The disclosure relates to an improved apparatus and method for lower back exercise and an apparatus for exercising the lower back.
Back muscle and cartilage injuries, especially in the lower lumbar region of the back are relatively common. Such injuries are especially common in individuals who, for one reason or another, have failed to maintain the conditioning and tone of the muscles that support the lower back. These muscles, the spinal erectors and hip flexor must be maintained in reasonable condition if such muscle and cartilage injuries are to be protected against.
Additionally, once injury has occurred, healing can be promoted by increasing the flow of blood to the injured muscles and the areas surrounding the injury. Unfortunately, the number and density of blood vessels in the lower back area is relatively low. However, exercise is believed by many to stimulate increased blood flow. A drawback to most forms of exercise is the risk or tendency of hyperextension of the already injured muscles thereby aggravating the injury rather than promoting healing of the muscles, cartilage and surrounding tissues.
None of the previous attempts to design exercise machines for the back have met the needs of individuals who have already sustained lower back injuries or whose lower back areas are too out-of-condition to be able to withstand rigorous exercise. In order for exercise to be of value, it must progressively increase in intensity. A common method of increasing the intensity of an exercise is through the use of increased resistance from static weight additions. However, adding weight to an exercise can increase the hyperextension of lower back muscles. Therefore, weight training is not generally recommended for those suffering from lower back muscle, tissue and cartilage injuries. Also, prior-art systems do not provide a large enough range of motion to adequately load the low-back spinal erectors while simultaneously providing greater traction to the lumbar region.
There is a need for a method of exercise and an exercise apparatus that avoids hyperextension of lower back muscles while providing for conditioning and muscle tone, and which can increase local blood circulation to injured muscles and tissues in the lower back. There is also a need for an exercise machine that will provide a sufficient range of motion to adequately load the low-back spinal erectors while simultaneously providing greater traction to the lumbar region.
I disclose an apparatus and method for exercising the lower back muscles, so that the muscles can be vigorously exercised without the risk of hyperextension and injury or aggravation of existing injury. Its range of motion is 45 degrees greater for eccentric and 50 degrees greater for concentric muscle work than prior-art solutions. (An “eccentric contraction” occurs when a muscle is forced to lengthen due to the high external load, although it may be fully activated. Contractions that permit the muscle to shorten are referred to as “concentric contractions.”) By this larger range of motion, the apparatus can build the muscles of the low back spinal erectors, while simultaneously providing greater traction on the lumbar region. It is difficult to activate epaxial muscles, such as the interspinals connecting adjacent spinous processes, or the intertransversalis connecting adjacent transverse processes of the vertebrae, by doing ordinary physical exercises. By gaining the extra range of eccentric and concentric motion cited, this can be accomplished. The apparatus and method increase intra-abdominal pressure and decrease the load on the intervertebral disks.
The apparatus provides a support structure and a body support platform supported by the support structure. A pendulum having three segments is connected to the support structure. The pendulum has a first segment; pivotably connected to the support structure; a second segment that proceeds from the first segment at a first angle; and a third segment that proceeds from the second segment at a second angle, so that the center of mass of the pendulum is offset from the vertical. Weights may be connected to the third segment of the pendulum. There is a means, such as straps, connected to the pendulum, for engaging the legs of a user. The user exerts force with his legs to move the pendulum through a range of motion greater than 90 degrees.
I also disclose a method using the apparatus for exercising the lower back and upper legs, comprising the steps of:
The first preferred embodiment of the exercise apparatus (100) is illustrated by
Attached to the frame (110) adjacent to the body support (130) is a handle bar (150), preferably extendable and held in the desired place with a pin (155). For safety and ease of mounting the exercise apparatus (100), there is a support bar (140). The support bar (140) engages a catch (145) fixed to the pendulum (170). Thus the pendulum (170) is prevented from swinging forward (toward the handle bar (150)) as the user mounts the exercise apparatus (100). After the user has mounted, he can pull the support bar (140) forward, thus releasing the pendulum (170).
In
A pivot bar (160), which may be located at any location below the body support platform, rotatably retains the pendulum (170). However, for optimal implementation of the exercise method the pivot bar (160) should be located at a point below the location of the waist of the person using the apparatus (100) and at a vertical position near the body support platform (130). In this way, the length of pendulum (170) can be maximized.
Pendulum (170) is rotatably retained on the pivot bar (160) by one or more bearings (165), which may be a mere hole in pendulum (170), or preferably one or more ball bearings (165) fitted to the pivot bar (160). The pendulum (170) is then freely pivotable about the pivot bar (160) from one of its ends, as shown, in a substantially vertical plane.
The pendulum has three segments. Located on the first segment (175) of the pendulum (170), shown as vertical in
As shown in the figures, the pendulum (170) has a first bend angle (190) of approximately 90 degrees. The pendulum (170) has a second bend angle (195) of approximately 45 degrees. These angles define a first segment (175) and a second segment (200) of the pendulum (170). The third segment (205) proceeds from the second bend. A stop (210) is provided on the third segment for attaching conventional circular weights (not shown). These weights (and the weight of the pendulum (170) itself) provide the resistance against which the exercise is performed.
Because of the configuration of the pendulum (170) into the three segments (175, 200, and 205), its center of mass is offset from the vertical in a rearward direction. This means that the first segment (175) of the pendulum (170) will be urged forward of the vertical when the support bar (140) is released from the catch (145). The forward force thus exerted provides greater extension of the lumbar muscles. Also, this configuration allows a maximum range of motion of the pendulum greater than 90 degrees.
After the support bar (140) is released, the pendulum (170) will swing forward to approximately the position shown in
The user then lowers the legs, not by simply relaxing the muscles, but by lowering the legs using all the muscle groups of the upper legs and lower back. The legs are fully lowered to at least the vertical and then are pushed by the weight of the pendulum (170) forward past the vertical as shown in
The exercise is best performed as a smooth continuous action through the iterations. At all points in the exercise, the legs and correspondingly the affected muscles only push and are never pulled from one station to the next. The result is that hyperextension of muscles is avoided and the injured muscles of the lower back are permitted to receive an increased flow of blood. Additionally, for a user with an otherwise healthy lower back, the exercise builds up those lower back muscles thus avoiding future injury.
Increasing lower back strength is also critical to power lifting. The most common injuries to power lifters are those of the lower back. However, by regularly using the exercise disclosed, users who lift very heavy weights for sport or in competition, also known as power lifters, can train to greater weight levels while avoiding lower back injuries which are not only counter productive to a proper training program due to lost training time, but also could lead to permanent lower back injuries that are also common among power lifters.
Since those skilled in the art can modify the specific embodiments described above, I intend that the claims be interpreted to cover such modifications and equivalents.
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