This invention relates generally to treadmills, and more particularly to a treadmill adapted to be used while seated.
Traditional cardiovascular exercise equipment such as treadmills, ellipticals, rowers and stationary cycles, require users to have enough self-sufficiency and balance to support the majority of their own weight while exercising. The user must also have a dedicated area in which to exercise to receive the large equipment. This is impractical or impossible for a significant portion of the population.
The following groups of people are normally precluded from using the aforementioned equipment due to mainly physical and supervisorial limitations.
DISABLED: Individuals who have poor balance (Parkinson's, neurological disorders, etc.), who suffer neuropathy due to diabetes, are blind, or are morbidly obese, etc.
PHYSICAL REHAB: Individuals recovering from hip, back, or knee surgery, and cannot put their full body weight onto their legs while exercising.
ELDERLY: Individuals who are severely deconditioned, feeble, or who otherwise require constant supervision.
WORKPLACE: Most work environments require sitting at a desk for 4-8 hours or more and don't allow for exercise while at work.
The present invention provides cardiovascular and lower body exercise while seated in a comfortable and safe environment, usually a chair or couch. This enables all of the aforementioned groups of individuals to get a cardiovascular workout in a more secure, safe and easy to navigate fashion.
The prior art teaches a wide range of treadmills, almost all of which are adapted for use in a standing position (i.e., for walking, running, etc.). An example of such a treadmill is shown in Farnet, U.S. Pat. No. 5,368,532, which teaches a motorized treadmill with an endless belt around rollers. The treadmill includes a front post that supports a front housing that includes handrails for facilitating running on the belt. The front housing includes controls for controlling the operation of the motor, and also provides the handrails that assist the user with maintaining his or her balance. None of these front housing structures are included in the present invention.
There are a few specialty treadmills shown in the prior art that are adapted for use in a seated position. Examples include the following:
Hsu, U.S. Pat. No. 9,084,911, teaches a fairly standard treadmill that further includes a chair mounted over the belt of the treadmill. While this shows the general concept of using a treadmill from a seated position, it is structurally different from the present invention. The Hsu treadmill is sized and shaped like a standard treadmill (i.e., the belt has a length of 4-5 ft.), and includes a standard front housing construction.
Netter, U.S. Pat. No. 9,511,254, teaches a treadmill may be used from either a standing or seated position, and may be used in conjunction with a desk. This treadmill has a belt that is 38 inches long, so it is shorter than other standing treadmills, but it is still significantly longer than the present invention. Furthermore, while this treadmill is separable from the upright components (in this case, in the form of the desk), it does still include a front housing which has engagement elements for interlocking with the desk structure. Importantly, the present invention eliminates this front housing entirely.
Maaniitty, U.S. 2015/0251047, teaches a treadmill used in conjunction with a desk and an office chair. A similar construction is also shown in Herring, U.S. 2015/0351553. Abboudi, U.S. Pat. No. 5,437,588, teaches a treadmill for use within a pool of water for therapeutic exercise that includes an endless track mounted between a pair of side members, a hand rail spaced above and extending parallel to one of the side members, and a vertical post secured to the one side member and providing support for the handrail. A seating member is mounted on the vertical post and is movable with respect to the post for selectively disposing the seating member at various heights above the one side member and either directly overlying the endless track or disposed to one side thereof.
The prior art teaches a variety of treadmills, some of which may be used in a seated position. However, all of the prior art treadmills are adapted for typical treadmill operation, in which the user is walking or running on the treadmill. The prior art does not teach a treadmill wherein the front and rear rollers are separated by a longitudinal distance that is only 10-30 inches, which is not long enough for this typical treadmill operation, but is used for a new process of seated stepping, wherein the user does not stand upon the treadmill, but moves his or her feet on the treadmill from a seated position. The present invention fulfills these needs and provides further advantages as described in the following summary.
The present invention teaches certain benefits in construction and use which give rise to the objectives described below.
The present invention provides a treadmill adapted to be used in a seated position. The treadmill includes a structure having a front portion and a rear portion; a front roller rotatably mounted on the front portion of the structure; and a rear roller rotatably mounted on the rear portion of the structure such that the rear roller is disposed parallel to the front roller and spaced apart from the front roller by a longitudinal distance that is between 10-30 inches. The treadmill further includes a belt mounted around the front and rear rollers. The spacing of the rollers results in a flat belt length that is between 10-30 inches. A primary objective of the present invention is to provide a treadmill having advantages not taught by the prior art.
Another objective is to provide a treadmill that is uniquely short, having front and rear rollers that are separated by a longitudinal distance such that the flat belt length is only 10-30 inches, a length that is not suitable for typical walking/running treadmill operation, but which enables a new form of seated stepping that is unique to the present invention.
Another objective is to provide a treadmill that lacks a front housing, so that there is no front structure that connects the side frames in front of the front roller.
Another objective is to provide a treadmill that may be controlled by a remote control.
Another objective is to provide a treadmill that automatically shuts off in the event that the user stands upon the treadmill.
Another objective is to enable tread belt materials with increased elasticity, compressibility, and thickness to improve comfort and usability for a seated user that may not be wearing running shoes.
Other features and advantages of the present invention will become apparent from the following more detailed description, taken in conjunction with the accompanying drawings, which illustrate, by way of example, the principles of the invention.
The accompanying drawings illustrate the present invention. In such drawings:
The above-described drawing figures illustrate the invention, a treadmill that is adapted to be used from a seated position. The treadmill is dramatically shorter than prior art treadmills, and is adapted to be used at a desk while seated, at home while seated during rehabilitation, by the elderly while seated and in other non-traditional manners. The treadmill may be used by persons who are have difficulty walking, and the treadmill may be used barefoot, or wearing socks, or other footwear that is not necessarily suitable for running.
The treadmill 10 further includes a belt 42 upon which the user places his or her feet. The structure 20 supports front and rear rollers (elements 30 and 32, shown in
As shown in
A charging mechanism such as a power cord 48 may be provided to operably engage the charging port 47. While one charging mechanism is illustrated, any form of charging may be used (e.g., wireless induction charging, or any other method known in the art). Since the batteries, charging components, etc., are not novel, they are not described in greater detail herein.
In this embodiment, the front roller 30 is somewhat larger in diameter than the rear roller 32; however, this is not required, and in alternative embodiments, alternative configurations may be used.
In the embodiment of
In the embodiment of
In the embodiment of
In this embodiment, a force sensor 62 is operably positioned to sense force applied from the belt 42 to the bed 38. In one embodiment, the force sensor 62 is used to detect if too much force is applied to the belt 42, such as if the user stands upon the belt 42. Since standing on the treadmill 10 is not encouraged when using some embodiments of the treadmill 10, the force sensor 62 may operate to disabling the motor 34 (i.e., stopping the motor, disconnecting the motor from the rollers, or otherwise ceasing the movement of the rollers by the motor, etc.) to prevent the user from being inadvertently injured from misuse of the treadmill 10. The use of the force sensor 62 is discussed in greater detail below. In another embodiment, the motor 34 may be selected to have an amperage (i.e., horsepower) that is sufficient to move the belt 42 up to a certain weight (e.g., 20 lbs or higher, or potentially a higher threshold, such as 100 lbs, according to the determination of one skilled in the art), but not beyond this threshold. In this manner, if the user stands upon the treadmill 10, it will stop by virtue of the motor 34 selected, because the motor 34 will not be strong enough to move the belt 42 with the weight of the user upon the treadmill 10.
The computer controller 50 may be used to control the display 56 (e.g., monitor, LCD screen, any form of display known in the art) for displaying information of interest to the user (e.g., steps taken, distance traversed, heart rate of user, etc.), and/or other information, such as instructions, battery life, etc. While one embodiment of the display 56 is illustrated, it may have any size, shape, or configuration desired by one skilled in the art.
The computer controller 50 may also be operatively connected with a microphone 58 for receiving verbal commands, a speaker 60 for providing audible instructions and other feedback, and a transceiver 64 for transmitting and/or receiving information and commands.
For purposes of this application, the term “transceiver” is defined to include any form of transmitting and/or receiver for communicating, via wired or wireless communication, between the computer controller 50 and an outside device, such as a remote control 70 discussed below.
In this embodiment, the computer controller 50 is operably connected with the force sensor 62 to disable the electric motor 34 if the force applied to the bed 38 exceeds a predetermined maximum weight, and indicates that a user is standing on the treadmill 10 rather than operating it from a seated position. For example, in one embodiment, the electric motor 34 may be disabled if the force exceeds 100 lbs. Those skilled in the art may utilize alternative weights, so long as they are indicative of the incorrect usage of the treadmill 10, and not consistent with the correct usage of the treadmill 10.
As shown in
The remote control 70 may further include a battery 77, a transceiver 86 for communicating with the computer control 50, and an accelerometer 88 for tracking movement of the remote control 70, so that the remote control 70 may be used to control the treadmill 10 via movements of the remote control 70.
In the embodiment of
As noted above, the angle of elevation of bed 38 can be adjustable, either manually or via a driving mechanism such as a small motor. The angle is actually key to optimizing the effects of exercising with treadmill 10. Ideally the angle is between 6° and 18°. Maintaining the angle within this range for a defined period of time provides the benefits virtually equivalent to walking on a treadmill as well as improved circulation, stamina, strength and focus. The angle is tied to the natural flex of the foot while using treadmill 10 and leg length as well as the required position of the knees falling below the hip flexor.
In certain embodiments, the angle of the bed 38 can be automatically controlled via an application running on, e.g., controller 50. In other words, memory 54 can store instructions that can cause processor 52 to control controller 50 to control the drive mechanism so as to increase and decrease the angle of bed 38 automatically. Thus, treadmill 10 can be programmed with the user's height, weight, age, and possibly physical condition and stamina and controller 50 can automatically adjust the bed 38 for optimum results.
As used in this application, the words “a,” “an,” and “one” are defined to include one or more of the referenced item unless specifically stated otherwise. The terms “approximately” and “about” are defined to mean +/−10%, unless otherwise stated. Also, the terms “have,” “include,” “contain,” and similar terms are defined to mean “comprising” unless specifically stated otherwise. Furthermore, the terminology used in the specification provided above is hereby defined to include similar and/or equivalent terms, and/or alternative embodiments that would be considered obvious to one skilled in the art given the teachings of the present patent application. While the invention has been described with reference to at least one particular embodiment, it is to be clearly understood that the invention is not limited to these embodiments, but rather the scope of the invention is defined by the following claims.
This application is a continuation-in-part of U.S. patent application Ser. No. 16/541,018, filed Aug. 14, 2019, entitled “SEATED TREADMILL AND METHOD OF USE,” which is a continuation of U.S. patent application Ser. No. 15/794,588, filed Oct. 26, 2017, entitled “SEATED TREADMILL AND METHOD OF USE,” which claims priority to U.S. Provisional Application No. 62/438,339, filed Dec. 22, 2016, the contents of each of which are hereby incorporated by reference in their entireties.
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Child | 16541018 | US |
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Child | 16790620 | US |