ATHLETIC GLOVE WITH ENHANCED TACTILE FEEL

Abstract

An Athletic Glove with an Enhanced Grip and Range of Motion provides for improved play in cold weather conditions. The glove may be comprised of a primary layer of flexible material with a low coefficient of friction and low adhesive properties, and tactile layers with a high coefficient of friction or high adhesive property layer on the front portions of the throwing fingers, whereby an athlete may achieve a natural tactile feel while wearing the glove. For example, a baseball glove may include high coefficient of friction material on the thumb, pointer, and middle fingers while the palm and remaining digits are of a low coefficient of friction material. A baseball glove may additionally include high coefficient of friction material on the inner side of the ring finger where the ring finger contacts the baseball. The athletic glove may also include striations or furrows in the high coefficient of friction areas to improve tactile feel in wet playing conditions.

Claims

1. An athletic glove capable of being worn on the human hand and engaging with a game ball, the athletic glove comprising: a front ventral portion including a palm portion, finger portions and a thumb portion adapted to cover the ventral side of a hand; a back dorsal portion including an opposing palm portion, finger portions and a thumb portion adapted to cover the dorsal side of the hand; wherein the front ventral portion engages with the back dorsal portion to form a glove having an interior and an exterior surface, an opening capable of receiving a hand, four finger portions adapted to receive the pinky, ring, middle, and index fingers, and a thumb portion adapted to receive the thumb; wherein at least a portion of the exterior surfaces of the front middle and index finger portions and front thumb portion are composed of a high coefficient of friction material; wherein the exterior surfaces of the palm portion and front finger portions, adapted to receive the pinky and ring finger, are composed of a low coefficient of friction material.

2. The glove of claim 1, wherein the finger portions include side portions, and wherein at least a portion of an inward facing side of the ring finger portion has an exterior surface composed of a high coefficient of friction material.

3. The glove of claim 2, wherein the thumb portion includes an inwardly facing side portion, and wherein at least a portion of an inwardly facing side of the thumb portion has an exterior surface composed of a high coefficient of friction material.

4. The glove of claim 1 wherein the low coefficient of friction material is one or more of neoprene, leather, sheep skin, goat skin, cotton, wool, spandex, nylon, polyester or synthetic fibers.

5. The glove of claim 1 wherein the high coefficient of friction material is a one or more of a silicone or rubber material.

6. The glove of claim 1 wherein the low coefficient of friction material is neoprene and the high coefficient of friction material is a silicone material.

7. The glove of claim 1, wherein the high coefficient of friction material covers at least a distal and middle phalanges portions of the middle and index fingers.

8. The glove of claim 1, wherein the high coefficient of friction material covers at least a distal, middle, and proximal phalanges portions of the middle and index fingers.

9. The glove of claim 8, further comprising a relief portion at phalanges joint portions of the front facing middle and index finger portions.

10. The glove of claim 1, wherein at least one of the high coefficient of friction portions have channels to enhance the coefficient of friction in the presence of moisture.

12. The glove of claim 10, wherein the channels include channel portions extending in a first and second directions wherein the first and second directions are substantially perpendicular to each other.

13. An enhanced grip athletic glove adapted to receive the human hand comprising: a glove body having a least a palm portion and a thumb, index, middle, and ring finger portions; wherein the glove body is composed of a low coefficient of friction material; wherein at least the pad of the exterior surfaces of the index and middle fingers are composed of a high coefficient of friction material; wherein at least an exterior surface portion of the inwardly facing sides of the thumb and ring finger are composed of a high coefficient of friction material; and wherein an exterior surface of the palm portion is primarily composed of a low coefficient of friction material.

14. The enhanced grip athletic glove of claim 13, wherein the low coefficient of friction material is one of neoprene, leather, sheep skin, goat skin, cotton, wool, spandex, nylon, polyester or synthetic fibers; and wherein the high coefficient of friction material is one of silicone or rubber material

15. The glove of claim 13 wherein the low coefficient of friction material is neoprene and the high coefficient of friction material is a silicone material.

16. The glove of claim 15, wherein the high coefficient of friction material covers at least a distal and middle phalanges portions of the middle and index fingers.

17. The glove of claim 15, wherein the high coefficient of friction material covers at least a distal, middle, and proximal phalanges portions of the middle and index fingers.

18. The glove of claim 17, further comprising a relief portion at phalanges joint portions of the front facing middle and index finger portions.

19. The glove of claim 13, wherein at least one of the high coefficient of friction portions has channels to enhance the coefficient of friction in the presence of moisture.

20. The glove of claim 19, wherein the channels include channel portions extending in a first and second directions wherein the first and second directions are substantially perpendicular to each other.

21. An enhanced grip athletic glove adapted to receive the human hand comprising: a glove body having a least a thumb, index, middle, ring and pinky finger portions; wherein the glove body is composed of a low coefficient of friction material; and wherein at least a distal portion of the thumb, index, middle, ring and pinky fingers are composed of a high coefficient of friction material.

22. The glove of claim 21, wherein exterior surfaces of the palm, and medial and proximal phalanges portions of the index, middle, ring and pinky finger, are a low coefficient of friction material.

23. The glove of claim 21, wherein the exterior surfaces of the palm, and proximal phalanges portions of the index, middle, ring and pinky finger, are a low coefficient of friction material.

24. The glove of claim 21, wherein the exterior surface of the distal, medial and proximal phalanges of the pinky, ring, middle, and index fingers are composed of a high coefficient of friction material and the exterior surface of the palm is a low coefficient of friction material.

25. The glove of claim 21 wherein the low coefficient of friction material is neoprene and the high coefficient of friction material is a silicone material.

26. The glove of claim 24, further comprising a relief portion at phalanges joint portions of the front facing middle and index finger portions.

27. The glove of claim 13, wherein at least one of the high coefficient of friction portions has channels to enhance the coefficient of friction in the presence of moisture.

28. A method of throwing a baseball using the enhanced grip athletic glove comprising: wearing a glove body having a least a palm portion and a thumb, index, middle, and ring finger portions; wherein the glove body is composed of a low coefficient of friction material; wherein at least the pad of the exterior surfaces of the index and middle fingers are composed of a high coefficient of friction material; wherein at least an exterior surface portion of the inwardly facing sides of the thumb and ring finger are composed of a high coefficient of friction material; and wherein an exterior surface of the palm portion is primarily composed of a low coefficient of friction material; holding a baseball wherein the high coefficient of friction material is touching the baseball; and throwing the baseball.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0012] The accompanying drawings illustrate various non-limiting, examples, innovative aspects in accordance with the present descriptions:

[0013] FIG. 1 shows an isometric view of one embodiment of the Athletic Glove;

[0014] FIG. 2a shows a front view of one embodiment of the Athletic Glove;

[0015] FIG. 2b shows a back view of one embodiment of the Athletic Glove illustrative a thumb grip.

[0016] FIG. 3a shows a front view of a single phalange embodiment of the Athletic Glove;

[0017] FIG. 3b shows a front view of a double phalanges embodiment of the Athletic Glove;

[0018] FIG. 4a shows a back view of an embodiment of the Athletic Glove in a closed position;

[0019] FIG. 4b shows a back view of an embodiment of the Athletic Glove in a open position;

[0020] FIG. 5a shows a front view of a double phalanges embodiment of the Athletic Glove for softball; and

[0021] FIG. 5b shows a front view of a triple phalanges embodiment of the Athletic Glove for softball.

DETAILED DESCRIPTION

Introduction

[0022] In simplified overview, an athletic glove is described herein for improving athletic performance in less than ideal or adverse weather conditions. For example, in inclement weather during baseball games, the hand, a volatile extremity loses mobility and functionality as the ligaments, tendons and muscles are subjected to the elements. Freezing and sub-mild temperatures cause the fingers to loose optimal feeling as well. This makes feeling and throwing a game ball, such as a baseball, with accuracy increasingly difficult. The disclosure herein solves these problems.

[0023] Specifically, the disclosed athletic glove creates an essential and necessary covering to keep the hand at an optimal temperature for mobility and performance while maintaining an enhanced tactile feel. In one embodiment, the enhanced performance athletic glove may be achieved by a glove made of an insulating material with an exterior surface having a generally low coefficient of friction, wherein preferably only the pressure point contacts of the glove are enhanced with a higher coefficient of friction material, such as, silicone. For example, a synthetic skin substitute, on the front of the fingers (e.g., pointer finger and middle finger) as well as on the thumb may be used to enable the athlete to touch the ball with a tactile, skin-like material, while also keeping the hand warm.

[0024] In one example, in the context of a baseball glove for protecting the throwing hand from the elements while maintaining a natural tactile feel on the ball, the glove may have silicone or other high coefficient of friction material at the point contacts with a baseball. These point contacts are preferably restricted to a high coefficient of friction material contact or exterior surface, such as silicone, on the pad of the thumb which also wraps around the side of the thumb up toward the cuticle of the thumb nail, the inside portion of the ring finger, and in various configurations the pads or distal phalanges of the front of the middle and index finger. In alternative embodiments, the high coefficient of friction surfaces may also cover the proximal and medial phalanges of the middle and index finger.

[0025] While the disclosure herein is presented in the context of a baseball glove and with respect to particular materials by example, it will be understood by those of ordinary skill in the art that the concepts may be applied to other sport gloves where a natural tactile feel is necessary to maintain a high level of skill and performance and to the use of other materials. With the foregoing overview in mind, specific details will now be presented, bearing in mind that these details are for illustrative purposes only and are not intended to be exclusive.

Cold Weather Baseball Glove

[0026] FIG. 1, illustrates in simplified form, one example arrangement of the athletic glove described herein for use by baseball players or other games using a baseball sized game ball. As shown in FIG. 1, an athletic glove is provided that is capable of being worn on the throwing hand of an athlete and engaging with a game ball, such as a baseball.

[0027] The glove shape is preferably in the form of a traditional glove, having a front portion (see FIGS. 3a and 3b) covering the ventral portion of the hand including palm (160), the pinky (110), ring (120), middle (130), and index (140) fingers and thumb (150), and a back portion (see FIGS. 4a and 4b) covering the dorsal portion of the hand including the back of the hand opposite the palm (260) and the dorsal portions of the pinky (210), ring (220), middle (230), and index (240) fingers, and thumb (250). The front ventral portion mates with and engages the back dorsal portion to form a glove having an interior surface (not shown) which rests against the hand and an exterior surface (shown in all Figures) exposed to the elements. At one end of the glove is an opening (190) for receiving a hand and which is arranged around the player's wrist when the glove is being worn. The glove may also include a mechanism (180) to secure the glove to a player's hand. The securing mechanism may be of any known type including a cinch cord, Velcro type strap, snap or elastic.

[0028] The body or base of the glove is preferably made from an insulating material such as neoprene but may include any material suitable for a glove including such materials as leather or leather like substitutes (sheep or goat skin), cotton, wool, or spandex, nylon, polyester or other synthetic fibers, or combinations thereof. The glove is preferably made from woven material for breathability and typically has an exterior surface with a low coefficient of friction against sports balls such as neoprene on a baseball, softball or football made of leather or synthetic leather materials such as vinyl. The woven material may be cut to shape and sewn to form the glove, or may be woven into the glove shape. Alternatively, in other embodiments the glove could be molded to shape.

[0029] The enhanced athletic glove preferably includes high coefficient of friction materials at the typical contact points on a player's hand that engage with the ball when throwing. Referring to FIG. 2a, these contact points may include the ventral or front surfaces of the middle finger (132, 134, 136) and index finger (142, 144, 146), as well as, the front thumb portion (152) and inside or inwardly facing thumb portion (154). FIG. 2b illustrates the glove with the thumb extended to depict the positioning of the high coefficient of friction area (154) around the side of the thumb. In addition, referring back to FIG. 1, it is preferable to include a high coefficient of friction material on the inside or inwardly facing portion (122) of the ring finger (120). As illustrated in FIG. 1, the thumb and fingers are arranged and illustrated in the gripping position for throwing the baseball wherein the contact or pressure points discussed above are arranged in the spherical shape of a ball.

[0030] It is preferable that the high coefficient of friction material be confined to these primary contact points and not extend to other areas outside of the contact region and immediate vicinity that may graze the ball during the throwing motions and provide unnatural friction against the ball. For example, in a baseball glove, it is preferable that the front or ventral surface of the pinky finger (110) and ring finger (120) and palm (160) have an exterior surface of low friction material.

[0031] Referring back to FIG. 1, in one preferred embodiment the high coefficient of friction material covers the front of all three phalanges of the middle finger (130) and index finger (140). This material is illustrated by high coefficient of friction pads (132, 134, 136, 142, 144, 146). FIGS. 3a and 3b, illustrate alternate embodiments of the disclosure which restricts the presence of high coefficient material to the primary pressure point contacts in the example of a baseball glove. In FIG. 3b, the high coefficient of friction material is present only on the distal and medial phalanges (132, 134, 142, 144) of the middle and index finger, and in FIG. 3a the high coefficient of friction material is limited to the distal phalanges (132, 142)

[0032] As shown in FIGS. 1, 2, 3a and 3b, it is preferably that the high coefficient of friction material not extend over the joint area between the phalanges where the fingers flex or bend. The absence of material from this area beneficially relieves strain or compressive opposition to movement that would potentially arise if additional material were placed in the region. The absence or reduction of high coefficient material from the area is therefore preferred to improve mobility while not detracting from the enhanced grip and tactile feel. Such benefit may also be achieved by adding a detent or cut away in the joint region.

[0033] The high coefficient of friction material is preferable a silicone or rubber based material or substance. The material may comprise a fabric or other woven base which permits it to be cut or sewn in place, or may be formed by adhesion or application directly to the glove base or low coefficient of friction material or substrate. While silicone based materials provide a preferred tactile feel and grip, it is possible to use other materials which have a similarly high coefficient of friction against the material of a baseball. These material may include those with high coefficients of friction or strong adhesion, as well as, other that have improved adhesive or friction properties when wet.

[0034] In wet or damp weather conditions, the coefficient of friction between the glove and game ball can be reduced with adverse consequences. Accordingly, in some embodiments the high coefficient of friction areas or portions may be further enhance with channels (170), such as, pits, grooves, furrows or the like. The addition of channels in the material helps shed water and moisture to maintain a high coefficient of friction, and maintain the player's grip and tactile feel on the ball. The texture of the channels or grip pattern may be of a variety of shapes or arrangements. In one embodiment the channels or grip pattern is in the form of two small perpendicular channels that form a plurality of v-shaped pits. While this is one exemplary shape, it will be appreciated that there are many shapes that can also increase grip in wet weather conditions, including channels or pits with shape edges or ridges at the surface contact with the ball.

[0035] In some embodiments the enhanced athletic glove also includes a securing mechanism to help secure the glove to the player's hand. Referring to FIGS. 4a and 4b, the back or dorsal side of one embodiment of the enhanced athletic glove is shown, including dorsal side of fingers (210, 220, 230, 240) and thumb (250), as well as, the high coefficient of friction area (154) extending around the inwardly or inside facing side of the thumb portion. Referring to FIG. 4a, a Velcro type securing mechanism is illustrated in a secure position for securing the glove to the player's hand. FIG. 4b shows the securing mechanism in an open position. While in this embodiment a Velcro type strap is shown, it will be appreciated that other mechanisms may be used to secure the glove, including, a cinch cord, Velcro type strap, snap or elastic.

Cold Weather Softball Glove

[0036] FIGS. 5a and 5b, depict yet another embodiment of the enhanced athletic glove in which the pressure point contacts of high coefficient of friction material have been expanded to match the point contacts of a softball. In these embodiments, the high coefficient of friction material is extended to the pinky finger (110) and ring finger (120). In FIG. 5a, the distal phalanges (112, 122, 132, 142) and medial phalanges (114, 124, 134, 144) of the fingers are covered with high coefficient of friction material, as well as, the thumb pad (152) and thumb side (154). In the alternative embodiment in FIG. 5b, the high coefficient of friction material has been extended to the proximal phalanges (116, 126, 136, 146).

[0037] In the alternative embodiments of FIGS. 5a and 5b, the enhanced athletic glove provides softball players with improved warmth, grip and tactile feel in cold or inclement weather conditions. This embodiment may also include the additional feature described above in the context of the baseball glove, including, channels in the high coefficient of friction material and a securing mechanism. Similarly, those of skill in the art will appreciate that all of the materials and means of construction discussed above are equally applicable to other glove variants including the softball glove.

[0038] It should be understood that this description (including the figures) is only representative of some illustrative embodiments. For the convenience of the reader, the above description has focused on representative samples of all possible embodiments, and samples that teaches the principles of the invention. The description has not attempted to exhaustively enumerate all possible variations. That alternate embodiments may not have been presented for a specific portion of the invention, or that further undescribed alternate embodiments may be available for a portion, is not to be considered a disclaimer of those alternate embodiments. One of ordinary skill will appreciate that many of those undescribed embodiments incorporate the same principles of the invention as claimed and others are equivalent.