The claimed subject matter relates to the expansion of functionality of classic elliptical exercise trainers. While traditional elliptical trainers move solely in a plane parallel to a usual stride, this device slowly revolves about an axis from the usual parallel plane, through a perpendicular plane, and back to parallel. More so, while classic elliptical trainers create a symmetric elliptical path, this device creates a more natural, one-sided flattened elliptical path better simulating natural foot motion. Concurrently, unlike classic elliptical handlebars, the claimed subject matter describes handlebars moving out of phase with the revolving foot pedals in perpendicular and parallel planes instead of one plane.
Statistics on American health and exercise indicate that only about twenty-three percent (23%) of American adults meet leisure-time physical activity (LTPA) guidelines, according to research data from the Center for Disease Control's (CDC) National Center for Health Statistics. (National Health Statistics Reports Number 112 v. Jun. 28, 2018). The U.S. Department of Health and Human Services recommends that adults between the ages of eighteen and sixty-four (18-64) engage in at least one hundred fifty (150) minutes of moderate physical activity or seventy-five (75) minutes of vigorous physical activity every week. As health is a growing issue for adults and of financial concern for insurance companies, we seek to find ways to lower barriers to allow people to exercise more frequently, effectively, vigorously, and safely.
It is well documented that regular aerobic exercise is important and recommended for all able-bodied people. Regular exercise can fend off heart disease and improve circulation. It helps prevent type 2 diabetes as muscles stay more receptive to insulin. It has been suggested it can lower the risk of cancer: colon, breast, endometrial, and maybe ovarian. It has also been shown to reduce the risk of recurrence of colon and breast cancer. Symptoms of depression can be reduced with exercise and perhaps delay the onset of cognitive decline into dementia.
Running and other aerobic exercise can negatively impact the joints. There has been a positive trend in exercise choice moving from running on treadmills causing joint damage to non-impactful stepping on elliptical machines. However, exercising on an elliptical trainer without significant variability in the motion path can overwork a particular group of muscles while neglecting others. Our apparatus allows a smooth, continuous change in the motion pathways allowing continuous change in the muscle groups exercised. Elliptical trainers can reduce the damaging effects of impact exercises but should allow for variability. Most adults seek exercise that is as quick and effective as possible. Elliptical trainers exercise a limited group of muscles and offer limited core muscle group exercise. While some elliptical machines provide the ability to change the size of the ellipse, they do not substantially allow modification of the shape of the ellipse nor allow it to move in a different plane.
The claimed subject matter relates a novel method and apparatus for facilitating whole body aerobic exercise in a more complete and natural fashion.
There are numerous reasons why most adults don't regularly exercise. These include boredom, working with multiple machines, excessive time, and not getting results. This claimed subject matter addresses each of these reasons.
Running on a treadmill or working out on a classic elliptical machine can be monotonous. Our apparatus breaks up the monotony by allow a constantly evolving path for the legs and arms.
While elliptical trainers provide a low impact workout, they are limited to working a fixed group of muscles viz. the anterior and posterior aspects of the legs and hips. They largely neglect the important lateral and medial stabilizing muscles of the legs used in sports to improve performance and mitigate against injury. Without strength in the stabilizing lateral and medial muscles of the legs, but strength in the anterior and posterior muscles, the user may think he has plenty of strength to perform a particular move but fail and possibly injure himself due to lack of stabilizing muscles. The same is true of the traditional upper body handlebars on classic elliptical exercisers that only work a limited muscle group. The present claimed subject matter provides a greater range of motion for the arms and torso.
A similar embodiment to include orienting the foot pedals and handlebars to allow for a seated recumbent arrangement is claimed.
Treadmills have been around since the Roman empire employed them to accomplish various work tasks powered by men. For centuries, animals were put on treadmills for the same purpose. Treadmills were used in prisons as punishment until the practice was outlawed in the 19th century. Cardiologists discovered the usefulness of treadmills in diagnosing cardiac disease in the 1950's. Classic treadmills began populating gyms in the 1960's and 1970's and have become a familiar fixture. Modern treadmills continue to improve various elements of the experience but remain an impact exercise.
Over time, evidence has mounted regarding the negative effects of impact exercise inspiring exploration of other methods of achieving a satisfactory, aerobic workout leading to the invention of the elliptical exerciser in the 1990's. It, too, has evolved over the years and similarly remains a fixture in modern gyms next to the treadmills.
The novel features believed characteristic of the invention are set forth in the appended claims. The invention itself, however, as well as a preferred mode of use, further objectives, and advantages thereof, will be best understood by reference to the following detailed description of illustrative embodiments when read in conjunction with the accompanying drawings, wherein:
Before undertaking the detailed description below, it may be advantageous to set forth definitions of certain words and phrases used in connection to the disclosed exemplary embodiments: the terms “include” and “comprise,” as well as derivatives thereof, mean inclusion without limitation; the term “or” is inclusive, meaning and/or; the phrases “associated with” and “associated therewith,” as well as derivatives thereof, may mean to include, be included within, interconnect with, contain, be contained within, connect to or with, couple to or with, be communicable with, cooperate with, interleave, juxtapose, be proximate to, be bound to or with, have, have a property of, or the like.
Although the subject matter of this application has been described with reference to illustrative embodiments, this description is not intended to be construed in a limiting sense. Various modifications and combinations of the illustrative embodiments as well as other embodiments will be apparent to persons skilled in the art upon reference to the description. It is, therefore, intended that the appended claims encompass any such modifications or embodiments. The general processes and systems described herein may be modified heavily depending on a number of factors, with rearrangement and/or addition/deletion of steps anticipated by the scope of the present disclosure. Integration of this and other preferred exemplary embodiment methods in conjunction with a variety of preferred exemplary embodiment systems described herein is anticipated by the overall scope of the presently disclosed system.
Regarding the core mechanism, “rotation” refers to the rotation of variable length rigid bar 150 caused by rotation of fourth armature 103 and “revolution” refers to the revolution of core armature assembly 100 about the z-axis.
In an embodiment, as shown in
As discussed, fourth armature 103 rotation about the z-axis is driven through chain 108 engaged with upper sprocket 112 and lower sprocket 107, with sprockets 112 and 107 mounted on beam 109. First beveled cog 111A and second beveled cog 111B interface with various cogs disposed on drive assembly 200 that comprises drive motor drive shafts as discussed with reference to
Regarding rotation of core armature assemblies 100A and 100B, from the perspective of the user on the machine, first motor 221 rotates corresponding first drive shaft 219, rotating corresponding first cog, 217, that in turn rotates third cog 215, that rotates first double cog 202A, that in turn rotates third beveled cog 225A, that in turn rotates first beveled cog 111A, which drives rotation of the first core armature assembly 100A. Rotating cog 202A also drives rotating cog 202B connected to beveled cog 225B driving beveled cog 111B, which drives rotation of the second core armature assembly 100B.
Regarding revolution of core armature assemblies 100A and 100B, from the perspective of the user on the machine, second motor 222 rotates corresponding second drive shaft 220, rotating corresponding second cog, 218, that in turn rotates third cog 230, that rotates cog 201, that in turn rotates cog 204, that in turn revolves the entire 100A apparatus about the z-axis. Rotating cog 201 also drives revolution of the second core armature assembly 100B
In an embodiment, first motor 221 is a resistance motor like the one in a standard elliptical unit. These provide graded resistance based on user settings through an electro-mechanical apparatus. The user drives the unit by pedaling. In an embodiment, second motor 222 is a traditional motor driving revolution of the core mechanisms about the z-axis.
Third armature 105 of the core armature assemblies 100 is shown, which articulates through ball joint, 106, with proximal rectifying armature 301 that articulates through an elbow joint (not shown) with the central rectifying armature 302, that articulates through an elbow joint (not shown) with the distal rectifying armature 306. Proximal rectifying armature 301 and distal rectifying armature 306 are kept parallel by rectifier chain 305 guided by a first rectifier sprocket 303, central rectifying armature 302, and second rectifier sprocket 304. A pivoting point of rotation secured on central rectifying armature 302 by pivoting joint 501 is adjustable up/down in the z-axis direction, providing down/up tilt of the foot pedals, respectively, and forward/backward in the y-axis direction, providing decreased/increased path amplitude of the foot pedals, respectively.
Keeping the foot pedals perpendicular to the z-plane, parallel to the ground, employs a chain and sprocket balancing system. Proximal sprocket 408 attaches to ball joint 501 where its rotation is fixed. Chain 409 connects sprocket 408 to sprocket 410 which rotates in unison with chain 417 connecting with sprocket 411 which articulates with pedal 412.
A parallel system of chains and sprockets keep the foot pedals in the y-plane. Proximal sprocket 401 attaches to chain 402 extending around small sprockets 403 and 404 then extending around sprockets 406 and a similar sprocket to 406 hidden behind sprocket 411 in
Not shown are straps secured to the foot pedals overlying the front of user's shoes (like toes clips on the pedal of a bicycle) allowing the user to pull up on alternating feet, working additional muscle groups.
Stride tilt allowing for “uphill”/“downhill” exercise involves lowering/raising the pivot points, 501, on each side, respectively. The mechanism is simplified here but a sprocket 504 is driven by motor 508. A separate component in motor 508 drives a chain 510 to raise or lower ball joint 501. In the diagram it is shown at its maximum height.
Referring again to
This difference in complexity between the presently described exercise machine as compared to a standard elliptical machine is significant.
In one embodiment as shown in
In one embodiment, as shown in
The control panel includes a clip on the top for an iPad or computer tablet to allow viewing of entertainment, a phone display/charger, water bottle holder, and a shirt clip that automatically stops the machine if it becomes disconnected from the user.
Adjustable elements from the control panel are duplicated on the fixed and moving handlebars. In addition to metallic heart rate sensors on each:
Additional control includes varying revolution speeds. By example, the user may want to spend 80 percent of the time in forward/backward motion and 20 percent in side-to-side motion. The user may want to remain in just forward or lateral motion. The user may desire a flattened ellipse in the forward/backward motion but a more circular motion in the side-to-side motion. Other similar variability is claimed. The control allows for firmware and software upgrades to include new programs driving the device and displaying data.
The above summary is not intended as an exhaustive description of the claimed subject matter but, rather, is intended to provide a brief overview of some of the functionality associated therewith. Other systems, methods, functionality, features and advantages of the claimed subject matter will be or will become apparent to one with skill in the art upon examination of the following figures and detailed description. Although various embodiments of the present disclosure have been illustrated in the accompanying drawings and described in the foregoing Detailed Description, it will be understood that the present system is not limited to the embodiments disclosed, but is capable of numerous rearrangements, modifications, and substitutions without departing from the spirit of the system as set forth and defined herein.
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Number | Date | Country | |
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20230173337 A1 | Jun 2023 | US |