MOLDED WATERSPORTS AND COLD CLIMATE GLOVES

Abstract

Molded watersports and cold-climate gloves, where a substantial portion of the accessory is molded in a three-dimensional mold with a soft, pliable, and durable material such as EVA (Ethylene Vinyl Acetate) or PU (Polyurethane) or similar foam blends that aid in the flexibility, durability, and comfort of the accessory.

Claims

1. A watersports garment for a user's hand, comprising a palm portion integrally attached to a wrist portion, wherein the palm portion comprises a single piece of seamless molded foam having inner and outer surfaces, the palm portion defining an opening for receiving the user's hand, wherein the inner surface is dimensioned and configured to receive the user's hand and to enclose the palm and sides of the user's hand, and wherein the molded foam has a durometer below 35 Asker C, wherein the wrist portion comprises a high-stretch neoprene having inner and outer surfaces, the inner surface being bonded to a first fabric lining that receives the user's wrist, wherein the wrist portion is bonded to the palm portion around the periphery of the opening, the bond formed by a layer of waterproof glue, and wherein at a seam where the outer surface of the palm portion abuts the outer surface of the wrist portion, an external seam sealant is applied to provide additional waterproofing and strength to the seam, wherein the external seam sealant is a silicone- or polyurethane-based viscous, room-temperature-cured waterproof compound.

2. The watersports garment of claim 1, wherein the profile of the palm portion has a variable thickness.

3. The watersports garment of claim 1, wherein at least a portion of the outer surface of the palm portion has a high-friction texture.

4. The watersports garment of claim 1, wherein at least a portion of the inner surface of the palm portion has a high-friction texture.

5. The watersports garment of claim 1, wherein a second fabric lining is bonded to at least a part of the inner surface of the palm portion.

6. The watersports garment of claim 1, wherein the palm portion is comprised of a plurality of colors.

7. The watersports garment of claim 1, wherein the palm portion is comprised of a plurality of densities.

8. The watersports garment of claim 1, wherein the palm portion is comprised of a plurality of colors and a plurality of densities.

9. The watersports garment of claim 1, comprising a glove wherein the palm portion has separate recesses for each of the five fingers of the user's hand.

10. The watersports garment of claim 1, comprising a mitten wherein the palm portion has one recess for the thumb of the user's hand, and a second recess for the other four fingers of the user's hand.

11. The watersports garment of claim 1, wherein at the bonded overlap of the wrist portion over the palm portion, the overlapped palm portion includes a thin lip extending around the periphery of the opening, and the inner surface of the overlapping wrist portion includes a skived surface cut at an angle through the first fabric lining and at least part of the distance through the high-stretch neoprene of the wrist portion, such that one part of the outer surface of the thin lip is bonded by the waterproof glue to the first fabric lining of the inner surface of the wrist portion, and a second part of the outer surface of the thin lip is bonded by the waterproof glue to the neoprene of the inner surface of the wrist portion.

12. The watersports garment of claim 1, wherein warm air is applied at a temperature of approximately 100 C. until the palm portion becomes thermo-formable, at which point the garment is placed on the hand of the user, allowing the garment to form to the user's hand as the palm portion cools.

13. The watersports garment of claim 17, wherein after the garment cools and forms to the user's hand, the garment is removed from the user's hand and heated a second time by the application of warm air at a temperature of approximately 100 C. until the palm portion becomes thermo-formable, at which point the garment is placed on the hand of the user, allowing the garment to be refitted to the user's hand as the palm portion cools.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] Preferred embodiments of the invention are described herein below with reference to the drawings wherein:

[0024] FIG. 1 illustrates a pair of gloves;

[0025] FIG. 2 illustrates the seam construction of a glove;

[0026] FIG. 3 illustrates a pair of mittens;

[0027] FIG. 4 illustrates a boot;

[0028] FIG. 5 illustrates a method of manufacture; and

[0029] FIG. 6 illustrates a cross-section of a boot.

DETAILED DESCRIPTION OF THE INVENTION

[0030] The invention includes a watersports garment for an extremity, including a terminal portion constructed from molded foam, such as EVA, PU, or similar foam blends, and a subterminal portion constructed from a high-stretch, water-resistant material, such as neoprene. In an alternate embodiment, the subterminal portion can be a perforated neoprene or nylon/polyester mesh that allows free flow of water in/out of the product. In another alternate embodiment, the subterminal portion can be a water-proof fabric such as nylon or a waterproof/breathable fabric such as GORE-TEX.

[0031] FIG. 1 illustrates one embodiment of the invention, wherein the extremity is a hand, and the garment is a pair of gloves 100. Right glove 101 is oriented to show the palm, while left glove 102 is oriented to show the back of the glove. The terminal portion is a palm portion 110, representing the front and back of the fingers of the gloves, as well as the palm. The subterminal portion is a wrist portion 120, which covers the back of the hand, excluding the fingers, and covers the front and back of the wrist.

[0032] The palm portion 110 includes flex grooves 140 molded into the front of the fingers and palm to enhance flexibility. In addition, the palm portion 110 includes texturing 150 on both the interior and exterior surfaces of the front and back of the fingers and hands, providing for an enhanced grip, i.e., so that the fingers do not slip within the gloves 100, and so that the gloves themselves do not slip when grasping an object.

[0033] A lining fabric 160 (illustrated in FIG. 2) is provided within the interior of the wrist portion 120 of the gloves 100. Note that in another embodiment, not illustrated, a lining fabric is provided within the palm portion to provide additional warmth and/or comfort.

[0034] As FIG. 2 illustrates, the wrist portion 120 is attached to the palm portion 110 at a seam 130, using waterproof glue 210 commonly used in wetsuit construction. A thin lip runs around the entire bonding surface of the EVA components to accept the neoprene.

[0035] The neoprene of wrist portion 120 includes a skived surface 220 that cuts at an angle through lining fabric 160 through to the raw neoprene. Waterproof glue 210 is bonded to the raw neoprene of the skived surface, producing a very strong bond, and is also bonded to lining fabric 160. Lining fabric 160 is much stronger than the raw neoprene of wrist portion 120 against tearing from stretching.

[0036] An external seam sealant 230 is applied to the external surface of seam 130 between the palm portion 110 and wrist portion 120 to provide additional water-proofing and seam strength. This is a silicone- or polyurethane-based sealant that is applied with a syringe in viscous form and which cures at room temperature.

[0037] FIG. 3 illustrates a pair of mittens 300, representing another embodiment of the invention. Right glove 301 is oriented to show the palm, while left glove 302 is oriented to show the back of the glove. In this embodiment, the second through fifth fingers of each glove are joined together into a common compartment.

[0038] With mittens, fingers are able to share warmth, though the tradeoff is a loss of dexterity. In yet another embodiment, not illustrated, modified mittens provide for independent pockets for the thumb and second finger, but group together the third through fifth fingers.

[0039] FIG. 4 illustrates another embodiment of the invention, wherein the extremity is the foot, and the garment is a boot 400. A sole portion 410 encloses the sole, sides of the user's foot, and tops of the toes. The sole portion 410 is manufactured from a molded foam, such as EVA, PU, or similar foam blends. An ankle portion 420 of the boot encloses the user's ankle and lower leg. The ankle portion 420 is manufactured from a high-stretch, water-resistant material such as neoprene.

[0040] A lining fabric 425 is provided within the interior of the ankle portion 420 of the boot 400. Note that in another embodiment, not illustrated, a lining fabric is provided within the sole portion to provide additional warmth and/or comfort. In another embodiment, not illustrated, a removable lining fabric is provided as an accessory to boot 400.

[0041] The ankle portion 420 is attached to the sole portion 410 at a seam 430, using waterproof glue. A thin lip runs around the entire bonding surface of the EVA components to accept the neoprene. At seam 430, the neoprene is cut at an angle, i.e., skived, so that there is a glue-able surface area that includes both the raw neoprene 420 and the lining fabric 425. This allows for a stronger bond (the glue bonds very well to the raw neoprene of ankle portion 420) and also a more durable resistance to tearing (the lining fabric 425 is much stronger than the raw neoprene of ankle portion 420 against tearing from stretching).

[0042] An external seam sealant 435 is applied to the external seam between the sole portion 410 and ankle portion 420 to provide additional water-proofing and seam strength. This is a silicone- or polyurethane-based sealant that is applied with a syringe in viscous form and which cures at room temperature.

[0043] In an optional embodiment, sole insert portions 440 and arch insert portion 450 are bonded to sole portion 410. Sole insert portions 440 are made of rubber. Arch insert portion 450 can either be made of rubber to match that used by sole insert portions 440, or alternatively can be made into a rigid arch support through the use of a more rigid material such as injection-molded TPU. When arch insert portion 450 is made of TPU, it can be molded with reinforced lateral and medial arch ridges to provide additional arch support.

[0044] In one embodiment, a pull-on loop 460 is provided at the heel of boot 400 to facilitate the user's donning of the boot. Pull-on loop 460 can be made of webbing or cord or the like. A reinforcement patch 470 is affixed, overlapping both the heel area of sole portion 410 and the bottom of ankle portion 420, securing pull-on loop 460 in place and reinforcing the strength of the attachment point. Reinforcement patch 470 can be made of rubber or neoprene. This area undergoes the most stress when the user puts on the boots. The additional bonding of the pull-on loop 460 under reinforcement patch 470 redirects the stress from pulling on the boot down to sole portion 410, so that the user does not overstress the neoprene of ankle portion 420 or the seam 430.

[0045] Ankle strap foundation 480 is preferably secured between the sole portion 410 and the sole insert portion 440 in the heel area of the sole portion 410. The ankle strap foundation 480 is preferably made of webbing material. In a preferred embodiment, the two ends of ankle strap foundation 480 terminate at a pair of rings 485 that are respectively, adjacent to the instep and adjacent to the outside of the user's foot. A tension strap 490 with two ends has one end permanently attached to one of the rings 485, and the second end is passed over the top of the boot and fastened by means of the other ring 485, allowing the user to adjust the tension binding the boot to his foot. In one embodiment, tension strap 490 can be made of hook-and-loop material, and the free end can pass through ring 485 and secure to itself. Other embodiments are possible, such as by using a buckle with a keeper. In a preferred embodiment, rings 385 are triangle-shaped D-rings.

[0046] In another optional embodiment, a tightener cord 495 is provided at the top of the ankle portion 420 of the boot 400, which the user can adjust and lock into place with a cord lock device 497.

[0047] FIG. 5 illustrates a method of manufacture 500 of a boot. In step 510, a foam blend is molded in an undersized three-dimensional mold to produce a sole portion of a boot, which encloses the sole, sides of the user's foot, and tops of the toes. When the molded part is released from the mold, it expands to full size and is placed on a cooling fixture, where it remains until it has cooled down to a stable temperature and formed the correct dimensions. In one embodiment, the sole portion is provided with an inner lining material, while in another embodiment, no inner lining is provided. In the embodiment in which an inner lining material is provided, it can be bonded with hot-melt glue, and is preferably bonded immediately after the sole portion emerges from the injection mold, while the component is still hot enough to melt the hot-melt glue. In this process, the lining material is placed on the cooling fixture with the hot-melt glue facing outward. When the molded part is removed from the mold, it is placed over the cooling fixture, and the elevated temperature of the molded part melts the outward-facing glue, forming the bond between the molded part and the lining material. Once the molded part cools down to its specified shape, the melted glue also cures to complete the bond between the molded part and the lining material.

[0048] In step 520, an ankle portion of the boot is cut from the chosen flat materials with lining material already bonded to it assembled with glue and/or stitching to form the desired ankle shape, and has a lower edge skived. In an optional step 530, an ankle strap foundation, such as webbing, is placed across the heel of the sole portion, and a sole insert portion is cut and glued over the webbing and the surrounding heel of the sole portion, binding the ankle strap foundation to the sole portion. Either at this point in the manufacturing method, or else later in the method, the ends of the webbing are attached to fasteners on the right and left sides of the sole portion. An adjustable tension strap is secured to one of the fasteners, with the free end of sufficient length so that a wearer of the boot can wrap the strap over the top of the boot and down to the second fastener, and secure the ankle strap there.

[0049] In an optional step 540, a pull-on strap is secured at the heel area of the sole portion, and a reinforcement patch is glued over it and part of the surrounding area of the sole portion and the ankle portion.

[0050] In step 550, the lower edge of the ankle portion is glued to an upper edge of the sole portion, and external seam sealant is applied.

[0051] In optional step (not shown) occurring before the ankle portion is glued to the sole portion, a tightener cord is provided at the top of the ankle portion, so that the user of the boot can adjust the fit of the upper part of the ankle portion around his lower leg.

[0052] FIG. 6 illustrates a cross-section of the boot 400 of FIG. 4, looking toward a forward portion of the boot. As previously described in FIG. 4, sole portion 410 encloses the sole, sides of the user's foot, and tops of the toes. In an optional embodiment previously described, sole insert portion 440 is bonded to sole portion 410. In another optional embodiment, a dividing wall 610 is molded between the big toe and adjacent toe to provide additional lateral stability for a user's foot inside the boot 400.

[0053] While preferred embodiments of the present invention have been illustrated and described herein, it will be apparent that such embodiments are provided by way of example only. Numerous variations, changes and substitutions also be apparent to those skilled in the art without departing from the invention, the scope of which is to be determined by the following claims.