the textured fabric is provided in at least one side region of the sleeve portion, and wherein the textured fabric in the side region of the sleeve portion has a texture pattern with a substantially uniform texture height in the range 0.3-0.8mm, preferably 0.4-0.6mm.
- the garment includes a leg portion and the textured fabric is provided in at least one side region of the leg portion, and wherein the textured fabric in the side region of the leg portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm.
- the garment includes a body portion and either or both of (a) a sleeve portion and (b) a leg portion, wherein the textured fabric provided in at least one side region of the body portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm, if the garment includes a sleeve portion the textured fabric provided in the side region of the sleeve portion has a texture pattern with a substantially uniform texture height in the range 0.3-0.8mm, and if the garment includes a leg portion the textured fabric provided in the side region of the leg portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm.
- the garment may be made entirely of the textured fabric.
- the fabric may have a relatively smooth surface to minimise surface drag.
- the low drag garment comprises a relatively smooth fabric in at least one front region of the garment, wherein the relatively smooth fabric has a texture height of less than 0.2mm, preferably less than 0.1mm.
- the fabric may have an increased texture height to further reduce pressure drag.
- the low drag garment comprises a textured fabric in at least one rear region of the garment, wherein the textured fabric in the rear region of the garment has a texture height of at least 0.4mm, preferably at least 0.5mm.
- the textured region may have a reduced texture height.
- the flow of air in the third region may separate from the surface of the fabric and may become erratic: in this case the texture height in the third region may have relatively little impact on the overall aerodynamic performance of the garment.
- the side region comprises a region of the garment in which the surface angle has a minimum value ⁇ 1 in the range 5° to 45°, preferably 10° to 25°, and a maximum value ⁇ 2 in the range 95°-160°, preferably 105°-140°.
- the garment is designed it fit a part of the body having a radius of curvature similar to that of a cylinder with a diameter in the range 80mm to 130mm, the width of the side region may lie in the range 30-170mm, preferably 50-140mm.
- surface angle as used herein is defined as the angle subtended between the direction of forward movement in use, and a line that is perpendicular to the surface of the fabric. In the case of a garment worn by a person, the surface angle is the angle subtended between the direction of forward movement of the person and a line that is perpendicular to the surface of the fabric forming the garment when worn by the person in an adopted body.
- the rows may have a mean spacing D in the direction of airflow in the range 2mm to 8mm.
- the texture formations forming the rows may have a mean spacing G in a direction perpendicular to the direction of airflow in the range 1mm to 10mm, preferably 2mm to 8mm.
- the fabric has a texture pattern that is provided by jacquard knitting of the fabric, or by printing a 3D pattern on the outer surface of the fabric, or by the application of a solid material, for example silicone, to the outer surface of the fabric.
- the garment is an article of sports clothing.
- the garment may be an article of sports clothing for use in sports where the athlete typically moves with a speed in the range 5-20 m/s, and preferably 10-20m/s, including for example cycling, running, skiing, horse racing or speed skating.
- the garment is a shirt, trousers, leggings shorts, bibshorts, shoes, overshoes, arm covers, calf guards, gloves, socks or a bodysuit.
- Other articles of clothing are of course possible.
- the garment is close-fitting to the body so that it follows the contours of the body and does not flap significantly as the air flows over the surface of the garment.
- the Reynolds number will have a value of up to 10 6 , such that the flow of air will be in the laminar/turbulent transition zone.
- a cylinder provides a good first approximation to an irregular curved body in which the radius of curvature is similar to that of the cylinder.
- Figure 1 illustrates a typical airflow around a cylindrical body 2, wherein the longitudinal axis X of the cylindrical body is perpendicular to the direction of airflow relative to the cylindrical body.
- the movement of a body through stationary air may be modelled in a wind tunnel by creating a moving airstream that flows over a stationary body, as depicted in the drawings.
- the direction of airflow as indicated by arrow S is perpendicular to the surface of the cylindrical body at point P, which is called the "stagnation point". This is equivalent to forward relative movement of the body 2 through the air in the direction of arrow M.
- the airflow splits into two streams F1, F2 that pass around opposite sides of the cylindrical body 2.
- the airflow is substantially laminar, allowing a boundary layer to build up against the surface of the cylindrical body 2.
- the flow streams F1, F2 tend to separate from the surface of the cylindrical body forming vortices V in the region behind the cylindrical body.
- the movement of air over the surface of the cylindrical body also creates a surface friction force F s , which is usually much smaller than the drag force F d at relative speeds in the range 6-40m/sec.
- the points where the boundary layer separates from the surface of the cylindrical body 2 are called the transition points T 1 , T 2 .
- the pressure drag force F d experienced by the cylindrical body 2 depends in part on the area of the cylindrical body located within the low pressure zone L between the transition points T 1 , T 2 . If the transition points T 1 , T 2 can be moved rearwards, this will reduce the size of the area affected by the low pressure zone L, thereby reducing the pressure drag F d acting on the cylindrical body 2.
- transition points T 1 , T 2 can be shifted rearwards by providing a suitable texture 8 on the surface of the cylindrical body 2. It should be understood that the texture pattern 8 shown on the upper part of the cylindrical body 2 may also be repeated on the lower side of the body. In the present invention we have sought to design a fabric with a substantially uniform surface texture, which maximises the reduction in pressure drag F d without significantly increasing surface friction drag F s .
- the pressure drag force F d can be reduced substantially, without significantly increasing the surface friction drag force F s by covering the cylindrical body 2 with a fabric 3 having a texture pattern 8 comprising a plurality of texture formations 8a on at least the side regions of its outer surface, between the front face 5 and the rear face 6 of the cylindrical body 2.
- the size of the side region can be expressed in terms of the surface angle ⁇ , which is the angle subtended between the direction of forward movement M and a line 7 that is perpendicular to the surface of the cylindrical body.
- Fig. 2a the wind tunnel test results are illustrated for a plain 80mm radius cylinder and for six different fabrics on an 80mm radius cylinder, the fabrics being as follows:
- the prior art Sample A fabric performed well at speeds above 17m/s, having a drag coefficient Cd of less than 0.72 at air speeds between 17m/s and 23m/s, but less well at lower speeds, the drag coefficient rising rapidly at air speeds of less than 17m/s to a value in excess of 1.00 at air speeds less than 14m/s.
- the Sample B fabric performed well at low speeds, having a drag coefficient Cd of less than 0.80 at air speeds between 6m/s and 8m/s, but less well at higher speeds, the drag coefficient exceeding 1.00 at air speeds of more than 16m/s.
- the new Sample F fabric with a gradually varying texture height performed well across a wide range of speeds, having a drag coefficient Cd of less than 1.00 at speeds above 8m/s and a drag coefficient Cd of less than 0.80 at speeds between 10m/s and 25m/s.
- the new Sample C, Sample D and Sample E fabrics were all comparable with the Sample F fabric and performed well across a wide range of speeds, particularly in the crucial 5-20m/s speed range. All three had a drag coefficient Cd of less than 1.00 at speeds above 8.5m/s and a drag coefficient Cd of less than 0.82 at speeds between 10m/s and 25m/s, the Sample E fabric performing slightly better than the Sample C and Sample D fabrics at speeds below 9m/s, and not quite so well at speeds above 11m/s.
- Fig. 2b the wind tunnel test results are illustrated for a plain 130mm radius cylinder and for four different fabrics on a 130mm radius cylinder, the fabrics being as follows:
- the fabrics were each wrapped around the circumference of the 130mm radius cylinder for the test.
- the Sample B fabric performed well at low speeds, having a drag coefficient of less than 0.80 at an air speed of about 5m/s, but less well at higher speeds, the drag coefficient exceeding 0.88 at air speeds of more than 10m/s.
- the Sample G fabric with a gradually varying texture height performed well across a wide range of speeds, having a drag coefficient of less than 1.00 at speeds above 6m/s and a drag coefficient of less than 0.80 at speeds between 8m/s and 25m/s.
- the Sample C fabric performed even better than the Sample G fabric across the entire 5-20m/s speed range, having a drag coefficient of less than 1.00 at speeds above 5.5m/s and a drag coefficient of less than 0.80 at speeds between 7m/s and 25m/s.
- the garment may include any one or a combination of the preferred characteristics set out above.
- the textured fabric 3 covering the surface of a cylindrical body 2 can be divided into a number of zones including a front zone A, a side zone B and a rear zone C, which are defined in relation to the direction of forward movement M, as shown in Figure 1 .
- the first zone A is located generally in an inner front region of the cylindrical body 2
- the side zone B is located generally in an outer region of the cylindrical body 2
- the rear zone C is located generally in a rear region of the cylindrical body 2.
- the fabric may be relatively smooth, having a texture height H A of less 0.2mm, to minimise friction drag.
- the texture pattern preferably has a height H B in the range 0.2-0.8mm, more preferably 0.2-0.4mm in a body portion of the garment, 0.4-0.8mm in a sleeve portion and 0.2-0.4mm in a leg portion.
- the texture pattern preferably has a height He that is at least as great as that in the side zone B, and may be greater to further reduce pressure drag.
- the side zone B may be defined as comprising the region of the textured fabric in which the surface angle ⁇ has a minimum value ⁇ 1 in the range 5° to 45°, preferably 10° to 25°, and a maximum value ⁇ 2 in the range 95°-160°, preferably 105°-140°.
- the front zone A and the rear zone C comprise the remaining portions of the textured fabric.
- the texture pattern 8 can take various different forms, an example being illustrated in Figures 3-5 .
- the texture pattern illustrated in Figures 3-5 comprises a staggered array of chevron-shaped texture formations 8a, which are arranged in transverse rows 10 with a mean separation D between the rows in the direction of air flow typically in the range 1mm to 10mm, preferably 2mm to 8mm.
- the mean separation G between the texture formations 8a that form each row 10 in a direction perpendicular to the direction of air flow is typically in the range 1mm to 6mm, preferably 2mm to 4mm.
- the height of the texture pattern corresponds to the height H of the formations 8a.
- the chevron-shaped texture formations 8a are preferably arranged to point in the expected direction of airflow over the surface.
- the texture pattern 8 comprises a plurality of isolated texture formations 8a, which are separated by regions with substantially no surface texture. We have found that isolated texture formations, separated by areas of fabric with substantially no surface texture, provide reduced surface drag as compared to fabrics with continuous texture formations, as well as reduced pressure drag.
- the texture pattern 8 may for example be provided by using a jacquard knitted fabric.
- the texture pattern can be printed onto the fabric or it can be created by applying a suitable solid material, for example silicone, to the surface of the fabric.
- the silicone may for example be applied to the surface of the fabric using a 3D printer.
- the garment is preferably an article of sports clothing, which may be used for any sport where the reduction of drag is important. This applies particularly to sports where the input power is limited (for example being supplied by the athlete or the force of gravity) and where the athlete travels at a speed typically in the range 5-20m/sec, for example cycling, running, speed skating or skiing.
- the article of clothing may for example consist of a shirt, trousers, leggings, shorts, bibshorts, shoes, overshoes, arm covers, calf guards, gloves, socks or a one-piece bodysuit.
- the article of clothing may also be an item of headwear, for example a hat or helmet, or a fabric covering for a helmet.
- the garment in this case is a one-piece bodysuit 11 comprising a body portion 12 that covers the athlete's trunk, with short sleeves 14 and legs 16 that cover the upper portions of the athlete's arms and legs.
- the garment has a plurality of zones that are defined in relation to the direction of forward travel M of the athlete, and which take account of the athlete's posture.
- the zones include a first zone A located generally in an inner front region of the garment, a second zone B located in a side region of the garment and a third zone C that is located in a rear region of the garment.
- the outer surface of the garment has a texture that varies across the three zones, the fabric being essentially smooth in the first zone A (e.g. having a height less than 0.2mm), have a height of 0.2-0.8mm in the second zone B, and a height in third zone C that is either equal to or greater than that in the side region B.
- the first zone A is located primarily on the chest and shoulder regions of the trunk 12 and on the forward facing portions of the sleeves 14 and the legs 16.
- the second zone B is located primarily on the side and back regions of the body 12 and on the side regions of the sleeves 14 and the legs 16.
- the third zone C is located primarily on the lower back portion of the body 12 and the rear portions of the sleeves 14 and the legs 16.
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Description
- The present invention relates to a garment with low aerodynamic drag. In particular, but not exclusively, the invention relates to a garment comprising an article of sports clothing for use in sports where the athlete typically travels at a speed in the range 5-20m/s, for example cycling, sprint running, skiing and speed skating, where aerodynamic drag on an athlete can have a significant effect on the athlete's performance.
- When airflow passes over a body there are two fundamental mechanisms that produce a drag force. These forces come from surface drag, caused by friction as the air passes over the surface, and pressure drag caused primarily by the separation of vortices from the boundary layer. The ratio of surface drag to pressure drag is highly dependent on the shape of the object. Where objects are specifically shaped for optimum aerodynamic efficiency, the aspect ratio (length: width) will generally be at least 3:1. With an increased length to width ratio it is possible to have a wing-like shape with a narrow trailing edge. The advantage of this is that the flow can remain attached to the surface of the object so that the streamlines follow the shape of the profile. Although the surface area of the object and the resulting surface friction are increased, the flow is able to "recover" beyond the widest point of the object, resulting in a small net pressure drag. Generally, the reduction in pressure drag far outweighs the increase in surface drag.
- The human body tends to have a much lower aspect ratio, particularly when upright, which may typically be nearer to 1:1 for the arms and legs, and 1:2 for the torso. As a result, the human body approximates to a "bluff body", and pressure drag tends to be by far the larger contributory factor to the overall aerodynamic drag experienced by an athlete.
- Where it is not practical to modify the shape of the body and the aspect ratio is lower than about 3:1 in the flow direction, a high level of pressure drag can be caused by flow separation soon after the flow has passed the widest point of the body. In such situations in engineering and nature, it is known to adjust the surface texture of the body to help delay the separation point and thereby reduce the net pressure force that retards motion of the object.
- A number of techniques are known to reduce the net drag force on bluff bodies, including the use of trip edges and textured surfaces. Although these techniques may give rise to an increase in surface drag, it is generally possible to find a solution whereby the reduction in pressure drag outweighs the increase in surface drag. This allows the total drag to be reduced in various applications.
- In the case of the human body, these techniques can be applied by designing a garment that provides the required trip edges and textured surfaces. However, current technologies have the following limitations:
- Trip edges can be very effective in ideal circumstances, but in practice they are extremely sensitive to position. If the trip edges are not placed precisely in the correct locations they can have a detrimental effect, increasing the overall drag. This means that trip edges, or multiple trip edges, are not appropriate for commercial clothing applications, where the exact shape of the body is unknown.
- Environmental conditions can affect the onset of turbulent flow within the system in which the subject is positioned, and are variable and unpredictable. For example, the flow direction experienced by a cyclist can vary by 10° or more from the direction of travel owing to crosswind effects. Experience has shown that it is not possible to have a trip edge that works effectively for all conditions.
- Textured surfaces work to an extent, but the types of textured surfaces available are limited and they are often designed for purposes that are not specific to delaying flow separation. The effectiveness of the textured surface also depends on the speed of the athlete through the air, and garments that work well at one speed might not be so effective at a different speed.
- Fabrics with different textures are sometimes used in sports clothing and in certain circumstances this can reduce drag. However, changes in fabric texture often require the presence of seams, which can have a detrimental effect on the overall drag. Also, fabrics tend to be provided with uniform repeating texture patterns, which are not optimised to control flow separation.
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US 5887280 describes a garment that includes an array of vortex generators designed to reduce pressure drag ("form drag"). The vortex generators are arranged in rows transverse to the direction of air flow and are relatively large, for example having a height of 2.5mm or 6mm, leading to a significant increase in surface drag ("skin friction"). - In European patent application
EP16165668.1 EP3085259 ) there is described a low drag garment that is made from a texture fabric, wherein the texture height increases substantially continuously from the front to the rear of the garment. Such a garment potentially provides a very low level of drag within a specific range of speeds. However, in practice providing a texture height that increases substantially continuously can be technically difficult and the resulting garment can therefore be very expensive. - In European patent application
16165662.4 EP3085258 ) there is described a low drag garment having a plurality of textured zones, including a first zone with a mean texture height in the range 0-200µm, and a second zone with a mean texture height that is greater than the mean texture height of the first zone and preferably in the range of 100-500µm. Such a garment is slightly simpler and cheaper to manufacture than the garment described inEP16165668.1 WO 2015/151820 ,JP H03 137204 A WO 2010/151684 A1 . - We have realised that a very low level of drag can also be achieved by providing a garment with a substantially uniform texture height that extends over at least part of the surface of the garment, providing that the texture height is optimised according to the expected speed range of an athlete during a specific event or competition.
- The competition may for example be a cycle race. Within the world of sport cycling, competitors in different events or competitions may travel at very different speeds: for example, in track cycling competitors may travel at speeds of up to 20m/s. In road cycling instantaneous speeds may vary between about 6m/s (when hill climbing) and 20m/s or more (when descending or sprinting), while the average speed for a top cyclist on level ground may be about 12m/s. In other events such as road time trials and triathlon events, average speeds for top competitors may typically be in the range 10-15m/s. The recognition that different sports have different speed profiles opens up the possibility of designing garments that are optimised for particular sports, competitions or events.
- In a sport such as road cycling, the speed range 5-20m/s is crucial as the aerodynamic drag is very significant and competitors tend to spend the majority of the race travelling at speeds in this range. Some garments designed for cycling have textures that produce low drag at the upper end of this range, but not at the lower end. Other cycling garments produce low drag at the lower end of the speed range but not at the upper end. Ideally, a garment designed for use while road cycling should produce low drag across the whole of the 5-20 m/s speed range.
- The speed range 5-20m/s is also crucial as well as a number of other sports, for example running (typical speed 5-10m/s), speed skating (up to 15m/s), horse riding (up to 15m/s) and downhill skiing (average speed about 15-20m/s).
- It is an objective of the present invention to provide a garment with low aerodynamic drag, which mitigates one or more of the problems set out above. Particular preferred objectives of the invention are to provide a garment that reduces aerodynamic drag on the body of an athlete, by providing surface textures that minimise pressure drag in the speed range 5-20 m/s, where laminar flow is still significant (as opposed to higher speed applications such as aerospace and automotive applications where the laminar flow region is negligible and turbulent flow dominates), and preferably without significantly increasing friction drag. In particular, it is an objective of the invention to provide low drag garments for use in applications where the input power is limited, for example athletic sports, in which drag reduction can significantly improve performance.
- According to one aspect of the present invention there is provided a low drag garment having a front region, a rear region and at least one side region, the low drag garment comprising a textured fabric in said at least one side region, wherein the textured fabric has a texture pattern with a substantially uniform texture height in the range 0.2-0.8mm, characterised in that the textured fabric in the side region has a texture pattern that comprises a plurality of isolated texture formations separated by regions with substantially no surface texture, and the texture formations are arranged in a plurality of rows and each said row extends transverse to a direction of airflow from the front region to the rear region of the garment wherein the rows (10) have a mean spacing D in a direction of airflow in the range 1mm to 10mm.
- The terms "side region", "front region" and "rear region" as used herein are defined in relation to the direction of movement of an athlete wearing the garment while taking part in a particular sport, and are therefore related to the direction of airflow over the garment during normal use. The term "front region" relates to the part or parts of the garment that face forward in the direction of movement during use: i.e. into the airflow, and the term "rear region" relates to the part or parts of the garment that face backward opposite to the direction of movement: i.e. away from the airflow. The term "side region" relates generally to those parts of the garment that connect the front and rear regions of the garment and face substantially perpendicular to the direction of movement and the direction of airflow. It should be noted that in a sport such as rowing where the athlete normally faces backwards, the front region of the garment will be positioned on the athlete's back and the rear region on their front.
- Preferably, the textured fabric has a texture pattern with a substantially uniform texture height in the range 0.3-0.7mm, more preferably 0.4-0.6mm.
- The textured surface of the fabric is designed to minimise pressure drag while not significantly increasing surface drag, thereby increasing the athletic performance of the person wearing the garment. The textured fabric is provided in at least one side region of the garment, where the flow is essentially laminar and the boundary layer is growing. The textured fabric helps to turbulate the flow of air over the surface, thereby delaying flow separation at the transition point. We have also found that a garment with a substantially uniform texture height is less sensitive to position on the body, so that the fit of the garment is slightly less critical.
- In an embodiment, the garment includes a body portion and the textured fabric is provided in at least one side region of the body portion, and wherein the textured fabric in the side region of the body portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm.
- In an embodiment, the garment includes a sleeve portion and the textured fabric is provided in at least one side region of the sleeve portion, and wherein the textured fabric in the side region of the sleeve portion has a texture pattern with a substantially uniform texture height in the range 0.3-0.8mm, preferably 0.4-0.6mm.
- In an embodiment, the garment includes a leg portion and the textured fabric is provided in at least one side region of the leg portion, and wherein the textured fabric in the side region of the leg portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm.
- In an embodiment, the garment includes a body portion and either or both of (a) a sleeve portion and (b) a leg portion, wherein the textured fabric provided in at least one side region of the body portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm, if the garment includes a sleeve portion the textured fabric provided in the side region of the sleeve portion has a texture pattern with a substantially uniform texture height in the range 0.3-0.8mm, and if the garment includes a leg portion the textured fabric provided in the side region of the leg portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm.
- It is not generally necessary for the garment to be made entirely of the textured fabric. For example, in one or more inner front regions of the garment where the flow is essentially laminar the fabric may have a relatively smooth surface to minimise surface drag. In an embodiment, the low drag garment comprises a relatively smooth fabric in at least one front region of the garment, wherein the relatively smooth fabric has a texture height of less than 0.2mm, preferably less than 0.1mm. In one or more rear regions of the garment where the flow separation has taken place, the fabric may have an increased texture height to further reduce pressure drag. In an embodiment the low drag garment comprises a textured fabric in at least one rear region of the garment, wherein the textured fabric in the rear region of the garment has a texture height of at least 0.4mm, preferably at least 0.5mm. Alternatively, in the rear region the textured region may have a reduced texture height. In some applications the flow of air in the third region may separate from the surface of the fabric and may become erratic: in this case the texture height in the third region may have relatively little impact on the overall aerodynamic performance of the garment.
- In an embodiment, the side region comprises a region of the garment in which the surface angle has a minimum value θ1 in the
range 5° to 45°, preferably 10° to 25°, and a maximum value θ2 in the range 95°-160°, preferably 105°-140°. Alternatively, where the garment is designed it fit a part of the body having a radius of curvature similar to that of a cylinder with a diameter in the range 80mm to 130mm, the width of the side region may lie in the range 30-170mm, preferably 50-140mm. - The term "surface angle" as used herein is defined as the angle subtended between the direction of forward movement in use, and a line that is perpendicular to the surface of the fabric. In the case of a garment worn by a person, the surface angle is the angle subtended between the direction of forward movement of the person and a line that is perpendicular to the surface of the fabric forming the garment when worn by the person in an adopted body.
- The term "adopted body shape" as used herein in the description and in the claims refers to the adopted shape either of the whole body or any part thereof (for example, the legs, arms or torso, or parts thereof such as the upper arm, lower arm and so on), when the individual person has adopted a preferred posture for participating in a selected activity (e.g. cycling, running, speed skating etc).
- In an embodiment, the rows may have a mean spacing D in the direction of airflow in the range 2mm to 8mm. The texture formations forming the rows may have a mean spacing G in a direction perpendicular to the direction of airflow in the range 1mm to 10mm, preferably 2mm to 8mm. We have found that isolated texture formations, which are separated from one another by areas of fabric with substantially no surface texture, provide reduced surface drag as compared to fabrics with continuous texture formations, as well as reduced pressure drag.
- In an embodiment, the fabric has a texture pattern that is provided by jacquard knitting of the fabric, or by printing a 3D pattern on the outer surface of the fabric, or by the application of a solid material, for example silicone, to the outer surface of the fabric.
- In an embodiment, the garment is an article of sports clothing. The garment may be an article of sports clothing for use in sports where the athlete typically moves with a speed in the range 5-20 m/s, and preferably 10-20m/s, including for example cycling, running, skiing, horse racing or speed skating.
- Optionally, the garment is a shirt, trousers, leggings shorts, bibshorts, shoes, overshoes, arm covers, calf guards, gloves, socks or a bodysuit. Other articles of clothing are of course possible. Preferably the garment is close-fitting to the body so that it follows the contours of the body and does not flap significantly as the air flows over the surface of the garment.
- Embodiments of the present invention will now be described by way of example with reference to the accompanying drawings, wherein:
-
Figure 1 illustrates schematically the flow of air around a cylindrical object; -
Figure 2a illustrates graphically the results of a set of tests investigating the variation of drag coefficient (Cd) with air speed for various textured fabrics on an 80mm radius cylindrical body; -
Figure 2b illustrates graphically the results of a set of tests investigating the variation of drag coefficient (Cd) with air speed for various textured fabrics on a 130mm radius cylindrical body; -
Figure 3 is a plan view of an exemplary texture pattern according to an embodiment of the invention; -
Figure 4 is a sectional view of the exemplary texture pattern on line A-A offigure 3 ; -
Figure 5 is a sectional view of the exemplary texture pattern on line B-B offigure 3 ; -
Figure 6 is a front view of a cyclist wearing a bodysuit for cycling; and -
Figure 7 is a side view of the cyclist wearing the bodysuit shown inFigure 6 . - For the majority of the applications in which use of the invention is envisaged, the Reynolds number will have a value of up to 106, such that the flow of air will be in the laminar/turbulent transition zone. We have used wind tunnel testing to understand and derive optimum textures for use in the invention, and in particular on garments that are worn in applications where they are exposed to an airflow with a speed in the range 5-20m/s, preferably 10-20m/s.
- In order to simplify experimentation, much of our research is based on optimising the drag around cylindrical objects with radii of 80mm and 130mm. This has enabled us to identify the surface requirements for a wide range of applications. Testing is conducted at a range of speeds and consideration is also given to wind direction. Within the sizes of cylinder used it is possible to approximate a range of curvatures that the airflow will encounter on a human body in a range of applications. For example, for an adult, the upper arm typically has an average radius (based on circumference) of about 50mm, the thigh typically has an average radius of about 80mm, and the chest typically has an average radius of about 160mm. It is of course recognised that the human body is not a perfect cylinder and in regions such as the chest it is closer to an elliptical shape. However, a cylinder provides a good first approximation to an irregular curved body in which the radius of curvature is similar to that of the cylinder.
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Figure 1 illustrates a typical airflow around acylindrical body 2, wherein the longitudinal axis X of the cylindrical body is perpendicular to the direction of airflow relative to the cylindrical body. It will be understood that the movement of a body through stationary air may be modelled in a wind tunnel by creating a moving airstream that flows over a stationary body, as depicted in the drawings. In this example the direction of airflow as indicated by arrow S is perpendicular to the surface of the cylindrical body at point P, which is called the "stagnation point". This is equivalent to forward relative movement of thebody 2 through the air in the direction of arrow M. - On either side of the stagnation point P the airflow splits into two streams F1, F2 that pass around opposite sides of the
cylindrical body 2. Up to approximately the widest point of the cylindrical body relative to the flow direction, the airflow is substantially laminar, allowing a boundary layer to build up against the surface of thecylindrical body 2. - After passing the widest point of the
cylindrical body 2 relative to the direction of flow, the flow streams F1, F2 tend to separate from the surface of the cylindrical body forming vortices V in the region behind the cylindrical body. This creates a low pressure zone L behind thecylindrical body 2 and the resulting pressure difference between the front and the rear faces 5, 6 of the cylindrical body creates a pressure drag force Fd that opposes movement of the cylindrical body relative to the air. The movement of air over the surface of the cylindrical body also creates a surface friction force Fs, which is usually much smaller than the drag force Fd at relative speeds in the range 6-40m/sec. - The points where the boundary layer separates from the surface of the
cylindrical body 2 are called the transition points T1, T2. The pressure drag force Fd experienced by thecylindrical body 2 depends in part on the area of the cylindrical body located within the low pressure zone L between the transition points T1, T2. If the transition points T1, T2 can be moved rearwards, this will reduce the size of the area affected by the low pressure zone L, thereby reducing the pressure drag Fd acting on thecylindrical body 2. - It is known that the transition points T1, T2 can be shifted rearwards by providing a
suitable texture 8 on the surface of thecylindrical body 2. It should be understood that thetexture pattern 8 shown on the upper part of thecylindrical body 2 may also be repeated on the lower side of the body. In the present invention we have sought to design a fabric with a substantially uniform surface texture, which maximises the reduction in pressure drag Fd without significantly increasing surface friction drag Fs. - As illustrated in
Figure 1 we have discovered that the pressure drag force Fd can be reduced substantially, without significantly increasing the surface friction drag force Fs by covering thecylindrical body 2 with afabric 3 having atexture pattern 8 comprising a plurality oftexture formations 8a on at least the side regions of its outer surface, between thefront face 5 and therear face 6 of thecylindrical body 2. The size of the side region can be expressed in terms of the surface angle θ, which is the angle subtended between the direction of forward movement M and aline 7 that is perpendicular to the surface of the cylindrical body. - Our research has identified the optimum height and spacing of the surface texture formations for a range of curvatures, speeds, and onset flow angles. This has allowed us to derive a simple texture pattern that can be utilised to give an optimum level of airflow perturbation without being sensitive to flow direction changes, whilst minimising the surface friction drag through effective spacing of the
texture formations 8a that form the three-dimensional texture pattern 8. - Much research has been done into the change in the drag on a cylindrical body through a range of speeds. It is well known that the drag coefficient falls and then increases again as the speed of the airflow increases for a given cylinder size. This is due to vortex formation and periodic shedding, which affects the laminar transition points behind the cylindrical body.
- Our research has enabled us to modify this flow behaviour through the use of variable surface textures and thus minimise the pressure drag for the speed range in question (5-20m/s). We have conducted a series of wind tunnel tests to determine how different textured fabrics affect the drag coefficient for 80mm and 130mm radius cylinders at air speeds ranging from 3m/s to 25m/s. The results are illustrated in
Figs. 2a and2b . - In
Fig. 2a the wind tunnel test results are illustrated for a plain 80mm radius cylinder and for six different fabrics on an 80mm radius cylinder, the fabrics being as follows: - Sample A - a prior art textured fabric that performs best at high speeds;
- Sample B - a prior art textured fabric that performs best at low speeds;
- Sample C - a new fabric comprising an embodiment of the invention, having a silicone chevron texture pattern with a spacing of 7mm and a constant texture height of 0.4mm;
- Sample D - a new fabric comprising an embodiment of the invention, having a silicone chevron texture pattern with a spacing of 7mm and a constant texture height of 0.5mm;
- Sample E - a new fabric comprising an embodiment of the invention, having a silicone chevron texture pattern with a spacing of 7mm and a constant texture height of 0.6mm;
- Sample F - a new fabric of the type described in
EP16165668.1 - The fabrics were all wrapped around the circumference of the cylinder for the test.
- As can be seen in
Fig. 2a , the prior art Sample A fabric performed well at speeds above 17m/s, having a drag coefficient Cd of less than 0.72 at air speeds between 17m/s and 23m/s, but less well at lower speeds, the drag coefficient rising rapidly at air speeds of less than 17m/s to a value in excess of 1.00 at air speeds less than 14m/s. - The Sample B fabric performed well at low speeds, having a drag coefficient Cd of less than 0.80 at air speeds between 6m/s and 8m/s, but less well at higher speeds, the drag coefficient exceeding 1.00 at air speeds of more than 16m/s.
- The new Sample F fabric with a gradually varying texture height performed well across a wide range of speeds, having a drag coefficient Cd of less than 1.00 at speeds above 8m/s and a drag coefficient Cd of less than 0.80 at speeds between 10m/s and 25m/s.
- The new Sample C, Sample D and Sample E fabrics were all comparable with the Sample F fabric and performed well across a wide range of speeds, particularly in the crucial 5-20m/s speed range. All three had a drag coefficient Cd of less than 1.00 at speeds above 8.5m/s and a drag coefficient Cd of less than 0.82 at speeds between 10m/s and 25m/s, the Sample E fabric performing slightly better than the Sample C and Sample D fabrics at speeds below 9m/s, and not quite so well at speeds above 11m/s.
- Therefore, neither of the prior art Sample A and Sample B fabrics provided a low drag coefficient across the entire 5 m/s to 20 m/s speed range, the Sample A fabric providing low drag only at high speeds between 16m/s and 25m/s, and the Sample B fabric providing low drag only at relatively slow speeds between 6 m/s and 10 m/s.
- By comparison the three new constant height fabrics (Samples C, D and E) provided a much wider range of low drag performance, all providing a drag coefficient of less than 1.00 at air speeds above 9m/s, and less than 0.82 at air speeds between 11m/s and 25m/s.
- In
Fig. 2b the wind tunnel test results are illustrated for a plain 130mm radius cylinder and for four different fabrics on a 130mm radius cylinder, the fabrics being as follows: - Sample A - a prior art textured fabric that performs best at high speeds;
- Sample B - a prior art textured fabric that performs best at low speeds;
- Sample C - a new fabric comprising an embodiment of the invention, having a silicone chevron texture pattern with a spacing of 7mm and a constant texture height of 0.4mm;
- Sample G - a new fabric of the type described in
EP16165668.1 - The fabrics were each wrapped around the circumference of the 130mm radius cylinder for the test.
- As can be seen in
Fig. 2b , the prior art Sample A fabric again performed well at high speeds, having a drag coefficient of less than 0.60 at air speeds between about 14m/s and 20m/s, but less well at lower speeds, the drag coefficient rising rapidly to a value in excess of 1.00 at air speeds less than about 12m/s. - The Sample B fabric performed well at low speeds, having a drag coefficient of less than 0.80 at an air speed of about 5m/s, but less well at higher speeds, the drag coefficient exceeding 0.88 at air speeds of more than 10m/s.
- The Sample G fabric with a gradually varying texture height performed well across a wide range of speeds, having a drag coefficient of less than 1.00 at speeds above 6m/s and a drag coefficient of less than 0.80 at speeds between 8m/s and 25m/s.
- However, the Sample C fabric performed even better than the Sample G fabric across the entire 5-20m/s speed range, having a drag coefficient of less than 1.00 at speeds above 5.5m/s and a drag coefficient of less than 0.80 at speeds between 7m/s and 25m/s.
- As a result of these and other tests we have identified the following advantageous characteristics in relation to a low drag garment that is designed to provide a low drag coefficient across a range of relative speeds including in particular the range 5-20 m/s:
- the garment comprises a textured fabric in at least a side region of the garment, wherein the textured fabric has a texture pattern with a substantially uniform texture height in the range 0.2-0.8mm, preferably 0.3-0.7mm, more preferably 0.4-0.6mm.
- the garment includes a body portion, and the textured fabric is provided in at least one side region of the body portion, wherein the textured fabric in the side region of the body portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm.
- the garment includes a sleeve portion and the textured fabric is provided in at least one side region of the sleeve portion, wherein the textured fabric in the side region of the sleeve portion has a texture pattern with a substantially uniform texture height in the range 0.3-0.8mm, preferably 0.4-0.6mm.
- the garment includes a leg portion and the textured fabric is provided in at least one side region of the leg portion, and wherein the textured fabric in the side region of the leg portion has a texture pattern with a substantially uniform texture height in the range 0.2-0.4mm.
- the garment additionally comprises a relatively smooth fabric in at least one front region of the garment, wherein the relatively smooth fabric has a texture height of less than 0.2mm, preferably less than 0.1mm.
- the garment additionally comprises a textured fabric in at least one rear region of the garment, wherein the textured fabric in the rear region of the garment has a texture height of at least 0.4mm, preferably at least 0.5mm.
- the side region of the garment comprises a region of the garment in which the surface angle has a minimum value θ1 in the
range 5° to 45°, preferably 10° to 25°, and a maximum value θ2 in the range 95°-160°, preferably 105°-140°. - the
texture pattern 8 comprises a plurality ofisolated texture formations 8a separated by regions with substantially no surface texture. - the
texture formations 8a are arranged inrows 10 that extend transverse to the direction of air flow, preferably with a mean spacing between the rows in the range 1mm to 10mm, more preferably 2mm to 8mm. - The garment may include any one or a combination of the preferred characteristics set out above.
- We have found that in certain embodiments the
textured fabric 3 covering the surface of acylindrical body 2 can be divided into a number of zones including a front zone A, a side zone B and a rear zone C, which are defined in relation to the direction of forward movement M, as shown inFigure 1 . The first zone A is located generally in an inner front region of thecylindrical body 2, the side zone B is located generally in an outer region of thecylindrical body 2, and the rear zone C is located generally in a rear region of thecylindrical body 2. - In the front zone A the fabric may be relatively smooth, having a texture height HA of less 0.2mm, to minimise friction drag.
- In the side zone B the texture pattern preferably has a height HB in the range 0.2-0.8mm, more preferably 0.2-0.4mm in a body portion of the garment, 0.4-0.8mm in a sleeve portion and 0.2-0.4mm in a leg portion.
- In the rear zone C the texture pattern preferably has a height He that is at least as great as that in the side zone B, and may be greater to further reduce pressure drag.
- The side zone B may be defined as comprising the region of the textured fabric in which the surface angle θ has a minimum value θ1 in the
range 5° to 45°, preferably 10° to 25°, and a maximum value θ2 in the range 95°-160°, preferably 105°-140°. The front zone A and the rear zone C comprise the remaining portions of the textured fabric. - The
texture pattern 8 can take various different forms, an example being illustrated inFigures 3-5 . The texture pattern illustrated inFigures 3-5 comprises a staggered array of chevron-shapedtexture formations 8a, which are arranged intransverse rows 10 with a mean separation D between the rows in the direction of air flow typically in the range 1mm to 10mm, preferably 2mm to 8mm. The mean separation G between thetexture formations 8a that form eachrow 10 in a direction perpendicular to the direction of air flow is typically in the range 1mm to 6mm, preferably 2mm to 4mm. The height of the texture pattern corresponds to the height H of theformations 8a. The chevron-shapedtexture formations 8a are preferably arranged to point in the expected direction of airflow over the surface. - In this embodiment the
texture pattern 8 comprises a plurality ofisolated texture formations 8a, which are separated by regions with substantially no surface texture. We have found that isolated texture formations, separated by areas of fabric with substantially no surface texture, provide reduced surface drag as compared to fabrics with continuous texture formations, as well as reduced pressure drag. - It should be noted that the exemplary texture pattern illustrated in
Figures 3-5 is only one example of the many different patterns that may be used. - In the case of a garment made from a textured fabric, the
texture pattern 8 may for example be provided by using a jacquard knitted fabric. Alternatively, the texture pattern can be printed onto the fabric or it can be created by applying a suitable solid material, for example silicone, to the surface of the fabric. The silicone may for example be applied to the surface of the fabric using a 3D printer. - The garment is preferably an article of sports clothing, which may be used for any sport where the reduction of drag is important. This applies particularly to sports where the input power is limited (for example being supplied by the athlete or the force of gravity) and where the athlete travels at a speed typically in the range 5-20m/sec, for example cycling, running, speed skating or skiing. The article of clothing may for example consist of a shirt, trousers, leggings, shorts, bibshorts, shoes, overshoes, arm covers, calf guards, gloves, socks or a one-piece bodysuit. The article of clothing may also be an item of headwear, for example a hat or helmet, or a fabric covering for a helmet.
- An example of a garment intended for use while cycling is illustrated in
Figures 6 and 7 . The garment in this case is a one-piece bodysuit 11 comprising abody portion 12 that covers the athlete's trunk, withshort sleeves 14 andlegs 16 that cover the upper portions of the athlete's arms and legs. The garment has a plurality of zones that are defined in relation to the direction of forward travel M of the athlete, and which take account of the athlete's posture. The zones include a first zone A located generally in an inner front region of the garment, a second zone B located in a side region of the garment and a third zone C that is located in a rear region of the garment. The outer surface of the garment has a texture that varies across the three zones, the fabric being essentially smooth in the first zone A (e.g. having a height less than 0.2mm), have a height of 0.2-0.8mm in the second zone B, and a height in third zone C that is either equal to or greater than that in the side region B. - In this example, the first zone A is located primarily on the chest and shoulder regions of the
trunk 12 and on the forward facing portions of thesleeves 14 and thelegs 16. The second zone B is located primarily on the side and back regions of thebody 12 and on the side regions of thesleeves 14 and thelegs 16. The third zone C is located primarily on the lower back portion of thebody 12 and the rear portions of thesleeves 14 and thelegs 16. This arrangement of texture patterns has been found to be particularly advantageous for cyclists adopting the classic crouched posture illustrated inFigure 6 & 7 . It will be appreciated that in other sports where the athletes adopt different postures, the arrangement of the texture patterns will be adapted as required to provide a low level of pressure drag.
Claims (13)
- A low drag garment having a front region (A), a rear region (C) and at least one side region (B), the low drag garment comprising a textured fabric in said at least one side region (B), wherein the textured fabric has a texture pattern (8) with a substantially uniform texture height (H) wherein the textured fabric in the side region (B) has a texture pattern (8) that comprises a plurality of isolated texture formations (8a) separated by regions with substantially no surface texture, and the texture formations (8a) are arranged in a plurality of rows (10) and each said row extends transverse to a direction of airflow from the front region to the rear region of the garment, characterised in that the texture pattern has a substantially uniform texture height (H) in the range of 0.2 to 0.8 mm and the rows (10) have a mean spacing D in a direction of airflow in the range 1mm to 10mm.
- A low drag garment according to claim 1, wherein the textured fabric has a texture pattern (8) with a substantially uniform texture height (H) in the range 0.3-0.7mm, preferably 0.4-0.6mm.
- A low drag garment according to claim 1 or claim 2, wherein the garment includes a body portion (12) and the textured fabric is provided in at least one side region (B) of the body portion, and wherein the textured fabric in the side region (B) of the body portion has a texture pattern (8) with a substantially uniform texture height (H) in the range 0.2-0.4mm.
- A low drag garment according to claim 3, wherein the garment includes a sleeve portion (14) and the textured fabric is provided in at least one side region (B) of the sleeve portion (14), and wherein the textured fabric in the side region (B) of the sleeve portion (14) has a texture pattern with a substantially uniform texture height (H) in the range 0.3-0.8mm, preferably 0.4-0.6mm.
- A low drag garment according to claim 3 or claim 4, wherein the garment includes a leg portion (16) and the textured fabric is provided in at least one side region (B) of the leg portion (16), and wherein the textured fabric in the side region (B) of the leg portion (16) has a texture pattern with a substantially uniform texture height (H) in the range 0.2-0.4mm.
- A low drag garment according to any one of the preceding claims, comprising a relatively smooth fabric in at least one front region (A) of the garment, wherein the relatively smooth fabric has a texture height of less than 0.2mm, preferably less than 0.1mm.
- A low drag garment according to any one of the preceding claims, comprising a textured fabric in at least one rear region (C) of the garment, wherein the textured fabric in the rear region (C) of the garment has a texture height (H) of at least 0.4mm, preferably at least 0.5mm.
- A low drag garment according to any one of the preceding claims, wherein the side region (B) of the garment comprises a region of the garment having a width in the range 30-170mm, preferably 50-140mm.
- A low drag garment according to any one of the preceding claims, wherein the rows (10) have a mean spacing D in a direction of airflow in the range 2mm to 8mm.
- A low drag garment according to claim 9, wherein the rows (10) have a mean spacing G in a direction perpendicular to a direction of airflow in the range 1mm to 10mm, preferably 2mm to 8mm.
- A low drag garment according to any one of the preceding claims, wherein the fabric has a texture pattern (8) that is provided by jacquard knitting of the fabric, or by printing a 3D pattern on the outer surface of the fabric, or by the application of a solid material, for example silicone, to the outer surface of the fabric.
- A low drag garment according to any one of the preceding claims, wherein the garment is an article of sports clothing, and optionally wherein the garment is a shirt, trousers, leggings, shorts, bibshorts, shoes, overshoes, arm covers, calf guards, gloves, socks or a bodysuit.
- A low drag garment according to claim 12, wherein the garment is an article of sports clothing for use in cycling, running, skiing, horse racing or speed skating, or a sport where an athlete typically travels at a speed in the range 5-20m/s, preferably 10-20m/s.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB1617636.4A GB2555570A (en) | 2016-10-18 | 2016-10-18 | Low drag garment |
Publications (2)
Publication Number | Publication Date |
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EP3311686A1 EP3311686A1 (en) | 2018-04-25 |
EP3311686B1 true EP3311686B1 (en) | 2020-03-04 |
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EP17275164.6A Active EP3311686B1 (en) | 2016-10-18 | 2017-10-17 | Low drag garment |
Country Status (3)
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US (1) | US20180103704A1 (en) |
EP (1) | EP3311686B1 (en) |
GB (1) | GB2555570A (en) |
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US9925440B2 (en) | 2014-05-13 | 2018-03-27 | Bauer Hockey, Llc | Sporting goods including microlattice structures |
US10716340B2 (en) * | 2015-05-27 | 2020-07-21 | Nike, Inc. | System and device for affecting drag properties of an object |
EP3890534B1 (en) * | 2018-12-06 | 2023-10-18 | Puma Se | Method for monitoring or visualizing the running speed of an athlete and athletic garment |
US11684104B2 (en) | 2019-05-21 | 2023-06-27 | Bauer Hockey Llc | Helmets comprising additively-manufactured components |
EP4122341A1 (en) * | 2021-07-24 | 2023-01-25 | Aeromind, LLC | Aerodynamically enhanced appendage coverings |
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JPH03137203A (en) * | 1989-10-20 | 1991-06-11 | Mizuno Corp | Sports wear |
JP2603769B2 (en) * | 1991-05-22 | 1997-04-23 | 株式会社 ワコール | Lower leg supporter with taping function worn by pressing against human body surface |
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JP2957496B2 (en) * | 1996-11-07 | 1999-10-04 | 株式会社デサント | Speed skating clothing |
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US20180103704A1 (en) | 2018-04-19 |
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GB201617636D0 (en) | 2016-11-30 |
EP3311686A1 (en) | 2018-04-25 |
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