The present invention is related to garments and apparel, more particularly sports/athletic garments and apparel, and still more particularly sports/athletic garments and apparel with perspiration control components.
In the present specification, the terms “garments” and “apparel” are used synonymously and interchangeably. Similarly, the terms “sports” and “athletic” are used synonymously and the terms “shirt” and “jersey” are used synonymously and interchangeably in the present specification. Furthermore, it is to be understood that the present invention may be used for perspiration-inducing recreational activities of any sort. Furthermore, it is to be understood that “towel” is meant to refer to any sort of moisture absorbing cloth or material.
Because of the high performance requirements of athletes, sports/athletic apparel must be designed for optimum functionality. This is particularly true for professional athletes who operate at the very limits of human capability where fractions of a second and/or fractions of an inch may mean the difference between success and failure, i.e., winning and losing. Factors which must be considered in the design of athletic garments and apparel include freedom of movement, ventilation, weight, heat retention, perspiration repellence or perspiration retention, durability, etc. Often these factors having competing needs or requirements and a balance must be found in their optimization.
A challenge athletes in many sports face is the management of perspiration during play or in intermissions. This is particularly an issue with perspiration on the brow and forehead which might drip into the eyes and obscure vision, thereby putting the player at a momentary disadvantage or possibly even producing a safety hazard. Traditionally, perspiration control has been managed by athletes excusing themselves from play to make use of a towel/cloth. However, this requires interruption of play—or if done without interruption of play, distracts the player from play. One sport where perspiration management is particularly an issue is basketball, where play is very active and continues uninterrupted for extended periods of time. In basketball, players will commonly use portions of their jersey to wipe perspiration from the vicinity of their eyes in the moments after points are scored or while jogging down-court.
Typical jerseys are made of polyester, which is a non-absorbent material and somewhat abrasive, and repeated wiping may cause irritation to the skin around the eyes. It should also be noted that perspiration management can be a safety issue, such as in basketball where moisture on the playing surface may cause players to slip. One situation which is particularly problematic is at the free throw line in basketball, where players are required to stand for longer periods of time while shooting free throws, and so perspiration tends to drip from their body and face and accumulate on the playing surface there, presenting a particular slipping hazard at that location. But sports jerseys such as basketball jerseys are generally made of materials, such as 100% polyester fabric, having limited absorption capabilities.
The absorption of typical jerseys is further reduced by the use of thin fabrics for their construction. Various attempts have been made to provide means of perspiration control via implements attached to articles of clothing, and previously filed patents exist that describe such implements. However, these patents do not provide an adequate solution that combines the necessary and desirable features of accessibility, ease of use, effectiveness, unobtrusiveness and concealability. For example, U.S. Pat. No. 5,075,901 describes an athletic shirt wherein one or more pieces of absorbent material are permanently stitched or sewn into the inside of the garment, but the permanent nature of the installations requires the wearer to lift the entire garment above the face and makes reaching the head, neck, and arms impractical and revealing of the chest and other parts of the body, which would in many cases be undesirable, especially for female wearers.
Likewise, U.S. Pat. No. 4,768,236 describes an article of lower body wear such as a skirt or shorts with a detachable sheet of absorbing material in the form of a towel. However, the placement of this towel on the lower part of the body requires that the sheet be completely detached in order to be used for the head, neck, face and arms, and then replaced, which can be impractical, requires the wearer to stop and focus on detaching the towel and replacing it when done, and poses a risk of the towel dropping to the ground and becoming soiled and/or posing a slipping or tripping hazard.
U.S. Pat. No. 4,768,236 describes a towel-like appendage secured to the outside of an upper body garment at the back side whose placement presents a significant encumbrance to easily accessing the appendage for the wearer unless the appendage is of sufficient width to span the majority of the wearer's back, thereby requiring the appendage to be bulky and heavy. Placing the appendage on the back. also makes the appendage counterproductive to ameliorating perspiration since the wearer's back is now covered by an extra layer of material which promotes heat retention.
Other patents describe athletic garments outfitted with non-removable strips or patches of hydrophilic material which serve to wick away moisture from the wearer's skin, such as in U.S. Pat. Nos. 8,769,716 and 8,360,816. However, such garments are of limited utility since the moisture wicking material must be integrated into the garment and be predominantly skin-tight to be effective and thus do not allow the wearer to use the garment to remove perspiration from areas such as the face and neck.
U.S. Pat. No. 6,385,774 describes a bib intended to keep moisture away from a person's skin (column 1, line 3; see also column 1, lines 30-32), but it is not designed for use as a towel for wiping away perspiration. This reference teaches that “the bib may be inserted between the person's torso and their shirt front or their shirt back” (column 2, lines 58-59). With regards to the shape shown in
The present invention addresses these challenges by providing a towel designed for perspiration absorption which is attached to a sports garment in such a way as to be easily accessible, easy to use, effective, easily replaceable after use for subsequent use, concealability, and unobtrusiveness.
The present invention is also directed to apparel for non-high performance athletes, such as apparel for people who exercise to lose weight or maintain a level of fitness, or people who engage in non-professional recreational sports. While convenience and functionality need not be optimized for such users to the extent of fractions of a second, subtleties in convenience and functionality are still important so as not present hurdles to adoption and use since recreational sports players are still extremely sensitive to subtleties in performance and take their competitions very seriously.
It should also be noted that both in the case of use by high-performance athletes and by regular people, it is advantageous to provide a modular system of interchangeable components, particularly when those components allow customized color combinations to be assembled.
With regards to attachment mechanisms, it is noted that magnetic attachment mechanisms are commonly used for attachment of rigid or relatively inflexible components, such as purses, briefcases, phone cases, etc. The magnets used for those attachment mechanisms are usually a few small discs. It should also be noted door screenings consisting of two sheets of hanging screening material which removably attach along a vertical line at the center of the door using flexible strips of magnetic material are commercially available. The weight of the sheets of screening and the slight rigidity of the screening helps keep the sheets relatively aligned. However, such flexible strips of magnetic material have bulk and some rigidity and are not suitable for use with sheets of material which do not hang and need to be flexible, such clothes fabrics. It should also be noted that the highest strength magnets currently available are neodymium-alloy magnets, which are rigid and brittle, and cannot be made into flexible strips.
Therefore, it is an object of the present invention to provide a towel for management or alleviation of the accumulation of perspiration.
More particularly, it is an object of the present invention to provide a towel affixed to a sports garment for use in alleviation of the accumulation of perspiration.
Still more particularly, it is an object of the present invention to provide a towel for management of the accumulation of perspiration where such means is affixed to a shirt or jersey.
Furthermore, it is an object of the present invention to provide a towel affixed to a sports garment for management of the accumulation of perspiration which can be quickly and easily accessed and utilized.
It is another object of the present invention to provide a towel for management of the accumulation of perspiration which may be easily attached to a variety of jerseys, or any jersey such as a jersey manufactured by a third party which was not designed to have a perspiration absorption towel attached to it.
It is another object of the present invention to provide a towel affixed to a sports garment for management of the accumulation of perspiration which can be readily returned to a non-use position, whether that is inside or outside of the apparel.
It is another object of the present invention to provide a towel affixable to a sports jersey for management of the accumulation of perspiration which is semi-permanently attached to the jersey along its top border and removably attachable to the jersey along its bottom border.
More particularly, it is an object of the present invention to provide a towel affixable to a sports garment for management of the accumulation of perspiration which is can be readily be reattached to the jersey after use.
Furthermore, it is an object of the present invention to provide a perspiration absorption towel affixed to a sports garment where the perspiration absorption towel optimally wicks and/or absorbs, including strategic placement of non-absorbing or water-repellant or non-wicking regions.
Furthermore, it is an object of the present invention to provide a perspiration absorption towel affixed to a sports garment where the perspiration absorption towel has a shape and a size such that it is easily removeable from the garment, easily and effectively used to remove perspiration from critical areas, and easily returned to the interior of the garment.
It is another object of the present invention to provide a mechanism for detachable attachment of two sheets of fabric each bearing magnets.
More particularly, it is an object of the present invention to provide a mechanism for magnetic detachable attachment of edges of sheets of fabric where a first sheet of fabric has a first distribution of magnetics and a second sheet of fabric has a second distribution of magnets, and wherein the first distribution of magnets more readily attaches to the second distribution of magnets than to portions of itself.
Furthermore, it is an object of the present invention to provide a mechanism for magnetic detachable attachment of edges of sheets of fabric where a first sheet of fabric has a length of a first distribution of magnetics and a second sheet of fabric has a second distribution of magnets of roughly the same length, and wherein the attachment is most secure when the outer edges of the two distributions of magnets coincide.
Furthermore, it is an object of the present invention to provide a plurality of mechanisms for magnetic detachable attachment of edges of sheets of fabric wherein a first mechanism provides a semi-permanent attachment and a second mechanism provides a temporary and/or readily-detachable attachment.
Furthermore, it is an object of the present invention to provide a removably attachable attachment mechanism with reduced bulk.
It is another object of the present invention to provide a removably attachable attachment mechanism which allows for rapid attachment and detachment.
It is another object of the present invention to provide a removably attachable attachment mechanism which provides guidance/facilitation of alignment of mating parts.
It is another object of the present invention to provide a magnetic attachment mechanism for sheets of flexible material.
It is another object of the present invention to provide a magnetic attachment mechanism for sheets of flexible material which allows for imperfect alignment.
It is another object of the present invention to provide a magnetic attachment mechanism for sheets of flexible material which utilizes high-strength magnets (such as neodymium-alloy magnets) but alters the “feel” generally associated with high-strength magnetic attachment mechanisms.
Additional objects and advantages of the invention will be set forth in the description which follows, and will be obvious from the description or may be learned by practice of the invention. The objects and advantages of the invention may be realized and obtained by means of the instrumentalities and combinations particularly pointed out in the claims.
A perspiration management jersey for use in athletics having a jersey portion adapted to be worn as a shirt on a player, and a perspiration absorption towel, a top border of the perspiration towel being attached on the inside of the jersey at the level of the collar, where the perspiration absorption towel has a width in the collar region which is less than the width of the collar. Alternatively, the present invention is a perspiration management jersey for use in athletics having a jersey portion adapted to be worn as a shirt on a player, and a perspiration absorption towel attached at the collar, the perspiration absorption towel having two layers, a moisture absorption layer and a water-proof layer. When the perspiration absorption towel is hanging inside the jersey and worn by the player, the water-proof layer is located between the player and the moisture absorption layer to prevent perspiration on the player's chest from being absorbed by the moisture absorption layer. But when the perspiration absorption towel is pulled out of the jersey and upwards, the moisture absorption layer is located between the player and the water-proof layer so that the player can use the perspiration absorption towel to absorb moisture on the player's brow.
A perspiration management jersey for use during physical exertion having a jersey portion adapted to be worn as a shirt on a player, and a perspiration absorption towel, a top border of the perspiration towel being attached on the outside of the jersey at the level of the collar.
The accompanying figures, which are incorporated in and form a part of this specification, illustrate embodiments of the invention and, together with the description given above and the detailed description of the preferred embodiments given below, serve to explain the principles of the invention.
A front view of an athletic jersey (100) with affixed perspiration absorption towel according to the present invention is shown in
According to one preferred embodiment of the present invention, the attachment mechanism is a removable attachment means, as might be provided by a hook-and-loop attachment, such as Velcro® brand fastener manufactured by Velcro of the United Kingdom. This provides the advantage of allowing the towel (150) to be separated from the jersey (100) and washed separately. This also provides the advantage that during a break in play, a towel (150) which is saturated with perspiration can be swapped for a fresh towel that has not yet absorbed perspiration. However, a possible disadvantage of using a hook-and-loop attachment means, such as Velcro®, is that this adds some bulk to the collar region (102) of the shirt (100).
An alternate removable attachment is a magnetic attachment, preferably using neodymium magnets or the like, which will reduce bulk relative to a hook-and-loop type attachment. Another alternate removable attachment is a buttons-type or snaps-type attachment. A buttons-type attachment will reduce bulk relative to a hook-and-loop type attachment, but creating the attachment or undoing it cannot be achieved as quickly.
According to another preferred embodiment of the present invention, the perspiration absorption towel (150) is sewn in the interior of the collar region (102) at the front of the jersey (100). The sewn attachment is non-removeable, but the advantage of this sewn attachment is that it minimizes bulk in the collar region (170).
As shown in the x-ray view of
As shown in the x-ray view of
As shown in the x-ray view of
Although the perspiration absorption towel (150) of the present invention, and particularly the absorption layer (158), are described as being absorptive, it should be noted that the perspiration absorption towel (150) may also include a wicking layer or wicking materials. For instance, according to an alternate embodiment of the present invention, the absorption layer (158) may be located between a wicking layer (not shown) and the water-proof layer (159). Or alternatively, the perspiration absorption towel (150) may not include a water-proof layer (159). It should be understood that what is important is that the perspiration absorption towel (150), whether made of a wicking material or an absorbent material, has hydrophillic properties which allows it to remove perspiration from the wearer.
It should be noted that neither the parent application to the present application nor any of the references cited in the parent application teach the disclosed relationships between the width of the collar (102) and dimensions of the towel (150). This is because these ranges are the result of not routine experimentation, but rather of insight and many hours of use and refinement by applicant.
A front view of an athletic jersey (600) with affixed perspiration absorption towel (650) according to an alternate embodiment of the present invention is shown in
The attachment (671) at the top region (652) of the perspiration absorption towel (650) to the jersey (600) may be to the outside of the jersey (600). Or the perspiration absorption towel (650) may fold into the inside (not visible) of the jersey (600) and the attachment of the top region (651) of the perspiration absorption towel (650) may be to an attachment mechanism on the inside of the jersey (600). Or, as discussed below, the perspiration absorption towel (650) may fold into the inside (not visible) of the jersey (600) and the attachment of the top region (651) of the perspiration absorption towel (650) may be a magnetic attachment through the jersey (600) to an attachment mechanism on the perspiration absorption towel (650).
According to one preferred embodiment the perspiration absorption towel (650) is a microfiber cooling towel, such as those manufactured by Mission, LLC. The perspiration absorption towel (650) has a length LT from its top edge (661) to its bottom edge (662) which is preferably greater than 30 cm and 60 cm, more preferably greater than 40 cm and less than 50 cm, and still more preferably roughly 45 cm. The perspiration absorption towel (650) has sides (655) which flare such that the perspiration absorption towel (650) has a top width WT1 and a bottom width WT2, where WT1<WT2. The top width WT1 of the perspiration absorption towel (650) is less than the width We of the collar (102) of the jersey (100), i.e., WT1<WC. According to the present invention α*WC<WT1<β*WC, where preferably β is less than or equal to 1.0 and a is greater than or equal to 0.25, more preferably β is less than or equal to 0.75 and a is greater than or equal to 0.33, and more preferably β is less than or equal to 0.66 and α is greater than or equal to 0.33. Most preferably WT1 is roughly equal to half the value of WC. Furthermore, preferably 0.8*WC<WT2<1.75*WC, more preferably 0.9*WC WT2<1.5*WC, more preferably 1.0*WC<WT2<1.3*WC, and still more preferably 1.1*WC<WT2<1.2*WC. (According to a first preferred method, widths WT1, WT2, and WC are measured when the jersey (600) is flattened and viewed in plan view. According to a second preferred method, widths WT1, WT2, and We are measured when the jersey (600) is worn and viewed from straight ahead.) Having the top width WT1 of the perspiration absorption towel (650) being less than the width We of the collar (602), particularly by the amounts within the above-specified preferred ranges, provides the advantages of (i) reducing bulk in a region of the perspiration absorption towel (650) where it would generally not be used to absorb perspiration, and (ii) allowing a straight top edge of the perspiration absorption towel (650) to be more readily and attractively attached to the curved contour of the collar (602). Having the top width WT1 of the perspiration absorption towel (650) being greater than the above-specified minimum bounds provides the advantages of preventing the handling of the perspiration absorption towel (650) or dangling of the perspiration absorption towel (650) when its bottom region (652) is not attached to the jersey (600) from resulting in 180° twists about the longitudinal axis (699) of the perspiration absorption towel (650). It is generally advisable to position the attachment mechanisms (671) and (672) to provide a flush fit of the perspiration absorption towel (650) to the jersey (600) since otherwise the perspiration absorption towel (650) might catch air when there is a wind or the user is biking or running, which would be distracting.
The perspiration absorption towel (650) has an inset notch (680) on each side a short distance LX above the bottom attachment (672) to facilitate grasping of the perspiration absorption towel (650). Each inset notch (680) has a depth WX of preferably between 1 cm and 5 cm, more preferably between 2 cm and 4 cm, still more preferably between 2.5 cm and 3.5 cm, and even more preferably about 3 cm. Each inset notch (680) is located at a height LX above the bottom edge (662) of the perspiration absorption towel (650) where height LX is preferably between 2 cm and 10 cm, more preferably between 3 cm and 8 cm, still more preferably between 4 cm and 6 cm, and even more preferably about 5 cm. The inset notches (680) preferably have a width of between 1.0 cm and 5 cm, and more preferably between 1.5 cm and 4 cm, to allow a finger to be easily inserted into an inset notch (680). Furthermore, the material between the two inset notches (680) must be of sufficient strength to handle stresses produced in that region when the perspiration absorption towel (650c) is detached from the jersey (600). As shown in
A front view of an athletic jersey (600) with affixed perspiration absorption towel (650′) according to another alternate embodiment of the present invention is shown in
As was the case also with the perspiration absorption towel (650) of
The perspiration absorption towel (650′) has an inset notch (681) at the center of the bottom edge (662′). The bottom inset notch (681) has a depth WX′ of preferably between 1 cm and 5 cm, more preferably between 2 cm and 4 cm, still more preferably between 2.5 cm and 3.5 cm, and even more preferably about 3 cm. The inset notch (681) preferably has a width of between 1.0 cm and 5 cm, and more preferably between 1.5 cm and 4 cm, to allow a finger to be easily inserted into an inset notch (681). As shown in
According to a preferred embodiment of the present invention, the first and second attachment mechanisms might be provided by a hook-and-loop attachment, such as Velcro® brand fastener manufactured by Velcro of the United Kingdom. This provides the advantage of allowing the perspiration absorption towel (650) to be separated from the jersey (600) and washed separately. This also provides the advantage that during a break in play, exercise or other form of exertion, a perspiration absorption towel (650) which is saturated with perspiration can be swapped for a fresh perspiration absorption towel (650) that has not yet absorbed perspiration. However, a possible disadvantage of using a hook-and-loop attachment means, such as Velcro®, is that this adds some bulk to the collar region (102) of the shirt (100).
An alternate form of attachment is a buttons-type or snaps-type attachment which will reduce bulk relative to a hook-and-loop type attachment. A buttons-type attachment or snaps-type attachment may reduce bulk relative to a hook-and-loop type attachment, but creating the attachment or undoing it cannot be achieved as quickly.
Alternatively, the attachment mechanism may be magnetic. Magnetic attachments according to the present invention provide a number of advantages, including reduced bulk, rapid attachment and detachment, and guidance/facilitation of alignment of mating parts. Preferably, the magnets are high strength neodymium magnets or the like. Neodymium magnets are made of an alloy of neodymium, iron and boron, Nd2Fe14B, which has a tetragonal crystalline structure. The neodymium alloy is typically coated with one or more anti-oxidizing layers to prevent the alloy from oxidizing. According to the present invention, the anti-oxidizing coating is nickel with a thickness of 5 to 7 micrometers. (Gold or silver with a thickness of 1 to 2 micrometers may also be utilized.) Neodymium magnets come in a variety of grades, the most common grades being termed N35, N38, N40, N42, N45, N48, N50, and N52, with higher numbers reflecting greater magnetic strength. A typical N35 grade neodymium magnet will have a residual flux density of 11.7×103 Gauss to 12.1×103 Gauss, and a typical N52 grade neodymium magnet will have a residual flux density of 14.5×103 Gauss to 14.8×103 Gauss. Although an N42 grade neodymium magnet with a residual flux density of 13×103 Gauss will be utilized in the calculations of the present specification, it should be noted that the present invention is not limited to any particular grade of neodymium magnets or even to high-strength neodymium magnets.
In a first preferred embodiment shown in
As shown in the close-up view of
It should be noted that according to the lexicography of the present specification and claims, the terms “right” and “left” are meant to refer to opposite ends of the axes upon with the rows of magnets (810) and (820) are mounted and the longitudinal axes of the magnets (810) and (820). Similarly, the terms “above” and “below” are meant to refer to the directions in the plane of the sheets (812) and (822) and transverse to the directions left and right. It is to be understood that this lexicography is utilized for ease of discussion and should not be considered to be limiting in the sense that the same principals apply regardless of any rotation of the frame of reference with respect to the aforementioned directions.
The magnets (810) and (820) are attached to the first and second sheets (812) and (822) by being sandwiched between the first and second sheets (812) and (822) and securing layers (814) and (824) (not shown in
In general, the calculation of forces between magnets is computationally difficult since it is dependent on the shape of the magnets as well as their relative orientations and the distance between them. Therefore, magnetic force calculations typically involve simplifications and approximations. For instance, the magnetic charge model is one of the methods which can be used to estimate forces between magnets. According to the magnetic charge model, poles of magnets are considered to be covered with (monopole) magnetic charges and the force between a pair of magnets is calculated as electrostatic forces would be, i.e., as a double integral over volume of magnetic charges which have Coulomb-like 1/x2 forces of attraction and repulsion. This model works well in predicting forces between magnets of simple shapes where good estimates of how the distribution of the monopole magnetic charges can be made. For two identical cylindrical, axially-aligned magnets of length L and radius R, for a separation distance x which is large compared to the length L and radius R the magnetic charge model can be utilized to calculation the magnetic force F between the magnets as
where B is the magnetic flux density in Tesla near the poles of the magnets, and μ0 is the permeability of space which is 47π×10−7 Tesla-meter/Amperes. It should be noted that the dependence of the force F of attraction or repulsion on separation distance x has different characteristics for small distances and larger distance. In the limit of large separation distance x, the attraction between magnets diminishes quickly with distance as 1/x4. However, as x gets small relative to L, the 1/x2 term in the righthand bracket dominates. And in the limit of x->0, the magnetic charge model fails and the force F between two magnetized surfaces is given by
Hence, the dependence of force F on separation distance x has a near-field behavior when x is small which is different than the far-field behavior when x is large. This change in behavior of force F versus distance x means that a magnetic attachment will have a different “feel” if the fabric separating the two magnets is thin relative to the length L versus if it is thick relative to the length L.
It should also be noted that although the present invention has been discussed in terms of mating pairs of magnets, the present invention may be implemented with magnets being mated with any materials that are attracted to magnets such as ferromagnetic or paramagnetic materials. According to the lexicography of the present invention such a material will be referred to a magnetically-attracted material. It should also be noted that although the present invention is been discussed in terms of attachment mechanisms for use with fabrics or textiles, the magnetic attachment methods of the present invention may be applied to other materials by incorporating a first group of magnets at first locations on a first mating part and incorporating a second group of magnets or magnetically-attracted material at second locations on a second mating part such that the first locations and second locations substantially abut when the first mating part and second mating part are brought into contact.
According to the present specification, a “semi-permanent attachment” is utilized when the frequency of anticipated detachments and attachments is expected to be considerably less than the frequency of anticipated detachments and attachments of a “temporary attachment mechanism.” An attachment mechanism is considered to be temporary if the attachment is less secure and/or less resistant to inadvertent detachment and/or more readily detachable than a semi-permanent attachment. According to the present invention for a temporary attachment, the total attachment force F should not be so large that detachment is not easily implementable. According to the present invention, for a “temporary attachment” the required detachment force Ftemp is between 11 and 44 Newtons, more preferably Ftemp is between than 16 and 33 Newtons, and still more preferably Ftemp is between 20 and 26 Newtons. According to the present invention, for a “semi-permanent attachment” the required detachment force Fs-perm is larger than the required detachment force Ftemp for a temporary attachment, but not so large that detachment is overly difficult or time-consuming or requires inordinate effort. According to the present invention for a semi-permanent attachment the required detachment force Fs-perm is between 44 and 88 Newtons, more preferably Fs-perm is between than 50 and 70 Newtons, and still more preferably Fs-perm is between 55 and 65 Newtons.
Although a magnetic attachment system is discussed at this point with regards to the embodiment shown in
F
temp
<g+F
s-perm). (1.3)
Inequality (1.4) may be achieved by (i) using magnets in the top attachment having the same strength as the magnets in the bottom attachment but having less magnets in the bottom attachment than the top attachment, or (ii) using the same number of magnets in the bottom attachment than the top attachment, but where the magnets in the bottom attachment have less strength than the magnets in the top attachment. Furthermore, the attachment (672) of the bottom (662) of the perspiration absorption towel (650) to the jersey (600) is a “dampened” attachment created by interposing fabrics or other materials which produce a separation distance xmin when the magnets are in contact of between L/2 and 8 L, more particularly between L and 5 L, more particularly between 1.5 L and 3 L, and still more particularly between 2 L and 2.5 L. This provides the advantage that the bottom (662) of the perspiration absorption towel (650) may be more readily detached from the jersey (600), i.e., the dampened attachment is suitable for the desired temporary attachment of the bottom (662) of the perspiration absorption towel (650) to the jersey (600) since detachment of a number of magnetic attachments must be implemented in quick succession.
The foregoing descriptions of specific embodiments of the present invention have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the invention to the precise forms disclosed, and it should be understood that many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical application, to thereby enable those skilled in the art to best utilize the invention and various embodiments with various modifications as are suited to the particular use contemplated. Many other variations are possible. For example: the perspiration absorption towel may be longer than the length depicted, such as extending to the bottom hem of the jersey; the shirt/jersey may or may not have sleeves; the perspiration absorption towel may have a shape other than what is described; the perspiration absorption towel may have be of only a single layer; perspiration absorption towel may have more than two layers; the perspiration absorption towel may not be attached to the shirt at the collar; the present invention may be applied to football jerseys where shoulder pads would make access to the perspiration absorption towel easier; the present invention may be adapted for use with a sports bra; the present invention may be adapted for use with a unitard; a portion of the perspiration absorption towel may be made of a material which can provide cooling; a portion of the perspiration absorption towel may be located to the outside of the garment; the colors of the perspiration absorption towel may match the colors of the jersey; the bottom of the perspiration absorption towel may extend to nearer the bottom hem of the jersey; the invention may be used in non-sports, non-athletic, or non-recreational settings; the invention may be applied to a garment such as a tank top, polo-style button collared shirt, tube top or halter top shirt, military uniform, and so on; the perspiration absorption towel may have a length allowing it to absorb moisture on the top of the head, back of the head, shoulders and/or arms; the perspiration absorption towel may be on the exterior of an interior garment; the perspiration absorption towel may include a string or strip of material on one or both sides which extends from the top of the perspiration absorption towel to the bottom to facilitate removal of the entirety of the perspiration absorption towel, and particularly the bottom of the perspiration absorption towel, from the jersey; etc.
Furthermore, the description of the physical principles underlying the operation and performance of the present invention are also presented for purposes of illustration and description, and are not intended to be exhaustive or limiting. It should be understood that these descriptions include many approximations, simplifications and assumptions to present the basic concepts in a mathematically tractable form, and many effects which influence the operation and performance are neglected for ease of presentation. For instance: magnetic forces are only approximated by magnetic charge calculations or large separation-distance approximations of the force equation, and may differ from the values specified; other spacings between the magnets may be used; magnets of other strengths may be used; the separation between magnets may be different than described; etc.
Accordingly, it is intended that the scope of the invention should be determined not by the embodiments illustrated or the physical analyses motivating the illustrated embodiments, but rather by the appended Claims and their legal equivalents.
This application claims priority to non-provisional patent application Ser. No. 17/107,948 entitled “Athletic garment with perspiration absorption towel” filed Nov. 30, 2020, which claims priority to non-provisional patent application Ser. No. 15/644,617 entitled “Athletic attire with integrated perspiration absorbing material” filed Jul. 7, 2017 by the present inventor, which in turn claims priority to provisional patent application Ser. No. 62/440,996 filed Dec. 30, 2016 by the present inventor.
Number | Date | Country | |
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62440996 | Dec 2016 | US |
Number | Date | Country | |
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Parent | 17107948 | Nov 2020 | US |
Child | 17803849 | US | |
Parent | 15644617 | Jul 2017 | US |
Child | 17107948 | US |