1. Field of the Invention
This invention relates generally, to exercise devices and more particular to the addition of a safety device for modifying an exercise resistance elastic band.
2. Description of the Prior Art
Exercise devices of the type having elastic resistance bands are well know, see for example the exercise bar of U.S. Pat. No. 4,059,265. One serious drawback of an exercise device of this type having an elastic exercise band is the potential for a snap-back effect if the band breaks or slips off of a retaining position while it is stretched, which snap-back effect can cause the band to hit the user or people nearby, thereby causing a severe bodily injury, as well as property damage.
The new fail-safe design for the exercise band greatly lowers the risk of snap back or recoil injury to a user of an exercise device which includes an elastic exercise resistance band. In the present invention, a device is added to the band upon which device a resistance effect of wind or air can act, so as to form a type of parachute or air-brake which will slow or stop the snap back effect of the resistance band in the event of a failure or unwanted release of the band from a retained position or mount.
The new design for the exercise band also allows for an easier, more secure, more comfortable and a safer grasping of the ends of the resistance band by the user. More specifically, when the new safety device is added to the resistance band it increases the surface area of a portion of the exercise resistance band device. In one embodiment that portion is an end portion, and preferably both end portions, of the device, which end portions (i.e., the handles) are adapted to be grasped by a user of the resistance band. The new safety device has a shape and texture much different than the user grasped portion of a conventional resistance band device, and has a surface area that greatly reduces the potential snap back effect of the user grasped portion in the event of an unexpected release as compared with the prior art. In a further embodiment, a similar safety device can be located at a point approximately midway between the ends of the resistance band, so as to provide an enlarged surface area that also greatly reduces the snap back effect in the event the mid-point of the resistance band inadvertently and unexpectedly becomes released. Additionally, the surface of the safety device allows for a better/more secure and comfortable stance, whether the safety device is provided at the ends of the band or near it's mid-point when the safety device is held in place by the user's feet or foot, or for a more secure mounting position when the band is held in place by a mount, such as a door mount.
Furthermore, when the center portion of the resistance band also includes the safety device, the exercise resistance band eliminates the need for a separate component to mount the exercise band to a door and also the method by which the design for the exercise band does mount to a door greatly lowers the risk of band snap back or band breakage. Additionally, the mounting techniques possible with the new design, greatly reduces the possibility of the mounting to mar the mounting surface, such as a door frame, as commonly occurs with door mounts for the currently used resistance band exercise devices.
Even further, when the center portion of the resistance band also includes the new device, due to the shorter lengths needed for the resistance portion of the exercise band, the potential for snap back injury due to slippage or failure of any portion of the band, is inherently reduced.
Because of the reduced potential for injury provided by the improved design, users of exercise devices having a resistance band of this new type, in general will feel more confident to use exercise devices, and thus help ensure the completion of regularly scheduled exercise. Additionally, due to the substantial increase in the safety of such resistance band devices, these low-cost and compact exercise devices can now become much more accepted for wide-scale use in the physical education programs of elementary schools, and other public facilities, where “one on one” personal training is generally not available in order to help ensure safe use of such exercise devices. Even furthermore, the safety device offers a place for a personal trainer to grasp the exercise device without having to grasp the resistance band, thereby preventing excessive exposure to rubber products, which can cause an allergic reaction in the personal trainer over time.
The accompanying drawings, which are incorporated herein and constitute part of this specification, illustrate embodiments and details of the invention, and, together with the general description given above and the detailed description given below, serve to explain the features of the invention.
As noted above,
Typically, the elastic band material 6a and 6b are formed of surgical tubing or other elastic, resistive material, such as “Thera-Bands”®. The band material is conventionally attached to a plastic clip or fastener, such as shown in
Additionally, in a further alternative embodiment the device portion 4 includes a strip of flexible material 14 sewn or otherwise affixed to the center portion of device portion 4, which material aids in the mounting of the device portion 4 to a mounting device, such as a door, as will be described in greater detail with respect to
Referring again back to
As shown in
Furthermore, there would be no tendency for the elastic band material (such as surgical tubing) to “roll-out” from under the user's foot and cause an unwanted release, because the center portion 4 will lay flat under the user's foot. And even if an unwanted release were to occur during the tension phase of the elastic band material, due to the sudden and rapid movement during a “snap-back” action, the center portion 4 will “deploy” and the air resistance effect caused by the sudden movement will act as an “air brake” and greatly slow down the movement of the elastic band material, thereby reducing or substantially eliminating the snap-back effect.
The same advantages can apply with respect to door or frame mounted exercise resistance bands. Not only does the center portion 4 act as a safe mounting part of the exercise device, but it provides for a secure mount in a relatively fail-safe manner. As seen in
Additionally, when the center portion 4 is mounted to a door knob as seen in
In another user technique, instead of mounting the center portion 4 to a door or securing it under the user's feet, a trainer or partner standing opposite the user can grasp center portion 4 with his/her hands. In this technique, the center portion 4 provides a much more secure, comfortable (less abrasion) and allergy-free place for the trainer or partner to grab center portion 4. Another side benefit is that the trainer's hands don't smell like rubber or surgical tubing at the end of the day, and potential allergic affects are avoided
Thus, the present invention provides an extremely safe exercise resistance band, which is particularly appropriate for use by personal trainers, fitness centers, children and seniors.
In order to even furthermore help ensure that the safety device becomes sufficiently inflated with air so as to create an effective air-brake upon its' rapid movement through the air,
In an even further improvement, it is noted that sheet-like material 70 may have introduced on one side thereof a “sticky” coating, which coating increases the tendency of the grasp provided by the user (i.e., either a hand or foot) to remain positioned on said sheet-like material 70 when the elastic band is under tension, and not slip off of material 70.
In accordance with the present invention,
In a further embodiment, not specifically shown, it is noted that the inventive safety handle such as shown herein can be used “in addition” to use of a conventional type of user grasping device, i.e., a short bar-shaped plastic or foam handle connected to each of the opposed ends of the elastic resistance band.
The present invention provides a restraining portion for a resistance band that is more versatile and comfortable than what used in the prior art resistance band devices, in that they can be easily and safely attached to the users wrist, ankles or feet. In this regard, it can also be easily adapted for use with people who have weak or no grip, such as users with carpel tunnel injury or even amputees. With the present invention, such people can securely, safely and comfortably have a resistance band exercise device attached to their remaining appendages (upper arms, forearm, upper or lower leg, etc.)
Thus, in a broader aspect of the invention, it is obvious that a method is provided for improving the safety and versatility of a resistance band device, by securing a device to an end of the resistance band, which can act as a “safety brake” and provide air-drag in the event that an end of the resistance band sustains a sudden release from tension, which release can cause the released end to move rapidly through the air, and possibly hurt anyone that would come into contact with it.
In all of the embodiments disclosed herein, attachment of the resistance band to the safety device, when the resistance band comprises surgical tubing, can not only be accomplished using the knot technique previously noted, but can also be easily accomplished using the well known “wedge” technique. In this method of attachment, a wedge shaped bead or obstruction having a diameter about the same size or larger than the diameter of the grommet in the safety handle to which an end of the resistance band is to be attached, is inserted inside of the open end of the surgical tubing after it has passed through the grommet. Then, once inserted, the wedge shaped bead becomes a “stopper” or obstruction that prevents the end of the surgical tubing from being removed from the grommet, and in fact, it becomes “jammed” into the grommet, further securing that end to the grommet.
While this invention has been particularly shown and described with references to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. Some of such changes are alternative materials for the parachute-shaped center portion 4, or even the use of the parachute shaped handles in addition to a conventional handle made of a material having a fixed shape, as noted above. In an embodiment such as this, the para-handle would provide a safety air-brake and slow down movement of the fixed-shape handle in the event of a sudden release, thereby preventing or substantially reducing injury or damage that the conventional handle of fixed shape would cause. It should be realized that the above-noted changes are not exhaustive, and merely exemplary. Those skilled in the art will recognize, or be able to ascertain using no more than routine experimentation, many equivalents to the specific embodiments of the invention described herein. For example, center portion 4 can have different lengths and widths or be constructed of different materials (non-elastic or elastic materials, as desired), so as to have different aerodynamic properties, or improve efficacy, as desired.
All such changes and modifications are considered to be within the spirit and scope of the invention.
For US purposes only, this application claims priority of prior U.S. Provisional Patent Application U.S. Ser. No. 60/617,832, filed Apr. 18 2008, and is a continuation in part of U.S. patent application Ser. No. 12/426,278, filed Apr. 19, 2009. The entire disclosure of each of these prior patent applications are incorporated herein by reference in their entirety.
Number | Date | Country | |
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Parent | 12426278 | Apr 2009 | US |
Child | 13270225 | US |