The disclosure relates to a massage roller, more specifically, a massage roller that can be affixed to a stationary support structure, e.g., a power rack or door frame.
Exercise, to any significant degree, causes micro-tears in muscle tissue. Additionally, as an individual exercises, muscle tissue burns stored glucose for energy. Lactic acid is a metabolic byproduct of muscle tissue breaking down stored glucose, and often leads to muscle fatigue. Over time, blood flow to the afflicted area both removes lactic acid from the muscle tissue and allows white blood cells, known as prostaglandins, to flood the area to reduce inflammation caused by the micro-tears. Therefore, muscle recovery and removal of lactic acid are directly correlated with blood flow the afflicted muscle tissue. One well know technique for promoting blood flow to muscle tissue, and thus accelerating recovery of the muscle's performance, includes direct application of external physical stress, e.g., massaging the afflicted muscle.
Two-handed massage rollers are well known to athletes and connoisseurs of exercise as a way to massage muscles such as the quadriceps, hamstrings, calves, and glutes. However, one persistent limitation to two-handed massage rollers is the limited range of muscles that can be massaged, i.e., it is difficult to massage a user's triceps when both of the user's arms are holding the massage roller. For example, it is exceedingly difficult, if not impossible, to use a two-handed massage roller to massage a majority of the muscles in a user's back.
Thus, there is a long-felt need for a massage roller that does not require the use of two hands to massage muscle tissue. This creates the possibility of massaging muscles not previously accessible to two-handed massage rollers.
According to aspects illustrated herein, there is provided a roller device, including a first tube having a first diameter, and a through-bore having a second diameter smaller than the first diameter, the through-bore extending through and concentric with the first tube, a first rod having a third diameter smaller than the second diameter, a first end, and a second end, where the second end of the first rod is operatively arranged to telescopingly engage with the through-bore of the first tube, a second rod having a fourth diameter equal to the third diameter, a first end and a second end, where the first end of the second rod is operatively arranged to telescopingly engage with the through-bore of the first tube, at least one roller arranged to rotate about the first tube, and a first handle fixedly secured to the first end of the first rod.
According to aspects illustrated herein, there is provided a roller device, including a first tube having a first diameter, and a through-bore having a second diameter smaller than the first diameter, the through-bore extending through and concentric with the first tube, a first rod having a third diameter smaller than the second diameter, a first end, and a second end, where the second end of the first rod is operatively arranged to telescopingly engage with the through-bore of the first tube, a second rod having a fourth diameter equal to the third diameter, a first end and a second end, where the first end of the second rod is operatively arranged to telescopingly engage with the through-bore of the first tube, at least one roller arranged to rotate about the first tube, and a first connector fixedly secured to the first end of the first rod.
According to aspects illustrated herein, there is provided a physical fitness cage/roller device assembly including a physical fitness cage having a first vertical support and a second vertical support, and a roller device. The roller device including a first tube having a first diameter, and a through-bore having a second diameter smaller than the first diameter, the through-bore extending through and concentric with the first tube, a first rod having a third diameter smaller than the second diameter, a first end, and a second end, where the second end of the first rod is operatively arranged to telescopingly engage with the through-bore of the first tube, a second rod having a fourth diameter equal to the third diameter, a first end and a second end, where the first end of the second rod is operatively arranged to telescopingly engage with the through-bore of the first tube, and at least one roller arranged to rotate about the first tube.
One object of the roller device of the present disclosure is to provide a one-handed massage roller where one end of the massage roller can be secured to a physical fitness cage or power rack.
Another object of the roller device of the present disclosure is to provide a roller device capable of being supported within a physical fitness cage or power rack such that a user can utilize the device without the need for the user to work the massager with their hands.
These, and other objects and advantages, will be readily appreciable from the following description of preferred embodiments and from the accompanying drawings and claims.
The nature and mode of operation of the present disclosure will now be more fully described in the following detailed description of the embodiments taken with the accompanying figures, in which:
At the outset, it should be appreciated that like drawing numbers on different drawing views identify identical, or functionally similar, structural elements. While the embodiments are described with respect to what is presently considered to be the preferred aspects, it is to be understood that the invention as claimed is not limited to the disclosed aspect. The present invention is intended to include various modifications and equivalent arrangements within the spirit and scope of the appended claims.
The term “pressure clamp” as used in the present disclosure is intended to mean any device that secures objects to prevent their movement or separation by the application a force, e.g., a circumferential force. The term “carabiner” as used in the present disclosure is intended to mean a generally D-shaped or oblong connector with one spring-hinged side which permits the fastening of other pieces of equipment. The term “ratchet” as used in the present disclosure is intended to mean any mechanical device that allows continuous linear or rotary motion in one direction while preventing motion in the opposite direction.
Furthermore, it is understood that this disclosure is not limited to the particular methodology, materials and modifications described and, as such, may, of course, vary. It is also understood that the terminology used herein is for the purpose of describing particular aspects only, and is not intended to limit the scope of the present invention, which is limited only by the appended claims.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood to one of ordinary skill in the art to which this invention belongs. Although any methods, devices or materials similar or equivalent to those described herein can be used in the practice or testing of the invention, the preferred methods, devices, and materials are now described.
Adverting now to the Figures,
First pressure clamp 112 is fixedly secured to first end 122 of first tube 102 and arranged between first rod 104 and first tube 102. When first pressure clamp 112 is disengaged, first rod 104 can slide within, and telescopingly engage with, through-bore 126 of first tube 102. When engaged, first pressure clamp 112 is operatively arranged to provide a pressure force about the circumference of first rod 104 and prevent movement of first rod 104 in both axial direction AD1 and axial direction AD2. Similarly, second pressure clamp 114 is fixedly secured to second end 124 of first tube 102 and arranged between second rod 106 and first tube 102. When second pressure clamp 114 is disengaged, second rod 106 can slide within, and telescopingly engage with, through-bore 126 of first tube 102. When engaged, second pressure clamp 114 is operatively arranged to provide a pressure force about the circumference of second rod 106 and prevent movement of second rod 106 in both axial direction AD1 and axial direction AD2. Roller device 100 further includes first roller 116, second roller 118, and third roller 120. Rollers 116, 118, and 120 are arranged about first tube 102. Roller 116, 118, and 120 are operatively arranged to rotate in rotational direction RD1 and/or second rotational direction RD2. It should be appreciated that although three rollers, i.e., rollers 116, 118, and 120 are depicted, additional rollers may be provided. Furthermore, it is contemplated herein that at least one roller, i.e., one or more rollers could be disposed about first tube 102.
First pressure clamp 212 is fixedly secured to first end 222 of first tube 202 and arranged between first rod 204 and first tube 202. When first pressure clamp 212 is disengaged, first rod 204 can slide within, and telescopingly engage with, through-bore 226 of first tube 202. When engaged, first pressure clamp 212 is operatively arranged to provide a pressure force about the circumference of first rod 204 and prevent movement of first rod 204 in both axial direction AD1 and axial direction AD2. Similarly, second pressure clamp 214 is fixedly secured to second end 224 of first tube 202 and arranged between second rod 206 and first tube 202. When second pressure clamp 214 is disengaged, second rod 206 can slide within, and telescopingly engage with, through-bore 226 of first tube 202. When engaged, second pressure clamp 214 is operatively arranged to provide a pressure force about the circumference of second rod 206 and prevent movement of second rod 206 in both axial direction AD1 and axial direction AD2. Roller device 200 further includes first roller 216, second roller 218, and third roller 220. Rollers 216, 218, and 220 are arranged about first tube 202. Roller 216, 218, and 220 are operatively arranged to rotate in rotational direction RD1 and/or second rotational direction RD2. It should be appreciated that although three rollers, i.e., rollers 216, 218, and 220 are depicted, additional rollers may be provided. Furthermore, it is contemplated herein that at least one roller, i.e., one or more roller could be disposed about first tube 202.
First pressure clamp 312 is fixedly secured to first end 322 of first tube 302 and arranged between first rod 304 and first tube 302. When first pressure clamp 312 is disengaged, first rod 304 can slide within, and telescopingly engage with, through-bore 326 of first tube 302. When engaged, first pressure clamp 312 is operatively arranged to provide a pressure force about the circumference of first rod 304 and prevent movement of first rod 304 in both axial direction AD1 and axial direction AD2. Similarly, second pressure clamp 314 is fixedly secured to second end 324 of first tube 302 and arranged between second rod 306 and first tube 302. When second pressure clamp 314 is disengaged, second rod 306 can slide within, and telescopingly engage with, through-bore 326 of first tube 302. When engaged, second pressure clamp 314 is operatively arranged to provide a pressure force about the circumference of second rod 306 and prevent movement of second rod 306 in both axial direction AD1 and axial direction AD2. Roller device 300 further includes first roller 316, second roller 318, and third roller 320. Rollers 316, 318, and 320 are arranged about first tube 302. Roller 316, 318, and 320 are operatively arranged to rotate in rotational direction RD1 and/or second rotational direction RD2. It should be appreciated that although three rollers, i.e., rollers 316, 318, and 320 are depicted, additional rollers may be provided. Furthermore, it is contemplated herein that at least one roller, i.e., one or more rollers could be disposed about first tube 302.
First pressure clamp 512 is fixedly secured to first end 522 of first tube 502 and arranged between first rod 504 and first tube 502. When first pressure clamp 512 is disengaged, first rod 504 can slide within, and telescopingly engage with, through-bore 526 of first tube 502. When engaged, first pressure clamp 512 is operatively arranged to provide a pressure force about the circumference of first rod 504 and prevent movement of first rod 504 in both axial direction AD1 and axial direction AD2. Similarly, second pressure clamp 514 is fixedly secured to second end 524 of first tube 502 and arranged between second rod 506 and first tube 502. When second pressure clamp 514 is disengaged, second rod 506 can slide within, and telescopingly engage with, through-bore 526 of first tube 502. When engaged, second pressure clamp 514 is operatively arranged to provide a pressure force about the circumference of second rod 506 and prevent movement of second rod 506 in both axial direction AD1 and axial direction AD2. Roller device 500 further includes first roller 516, second roller 518, and third roller 520. Rollers 516, 518, and 520 are arranged about first tube 502. Roller 516, 518, and 520 are operatively arranged to rotate in rotational direction RD1 and not in second rotational direction RD2. This this one-way rotation is made possible by plurality of teeth 538 (shown in
Thus it is seen that the objects of the invention are efficiently obtained, although changes and modifications to the invention should be readily apparent to those having ordinary skill in the art, which changes would not depart from the spirit and scope of the invention as claimed.
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