The present invention pertains to fitness equipment, specifically to door or door jamb mounted exercise devices (USPTO class 482, subclass 40).
Pull-ups are a common exercise performed by people for training arm, shoulder, and back muscles. They involve gripping a constrained object with the individual's arms, suspending all or part of the individual's body weight on the arms, and lifting the individual's body upwards utilizing muscular effort. Despite requiring a certain minimum level of fitness in order to execute pull-ups, they offer many advantages in comparison to other popular types of arm exercises such as push-ups, arm curls, and bench presses. Compared with push-ups, pull-ups exercise more stabilizing muscle groups, they utilize the full body weight of the individual, and they place him or her in a vertical orientation, which may be found more natural and comfortable than the face down horizontal position required for push-ups. Compared with arm curls and bench presses, pull-ups utilize the individual's body weight as load, so the equipment required can be made significantly less heavy and more portable. In certain places, they require no extra equipment at all. Outdoors, pull-ups can be executed using elements of the natural environment, such as tree branches, or of the built environment, such as playground equipment. Indoors, however, few locations tend to have features which are suitable to being gripped by one's arms and having the individual's full or partial weight subjected upon them.
A significant number of devices have been invented in an attempt to rectify the relative lack of indoor features suitable for performing pull-ups in typical home or office environments. Many of these devices are intended to be secured to a door frame. Some, such as U.S. Pat. No. 7,066,866 B1 to Mobley, are full width horizontal pull-up bars meant to be affixed to a specific door permanently. The installation procedure involves securing the device to the target door with screws. Moving the device from one door to another may be a time consuming and relatively complex process, which the user may not wish to perform as frequently as doing pull-up exercise sessions. Having the device installed may also limit the height of the door opening, forcing taller individuals to duck under the permanent pull-up bar.
Devices which may be removed easily and quickly for individual sessions of pull-up exercises avoid the shortcomings of permanent doorway mounted pull-up bars. One popular design is described in U.S. Pat. No. D,348,706 to Harrell. It is a doorway mounted pull-up bar which may be installed onto a doorway quickly and also removed quickly. The device is substantially bulky, having a main grip bar extend horizontally beyond the edges of the door and a number of auxiliary bars attached to the main grip bar. As a result of this, the device cannot be installed onto doors wider than the fixed width of the main grip bar. Furthermore, because the main grip bar is uninterrupted across its width, in the course of a pull-up, the individual must pull back their head to avoid physical contact between the individual's face and the main grip bar. Despite these drawbacks, embodiments of this design enjoy tremendous consumer popularity. Several of such embodiments are regularly top sellers on websites such as amazon.com, and at the time of writing, one of these embodiments is the 20th highest selling fitness item on amazon.com.
The bulkiness of the previous device is largely addressed by U.S. Pat. No. 7,993,245 to Dorfman, a profiled strip intended to be installed on top of a door for performing pull-ups. It possesses significant size and weight advantages over the previously discussed designs, however, due to the elongated body intended to cover the length of a door, it suffers from limited portability compared to the opposably mounted design claimed herein. It also suffers from awkward exercise posture: because the device is installed directly on the upper edge of a solid door, the user may have to keep pushing their body away from the door while performing a pull-up. The same limitation is shared by the chin-up assembly described in U.S. Pat. No. 7,601,100 to Hinds and Bonneville.
U.S. Pat. No. 6,503,175 to Harrell describes a portable exercise device made up of two separated clamp members that are secured onto a support frame by a length-adjustable flexible attachment member which is interwoven between the clamp members. While the goals of this device are very similar to those of the present invention, the clamping mechanism is significantly less secure. Unlike the present invention which includes a pivotal joint, the clamping members described in U.S. Pat. No. 6,503,175 are pressed against the lip of the support frame directly by a flexible attachment member in combination with a body second edge. However, because the flexible attachment member is almost vertical at the attachment point, constrained by the geometry of the door frame, the inward horizontal component of the clamping force is a small fraction of the vertical component. Thus, only inward facing, ‘hook’ edges, or edges with a high coefficient of friction, are suitable for securing this device. The present invention incorporates a pivotal connection between the clamp members which uses the rotational torque from the supported individual's weight to push the clamping members off each other and horizontally into the support structure, allowing a secure, self-energizing connection to a wide range of support structure shapes.
The portable opposably mounted pull up device of the present invention includes a clamping mechanism capable of attaching to a door frame of suitable width and a handle suspended underneath the clamping mechanism by one or more flexible members, such as ropes, straps, or others. The clamping mechanism is composed of two grip arms pivotally connected to each other. Each grip arm possesses a downward facing, substantially horizontal surface for resting on top of the door frame trim, a (possibly small) extension above said surface, and a means of attaching the flexible member connecting it to the handle component on the opposite side of the arm as the horizontal flat. The pivotal connection to the opposite arm component is located between the downward facing flat and the flexible member attachment means. This allows the arm components to close in on each other when weight is suspended from the handle underneath, ensuring the clamping mechanism remains securely attached to the door frame, as the extensions above each downward facing surface are pressed against the opposing sides of the wall on which the door frame is mounted.
This invention allows individuals to perform pull-up exercises while allowing, in a combination not offered by any of the prior art:
The accompanying drawings which are incorporated in and form a part of the specification illustrate preferred embodiments of the present invention and, together with a description, serve to explain the principles of the invention. The drawings are not to be considered limiting of the scope of the invention. The drawings are not necessarily to scale and in some instances proportions may have been exaggerated in order to more clearly depict certain features. In the drawings:
The description that follows and the embodiments described therein are intended to clarify the nature and principles of the invention by means of examples. These examples are provided for the purposes of explanation, and not of limitation, of those principles and of the invention. In the description, similar parts are marked throughout the specification and the drawings with the same respective reference numerals.
Referring to
The details of assembly of the pivotal connection 120 between the two grip arms is shown in
The grip arm structure, which is shared between right grip arm 100 and left grip arm 110, is shown in detail in
There exists a multitude of other ways of manufacturing the grip arm structure which conform with the spirit and claims of the present invention. The entire grip arm may be made from one or more pieces of suitable material, such as a metal, a plastic, a ceramic, a composite material, a nanocomposite material, or other materials. It may incorporate elements which are not shown in
Clearly, other materials and manufacturing methods are suitable for making the handle component and rope loops. The rope loops may be constructed from bundles of polymer strands, metal wire, fiberglass, naturally occurring fibers, or other fibers of any shape. They may also be rigid components possessing a pivotal or rotary connection at either end. The handle component may be made from one or more parts of materials such as metals, plastics, ceramics, composite materials, nanocomposite materials, or other materials.
With the detailed description above, it has been described how to build a portable exercise device which confers an array of advantages over some of the existing prior art.
a) The device may be installed onto any doorway frame of suitable dimensions quickly and easily, without any tools or hardware, and without altering or damaging the doorway frame via articulation of the pivotal connection 120, and utilizing support surfaces 101, 102, 111, and 112 to make contact with the doorway frame.
b) The device may be stored or carried, with no or minimal prior disassembly, in a small travel bag, backpack, or in the carry-on luggage on an airplane. The design described and shown may be made very compact in fully deployed configuration as shown in
c) The device forms a secure, self-energizing, opposable mounting system, via the arrangement of grip arms 100 and 110 and pivotal connection 120, in combination with rope loops 140 and 150 connected to handle 130, which uses the individual's body weight to aid the stable attachment to both sides of any suitable doorway frame by causing the support surfaces of both grip arms to increase the gripping force due to downward load applied through the handle.
d) The device may have a relatively short handle component intended for gripping with one hand. The individual using the device may use a pair of them, one for each hand, as shown in
e) The handle component 130 is suspended on flexible rope loops 140 and 150, allowing the individual's wrists to swivel and pivot into a comfortable orientation into the course of a pull-up.
f) The individual may use a pair of embodiments of the present invention to exercise on a door frame which is unusually wide or narrow, unlike with conventional removable pull up bars, such as embodiments of the design described in U.S. Pat. No. D,348,706.
It is understood that the invention may be embodied in ways different from the one described heretofore, and that other embodiments may be developed without departing from the scope of the appended claims. It is furthermore understood that terms possessing a certain degree of specificity, such as ‘doorway frame’, are used for exemplification purposes, and that they encompass concepts of a broader nature where appropriate, such as ‘supporting structure’ in this instance.
U.S. Provisional Patent Application 61/981,822 filed on 2014 Apr. 20, “Portable Opposably Mounted Pull Up Device”
U.S. Pat. No. 8,622,875 “Doorframe suspension type parallel-bar exercising apparatus”
U.S. Pat. No. 7,993,245 “Exercise device for pull-ups and hanging”
U.S. Pat. No. D,633,961 “Portable pull-up exercise device”
U.S. Pat. No. D,633,156 “Combined chin up and exercise bar”
U.S. Pat. No. 7,762,409 “Apparatuses for holding hangers”
U.S. Pat. No. 7,601,100 “Door mounted chin-up assembly”
U.S. Pat. No. 7,066,866 “Chin up bar assembly with sliding and swiveling handles”
U.S. Pat. No. D,518,534 “Pull-up exercise bar”
U.S. Pat. No. 6,503,175 “Exercise device”
U.S. Pat. No. 6,179,748 “Chin-up bar”
U.S. Pat. No. 5,776,033 “Chin-up bar”
U.S. Pat. No. 5,752,903 “Exercise bar assembly”
U.S. Pat. No. 5,729,844 “Portable baby sleeping swing”
U.S. Pat. No. D,376,264 “Toddler exerciser”
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U.S. Pat. No. D,348,706 “Door frame mounted exercise bar”
U.S. Pat. No. 6,514,182 “Doorframe mountable exercise system”
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