This invention relates to an exercise device and more particularly to a hand, wrist and forearm exercise device.
It is known in the art relating to exercise devices to provide a device that allows for the strengthening of hand, wrist and/or forearm muscles. However, conventional hand, wrist and/or forearm exercise devices are limited in the number of exercise motions that a user may use the device to perform, and do not allow a user to arcuately bend the device between the user's hands.
The present invention provides a hand, wrist and forearm exercise device that allows a user to manipulate the device into a multitude of orientations to perform a variety of hand, wrist and forearm exercises. The present hand, wrist and forearm exercise device also may be bent along a longitudinal axis of the device.
More particularly, a hand, wrist and forearm exercise device in accordance with the invention includes a resistive hand grip exerciser disposed at each end of a flexible, elongated resilient member. The flexible, elongated resilient member may be a tension spring, and the device is arcuately bendable along a longitudinal axis of the tension spring and also one end is twistable relative to another end along the longitudinal axis. Each resistive hand grip exerciser may include a bendable member such as a torsion spring and two hand engagement members extending from the torsion spring. Each hand engagement member may include a grip, and each grip may be formed of a comfortable covering material.
The resistive hand grip exercisers and the resilient member may be of a one-piece integral construction or alternatively may be an assembly of individual components. The resistive hand grip exercisers and the resilient member may be formed of a metal material or alternatively may be formed of a polymer material. The resistive hand grip exercisers may be connected to the resilient member by connectors or fasteners.
The resistive hand grip exercisers may be pivotable relative to the resilient member to fold the device into a compact storage disposition. The device may include a detent locking assembly releaseably locking each resistive hand grip exerciser in an open use disposition and also the compact storage disposition.
A method of exercising hand, wrist and forearm muscles includes the step of providing the hand, wrist and forearm exercise device, grasping the resistive hand grip exercisers, one in each hand; and repetitively deforming the resilient member into an arcuate shape, wherein a spring force of the resilient member exercises forearm muscles. The method may also include the steps of grasping the hand engagement members of the resistive hand grip exercisers, with one hand on one resistive hand grip exerciser and another hand on the other resistive hand grip exerciser; and urging the hand engagement members of each resistive hand grip exerciser toward one another, wherein a resistive force of the resistive hand grip exercisers exercises hand and forearm muscles. The method may also include the steps of engaging the hand engagement members of one resistive hand grip exerciser with one hand; engaging the hand engagement members of the other resistive hand grip exerciser with another hand; and flexing one wrist while extending the other wrist counter rotationally relative to the resilient member, and then extending the one wrist while flexing the other wrist, wherein a resistive force of the resilient member exercises wrist and forearm muscles.
These and other features and advantages of the invention will be more folly understood from the following detailed description of the invention taken together with the accompanying drawings.
In the drawings:
Referring now to the drawings in detail, numeral 110 generally indicates a hand, wrist and forearm exercise device in accordance with the invention, including a resistive hand grip exerciser disposed at each end of a flexible, elongated resilient member. The hand, wrist and forearm exercise device can be utilized by a user to perform a variety of exercises to strengthen the muscles of the hand, wrist and forearm.
As shown in
A bendable member such as a first torsion spring 118 is connected to the first end 114 of the tension spring 112, and a bendable member such as a second torsion spring 120 is connected to the second end 116 of the tension spring. The torsion springs 118, 120 may be helical torsion springs each having a coil and two ends extending radially away from the coil. A clip may be engaged with and extend between the two ends of the torsion spring to restrict the amount of separation between the two ends of the torsion spring. In a rest position of the device 110 as shown in
First hand engagement members 122 are connected to and extend from the two ends of the first torsion spring 118, and second hand engagement members 124 are connected to and extend from the two ends of the second torsion spring 120. Each hand engagement member 122, 124 may be a grip or similar. Each grip may be formed of a covering material such as foam, rubber, or similar, although the grips may instead be formed of a rigid material. The hand engagement members including the grips may be integral with the torsion springs, or may be separate components in combination with the springs. Each torsion spring and corresponding hand engagement members may he configured as a resistive hand grip exerciser for exercising the hand and forearm muscles when urging the grips toward one another.
In one embodiment, the torsion springs 118, 120 and tension spring 112 are individual components that are assembled with connectors or fasteners such as bolts, clamps, snaps, rivets, or similar. For example, each torsion spring 118, 120 may be connected to an end of the tension spring 112 by a straight, threaded bolt 126 that passes straight through the coil of the torsion spring and the eye 128 at the respective ends of the tension spring, and that is secured with a nut 130. This arrangement may allow the torsion springs 118, 120 to swivel around an axis defined by the threaded bolt 126 (and generally perpendicular to the longitudinal axis of the tension spring) so that the torsion springs are inwardly foldable and can be pivotably rotated and turned inwardly relative to the tension spring to fold the device 110 from an open use disposition into a compact, folded storage disposition as shown in
The device 110 may further include a spring loaded detent locking assembly that locks the torsion springs in the open, use disposition and that can be unlocked to fold the device into the storage disposition. As shown in
In another embodiment, one or more U-bolts may pass through the coils of the torsion springs and eyes at the ends of the tension spring. Nuts may secure the U-bolts in place.
In yet another embodiment of the exercise device 210 shown in
In yet another embodiment, the tension spring and the torsion springs may be of a fabricated one-piece spring metal construction in which a single continuous length of spring wire is twisted and bent into a tension spring that is interposed between two torsion springs.
In yet another embodiment, each end of the coil of the tension spring (e.g. the outer one or two turns of the tension spring) may be bent outward relative to the longitudinal, helical axis of the tension spring. These outwardly bent portions of the coil may form the torsion springs of the exercise device. A straight length of wire (for example, of generally the same thickness as the wire forming the tension spring coil) may be welded or otherwise attached to the outwardly bent portions for attachment of hand engagement members to the device.
In yet another embodiment, the resilient member interposed between the two torsion springs may be a torsion bar. The torsion bar and the two torsion springs may be integrally formed of a polymer such as a thermoset elastomer or similar and may be fabricated by a molding process such as injection molding or similar.
A user may perform various hand, wrist and forearm exercises with the hand, wrist and forearm exercise device 110, For example, as shown in
Similarly, the user may arcuately bend the device 110 in the opposite direction by bringing his hands 148, 150 upwards and towards each other and then returning his hands and the device back to the rest position. The spring force of the tension spring again exerts resistance which exercises and strengthens the user's forearm muscles.
Alternatively, while holding the device 110 in the rest position, the user may squeeze the hand engagement members 122, 124 to urge the respective hand engagement members towards each other. The bending moments applied to the ends of the torsion springs 118, 120 by the user's hands twist each coil of each torsion spring tighter about the axis of the coil, and a spring force of the torsion springs exerts resistance which exercises and strengthens hand and forearm muscles of the user. The user may squeeze both hands 148, 150 generally simultaneously or may alternate between hands.
In another use shown on the right-hand side of
Although the invention has been described by reference to specific embodiments, it should be understood that numerous changes may be made within the spirit and scope of the inventive concepts described. Accordingly, it is intended that the invention not be limited to the described embodiments, but that it have the full scope defined by the language of the following claims.
This application claims the priority of U.S. Provisional Application No. 62/447,527 filed Jan. 18, 2017.
Number | Date | Country | |
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62447527 | Jan 2017 | US |