Embodiments of the present invention are utilized for exercising, particularly in the areas of resistance, strength, weight, and flexibility and mobility training. An embodiment of the present invention comprises a glove that is worn on the hand of a user (also referred to as a trainee) and which includes a mechanism for attaching the glove to an exercise device, such as a resistance device or an exercise machine. The palm side of the glove, or the back side of the glove, or both, have a plurality of finger connecting members, which are attached to each finger, and are joined at a ring. Each finger of the glove includes a finger connecting member, which is attached to the finger proximate the finger tip, and retained by a cap. Each finger also includes one or more fasteners and one or more retention bands, which slidably retain the finger connecting member. The ring receives a fastener of a resistance device, and connects the glove to the resistance device, for use in a variety of exercises. The use of the glove aids in exercise, by increasing the connectivity and transfer of force from an exercise device through the hands and fingers. Examples of exercises are included to describe uses of the glove of the present invention.
Numerous exercises have been developed that employ weights as a means of strength or resistance training. The weights have typically been hand-held weights, such as dumbbells. Various types of exercise machines have been developed, and which can be used for a wide variety of exercises. These machines commonly include one or more stacks of weights, and generally the weight utilized for a particular exercise is adjusted by selecting the desired weights from such a stack. Instead of holding the weight in one's hand, such as done with a dumbbell, the user grips a handle which is connected to the selected weights by a rope, cable, elastic strap, or similarly functional material. For exercises involving resistance, where weight is not a concern, items such as a door, wall, fence, or another fixed object, can be used for resistance training, generally using a rope, cable, elastic strap, or similarly functional material grasped by the user.
In recent years, there has been an increased interest in maintaining physical fitness, and the development of various types of exercise devices has led to the creation of more and various types of exercises for most muscles of the human body.
Among the exercises for strengthening muscles in the upper body, exemplary exercises include the chest fly and the reverse fly. The chest fly targets muscles of the chest (pectorals) and the upper arm (biceps and deltoid), while the reverse fly targets muscles of the upper back (including the rhomboids, trapezius and posterior deltoids). The chest fly has commonly been performed with dumbbells and with the user lying on their back. When using an exercise machine instead of dumbbells for the chest fly, the individual usually stands upright and faces away from the machine. For the reverse fly, the individual is facing the machine. The individual grasps either a strap or a handle, which is connected to the selected weights of the machine, and performs the exercise for the desired number of repetitions. The exercise apparatus of the present invention is designed to keep the hand open and transfer force directly into the hands and fingers while performing movements such as but not limited to the chest fly and reverse fly. Embodiments of the present invention can also be used in a wide variety of exercises.
An object of the present invention is to provide an apparatus to keep a user's hand open and transfer force directly to the hands and fingers while engaging in exercises such as resistance, strength training, weight training, and/or flexibility and mobility training.
Another object of the present invention is to provide a glove that can be secured on a user's hand at multiple points along the fingers.
Another object of the present invention is to provide a glove in which the multiple fastening points of the glove enhance the connection of the glove to the hand and the resistance bands coming from the finger tips allow the user to transfer force through the hand in an open or closed position.
Embodiments of the present invention comprise a glove with a connecting member (a ring) at the glove's palm and back for connecting the glove to a resistance device or exercise machine. One or more adjustment straps and retention bands attached to the fingers, provide a secure fit, and retain a finger connecting member therein. The finger connecting members form a loop, pass through a d-ring attached to each finger, and the loops attach to the ring. The ends of the connecting members are attached near the finger tip, which is covered by a cap. An adjustable cuff near the wrist enables the user to fasten the glove securely. When connected to a resistance device or exercise machine, the glove helps to increase connectivity and transfer force through the hands and fingers.
Embodiments of the present invention comprise a glove 100 with a connecting mechanism 200 for attaching the glove 100 to an exercise device. For the purposes of the present specification, the term “exercise device” or “exercise machine” is intended to include both exercise machines as well as objects used in resistance training, such as a door, wall, fence, or another fixed object to which the present invention can be connected.
Embodiments of the present invention may include one or more connecting mechanisms 200, an embodiment in which there is a connecting mechanism 200 attached to the palm 110 of the glove only, an embodiment in which the connecting mechanism 200 attached to the back 120 of the glove only, or an embodiment in which there is a connecting mechanism 200 attached to the palm 110 and the back 120 of the glove. The embodiment shown in the drawings includes a connecting mechanism 200 attached to the palm 110 and the back 120 of the glove.
The glove 100 can be a commercially available glove, or custom manufactured, and which includes an adjustable cuff 130 at the bottom region of the glove body to enable the user (also referred to as a trainee) to fasten the glove 100 securely on their hand. In embodiments, the cuff 130 is a strip of a hook and loop fastener. The cuff 130 could also comprise a strap including a buckle at one end, and a plurality of openings towards the second end to secure the strap. The strap itself may be adjustable, and an alternate embodiment could include interlocking clasps to secure the glove. Generally, the glove 100 extends to the wrist of the user, and alternate embodiments may extend past the wrist.
The glove 100 comprises a body including the palm member 110 and the back member 120, and a plurality of finger tubes 140.
One or more adjustment straps 150 are attached to each finger tube 140 at or near the joints of each finger other than the thumb. On the thumb the adjustment straps 150 attach near the thumb's two main bones. The adjustment straps 150 are used to secure the finger tubes 140 to each finger, provide a secure fit, and to increase connectivity and appropriately transfer force through the hands and fingers. The adjustment straps 150 comprise a hook and loop fastener material. In alternate embodiments, the adjustment straps 150 could be an elastic band, either sewn into the finger tubes or externally fastened thereto.
One or more d-rings 160 are attached to both the palm side and the back side of each finger tube (see
On each finger, the first end 212 is attached to the palm side and the back side of each finger tube, by means of stitching 216 or a fastener such as an adhesive. The finger connecting members 210 can be a rope, elastic, a stretch fabric, or a high strength rope material such as a KEVLAR® (Registered trademark of DuPont Safety & Construction, Inc., Wilmington, DE) or comparable material. Depending upon the material which the finger connecting members 210 are made, second end 214 may comprise a hole, or may be a loop formed by folding the connecting member over and attachment of an end to the remaining portion of the connecting member 210.
The second end 212 of the finger connecting members 210 is slidably attached to ring 260, to which an end of both the device connecting member 230 and each of the finger connecting members 210 are slidably attached.
The length of the finger connecting members 210 varies, the length of those for the three middle fingers being longer than those for the pinky or the thumb. In alternate embodiments, the finger tubes 140 can be open; such construction, however, may not be as effective as the embodiment shown in the figures, because it is thought that using closed finger tubes will transfer more resistance to the fingers and hand than an embodiment with open finger tubes. In embodiments, the palm of the glove and/or the palm side of the fingers of the glove could include a layer of padding material for additional comfort and/or protection.
The ring 260 can be either a solid ring, or a split ring of the type commonly used for key rings, for receiving an end of the connecting member. The ring 260 could also be a ring containing an opening mechanism, which when closed, forms a ring around which the connecting members can move freely. As shown in the drawings, ring 260 has a generally circular shape. However, ring 260 could also have an oval or elliptical shape, or triangular, rectangular, hexagonal or other configuration.
As shown in
Embodiments of the present invention may include one or more attachment mechanisms 400, an embodiment in which there is an attachment mechanism 400 on the palm 310 of the glove only, an embodiment in which the attachment mechanism 400 is on the back 320 of the glove only, or an embodiment in which there is an attachment mechanism 400 on the palm 310 and the back 320 of the glove. The embodiment shown in the drawings includes an attachment mechanism 400 on the palm 310 and the back 320 of the glove.
The glove 300 can be a commercially available glove, or custom manufactured, and which includes an adjustable cuff 330 at the bottom region of the glove body to enable the user (also referred to as a trainee) to fasten the glove 300 securely on their hand. In embodiments, the cuff 330 is a strip of a hook and loop fastener. The cuff 330 could also comprise a strap, similar to a belt, including a buckle at one end and a plurality of openings towards the second end to interact with the buckle and secure the strap. Generally, the glove 300 extends to the wrist of the user, and alternate embodiments may extend past the wrist.
The glove 300 comprises a body including the palm member 310 and the back member 320, and a plurality of finger tubes 340. The palm member 310, back member 320, and the finger tubes 340 are joined together to form the body. The method of joining these members is dependent upon the materials used and manufacturing processes, and may include sewing, use of adhesives, ultrasonic welding, or other means known to those skilled in the art. In alternate embodiments, the finger tubes may be formed as a component of the palm member and the back member prior to joining to form the glove body. At the bottom, the glove body is open for receiving the hand and fingers of a user.
One or more adjustment straps 350 are attached to each finger tube 340 at or near the joints of each finger. The adjustment straps 350 are used to secure the finger tubes 340 to each finger, provide a secure fit, and to increase connectivity and appropriately transfer force through the hands and fingers. The adjustment straps 350 comprise a hook and loop fastener material. In alternate embodiments, the adjustment straps 350 could be an elastic band, either sewn into the finger tubes or externally fastened thereto.
One or more retention bands 370 are attached to each finger tube. As will be described below, the retention bands 370 aid in the positioning of the finger connecting members 410.
A d-ring 380 is attached to the palm side and the back side of each finger tube (see
On each finger, the first end 412 is attached to either or both the palm side and the back side of each finger tube, by means of stitching (not shown) or a fastener such as an adhesive. The finger connecting members 410 can be a rope, elastic, a stretch fabric, or a high strength rope material such as a KEVLAR® (Registered trademark of DuPont Safety & Construction, Inc., Wilmington, DE) or comparable material. A loop 416 is formed in each finger connecting member, and the second end 414 is attached proximate the connecting member first end 412, where they are covered by a cap 360. Each finger connecting member 410 is slidably retained by the adjustment straps 350 and the retention bands 370. The cap 360, the retention bands 370 and the adjustment straps 350 are attached by stitching (not shown) to the finger tubes 340. The fit of the adjustment straps 350 is made using a hook and loop fastener (shown on the glove back member,
The loop 416 of each of the finger connecting members 410 is slidably attached to ring 440.
The length of the finger connecting members 410 varies, the length of those for the three middle fingers being longer than that for the pinky or the thumb. In an alternative embodiment the finger tubes 340 can be open, providing for exposed finger tips. Such construction, however, may not be as effective as the embodiment shown in the figures, because it is thought that using closed finger tubes will transfer more resistance to the fingers and hand than an embodiment with open finger tubes. Also, such alternate embodiment will require the use of shorter finger connecting members 410, the absence of cap 360 and possible loss of an adjustment band and a retention band 370 to provide a glove with exposed finger tips.
In embodiments, the palm of the glove and/or the palm side of the finger tubes 340 could include a layer of padding material for additional comfort and/or protection. Examples of a padding material include a fabric, a foam, cotton, or other materials.
The ring 440 can be either a solid ring, or a split ring of the type commonly used for key rings, for receiving an end of the connecting member. The ring 440 could also be a ring that is used to hold loose-leaf paper, containing an opening mechanism, which when closed, forms a ring, around which the loops 416 of the finger connecting members can move freely. As shown in the drawings, ring 440 has a generally circular shape. However, ring 440 could also have an oval or elliptical shape, or triangular, rectangular, hexagonal or other configuration.
As shown in
In use, the user inserts a hand into the glove 300 with their fingers inserted into the finger tubes 340, and then tightens the finger adjustment straps 350 for a secure fit, followed by adjusting the cuff 330 to tighten the glove around the wrist. Ring 440 is then used to connect the glove 300 to the resistance band or exercise device. Removal of the glove after exercise is generally done in the reverse order. In some instances the user may prefer to secure the glove 300 to the particular resistance band or exercise device first, then put the glove on their hands. The use of multiple fastening points on the glove (ten on the fingers, and one on the wrist) enhance the connection of the glove to the hand and the resistance bands coming from the finger tips allow the user to transfer force through the hand, in either an open or closed position.
In the exercises described, the hands of the user are generally free to move independently of each other. In some instances the individual gloves may be joined to each other using an elastic band, similar to that shown in
With the exercise glove secured to the hand and an external resistance band attached to either the palm side attachment point or to the back of hand attachment point, the trainee (also referred to as the user) can perform a wide variety of exercises, ranging from dynamic movements, to static postures, or a variation of the two simultaneously. The list of exercises below is a non-exhaustive list of exercises that can be performed individually or in combination with one another.
The trainee may face toward, away from, or be side facing, and adjusts the height of the external resistance band mounting point. The trainee may have the external resistance band attached to either the palm side or the back side of hand, to both simultaneously, or a combination thereof to perform exercises such as, but not limited to, those listed below. The exercises may be a combination of multiple exercises together or a group of exercises performed one after another in rapid succession. For example, the trainee may have their feet in a lunge position while performing an overhead shoulder press or they may perform a horizontal pulling motion while in a neutral standing position.
During the execution of exercises the trainee may have their hands and fingers in a variety of positions. The hands and fingers have freedom of movement to be in an open or closed position, or any combination of the two while the hands and fingers are apart or touching one another. For example, the hands may be open and fingers abducted while moving the arms into horizontal shoulder abduction, or the index finger and thumb may be touching while performing a horizontal pushing motion.
Any combination of finger, hand, wrist, elbow, shoulder, spinal, hip, knee, ankle, foot, toe position or movement may be executed while facing toward, away from, or side facing and moving statically or dynamically with the external resistance band while it is adjusted to a desired height and attached to either the palm side or the back of hand side of the glove. Exercises can be performed bilaterally, unilaterally, contralaterally, ipsilaterally or any combination thereof.
The order that the exercises above are listed is solely for purposes of illustration, and the user can perform any, all, or combinations of these exercises, and/or others that may not have been recited. The number of times a given exercise is repeated depends upon the individual user, and their particular needs and requirements.
The chest fly exercise is designed to work the biceps brachi 502, anterior deltoid 504, and the upper (506) and lower 508 pectoralis major muscles, and
The reverse fly exercise is designed to work the lateral deltoid 510, posterior deltoid 520, rhomboid 522, middle and lower trapezius 524, teres minor 526 and infraspinatus 528 muscles, and
Although embodiments of this invention have been described with a certain degree of particularity, it is to be understood that the present disclosure has been made only by the way of illustration, and that numerous changes in construction and arrangement of parts may be resorted to without departing from the spirit and scope of the invention.
This application claims the benefit of U.S. provisional patent application Ser. No. 63/434,748, filed 22 Dec. 2022, by the present inventor, and whose contents are incorporated by reference herein in their entirety.
Number | Date | Country | |
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63434748 | Dec 2022 | US |