The present invention relates to a glute press exercise machine in which a reclining user pushes their lower torso forwards to lift a weight.
Existing glute press weight lifting machines typically provide support to a reclining user and use a rotating arm attached to the frame of the device that is positioned across the user's abdomen. As the user pushes their hips/abdomen upwards, they thereby move the rotating arm which in turn pulls on a cable to lift a weight stack.
Other glute press exercises have been developed that do not rely on specialized equipment. For example, a user can simply rest their upper back or shoulders on or against a standard lifting bench, and then place a weight bar across their hips/abdomen. Next, the user proceeds to lift the weight bar by straightening their legs/back. Unfortunately, the disadvantage of this approach is that it provides very poor support to the user's back during the exercise.
What is instead desired is a simple, effective and comfortable machine for performing glute presses. Ideally, such a machine would not rely on movement of the user to rotate an exercise arm during the exercise.
Ideally as well, it would be desirable to provide a glute press exercise machine that supports a user's lower back and hips throughout the movement of the full glute press exercise.
In preferred aspects, the present system provides a glute press exercise machine, comprising: a stationary frame; a four-bar linkage connected to the stationary frame; a rotatable back support connected to the four-bar linkage; a seat connected to at least one of the bars of the four-bar linkage; a foot support connected to the stationary frame; and an abdomen restraint connected to the back support.
The rotatable back support has an upper portion and a lower portion with the lower portion extending down below the user's hips to support the users hips during the full glute press exercise. Preferably, the lower portion of the rotatable back support supports at least 10% of the user's total body weight such that the user's total body weight is not solely supported by the user's upper back and feet.
Preferably as well, the seat rotates downwardly away from the user's hips during a glute press exercise and then rotates upwardly again to contact the user's bottom between every repetition of glute press exercises.
Preferably, the four-bar linkage is pivotally connected to the stationary frame at a location near the ground level and the bars of the four-bar linkage each rotate between different non-vertical angles during a glute press exercise.
In preferred aspects, the foot support is positioned below 25 cm from the ground and the foot support extends forwardly beyond the front of the stationary frame.
Preferably, a cable connecting the rotatable back support to a weight stack assembly passes through a frame member that spans along the ground extending from a location mid-way along the stationary frame to the weight stack assembly. An optional horizontal stabilizing arm connects the weight stack assembly to a rear portion of the stationary frame.
In alternate preferred embodiments, the present system provides a hip-thrust exercise machine, comprising: a frame; a back support pivotally connected to an upper portion of the frame; a seat and foot support pivotally connected to a lower portion of the frame; and an abdomen restraint connected to the back support, wherein a user pushes the abdomen restraint upwards, tilts the back support backwards and tilts the seat and foot support forwards when the user thrusts their hips forward.
In further alternate preferred embodiments, the present system provides a hip-thrust exercise machine, comprising: a frame; a back support pivotally connected to an upper portion of the frame; a foot support pivotally connected to a lower portion of the frame; an elongated member connecting the back support to the foot support; and an abdomen restraint connected to the back support, wherein a user pushes the abdomen restraint upwards, tilts the back support backwards when the user thrusts their hips forward.
In preferred aspects, lower portion 14B of rotatable back support 14 supports a portion of the user's weight. Most preferably, lower portion 14B supports at least 10% of the user's total body weight such that the user's total body weight is not solely supported by the user's upper back and feet. As can be seen best in
As seen by comparing
The four-bar linkage 20 preferably comprises four bars that are pivotally connected to the stationary frame at locations near ground level. Specifically, four-bar linkage 20 comprises two forward bars 22 and two rearward bars 24. Forward bars 22 are connected to frame 12 at pivot point 23 (right near ground level) and rearward bars 24 are connected to frame 12 at pivot point 24 (also right near ground level). As a result of back support 14 being mounted onto four-bar linkage 20 (at pivot points 23 and 25), back support 14 rotates about a horizontal axis H (see
Seat 17 is preferably connected onto forward bars 22. As best seen in
As can also be seen, foot support 18 is also positioned close to the ground. In preferred embodiments, foot support 18 is positioned at a height of less than 25 cm from the ground. As can also be seen, foot support 18 extends forwardly beyond the front of stationary frame 12.
Abdomen restraint 20 preferably comprises a padded arm 22 that is positionable against the user's abdomen. Padded arm 22 is preferably moveable in a direction that is generally perpendicular to the back support. As such, padded arm 22 moves in a direction towards and away from the user's abdomen (i.e.: from a “far away” position to the illustrated “resting against the abdomen” position in
In preferred aspects, the present system further comprises: a weight stack assembly 40; and a cable connecting rotatable back support 14 to weight stack assembly 40. As the user rotates rotatable back support 14, the cable is pulled, thereby lifting one or more weights in weight stack assembly 40.
In preferred aspects, the cable passes through a frame member 50 that spans along the ground between the stationary frame 12 and the weight stack assembly 40. As seen in
In addition, a stabilizing arm 60 preferably connects weight stack assembly 10 to a rear portion of stationary frame 12. As can be seen, distal end 61 of stabilizing arm 60 may simply rest upon the top of a support 19 at the rear portion of stationary frame 12. As can also be seen, stabilizing arm 60 preferably extends horizontally between weight stack assembly 40 and stationary frame 12.
In preferred aspects, abdomen restraint 20 is moveable in a direction generally perpendicular to back support 14. As such, abdomen restraint 20 preferably comprises a padded arm 22 that is moveable towards and away from the user's abdomen. In optional aspects of the present system, abdomen restraint 20 may be connected to back support 14 by a four-bar linkage 70. Other systems for moving padded arm 22 towards and away from the user's abdomen are also contemplated, all keeping within the scope of the present invention.
In operation, as shown in
Abdomen restraint 120 comprises a padded arm 122 that is positionable against the user's abdomen. Specifically, padded arm 122 is in a direction generally perpendicular to the back support in a direction towards and away from the user's abdomen (i.e.: from a “far away” position to the illustrated “resting against the abdomen” position). After the user sits down on seat 117 (
Next, the hip-thrust exercise is performed as shown in
Back support 114 is connected to seat and foot support 116 by an elongated member 130, wherein a first end 131 of elongated member 130 is connected to the back support and a second end 132 of elongated member 130 is connected to the seat and foot support 116. As can be seen, the seat and foot support 116 (which comprises a seat 117 and a foot pad 118) pivots together as a single unit.
In optional preferred embodiments, abdomen restraint 120 comprises a moveable member 121. The user can adjust the position of the padded arm 122 by moving member 121 to a preferred position using positional adjuster 140.
In an exemplary embodiment of positional adjuster 140 seen in
In an alternate exemplary embodiment of the positional adjuster, as seen in
In yet another embodiment of the hip-thrust exercise machine 200 as seen in
The present application claims priority to U.S. Provisional Patent Application Ser. Nos. 62/732,748, entitled Hip-Thrust Exercise Machine, filed Sep. 18, 2018; and 62/806,506, entitled Hip-Thrust Exercise Machine, filed Feb. 15, 2019; and 62/842,175, entitled Glute Press Exercise Machine, filed May 2, 2019; the entire disclosures of which are incorporated herein by reference in their entireties for all purposes.
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