This application discloses an exercise apparatus for strengthening the hips. The invention has application in both the sports and health fields. For purposes of the disclosure of the invention in this application, the descriptions will be oriented towards the sports field, and particularly golf, but other activities such as baseball and tennis will also benefit. Golf is a sport in which the level of exertion and articulation of various body parts varies between extremes. When teeing off, and particularly when using a driver or other long-distance club, there is a direct correlation between the speed at which the clubhead strikes the ball and the distance the ball travels. All else being equal, the further a ball travels off of the tee, the better.
Clubhead speed is a function of two simultaneous motions. In the first motion, the club is swung by the player by gripping the club with the hands and taking the club back using the arms, “the backswing” or “takeaway”, and then swinging the club forward, the “downswing”, with the arms on an arc designed to place the center of the clubface squarely on the ball at impact. However, if the golfer stands still with the legs, hip and torso relatively motionless and swings only with the arms, the ball will travel only a relatively short distance. This may be a highly desirable technique for putting, chipping and pitching where finesse, feel and precision are more important than distance. However, this first motion is not calculated to maximize the distance the ball travels when struck.
So, a skilled golfer will strike the ball with a combination of body movements calculated to maximize the speed of the clubhead at impact with the ball. The second body movement involves use of the legs, hips and torso. In general, the hips act as a torsion spring and rotate to allow the upper body, particularly the shoulders, to assume during the backswing an approximate right angle to the direction of desired ball travel, while the legs flex and bend to some degree but remain generally aligned with the direction of desired ball travel.
Meanwhile, the arms have rotated rearwardly and upwardly so that at the top of the backswing the hands and the grip of the club are positioned well above the trailing shoulder. At the top of the backswing, the golfer reverses the direction of rotation in a controlled, accelerating manner, causing the body from the shoulders down through the hips to rotate back through the original address position and then continue further rotation until the shoulders have rotated perhaps as much as 180 degrees or more from the top of the backswing position.
At the same time as the body is rotating from the top of the backswing the arms are also moving downwardly so that the clubhead travels through the ball position and continues on to the “follow through.” The speed of the clubhead is the aggregate of the speed of the arm motion and the hip/torso motion, and the more rapidly both of these motions simultaneously occur the more potential energy is available to be transferred to the ball by the clubhead.
To maximize the potential for a clubhead speed that includes a rapid hip rotation, exercise directed towards strengthening the hips and associated musculature is desirable. The most desirable exercise is exercise that not only strengthens the musculature but at the same time trains the muscles to expect resistance when being asked to do work. Within the golf swing context, if the muscle expects for there to be substantially more resistance than actually occurs, the muscle will naturally exert more force, increasing torso rotation speed which is added to the arm swing speed to result in an increased club head speed when the ball is struck.
Golf instructors refer to the proper sequence of body motions as the “kinematic sequence.” The proper sequence, as demonstrated by professional golfers and skilled amateurs, begins from the ground up: pelvis/hips, followed by thorax, arms, hands, and finally clubhead. Typically, unskilled amateur golfers reverse this sequence.
In this application the term “hip musculature” is used to mean the Gluteus Medius, Abdominal External Oblique, Adductur longus, Brevus and Magnus, Rectus Abdominis and Tensor Fasciae Latae muscles, although other muscles will be affected, as well.
Therefore, it is an object of the invention to provide an exercise and training apparatus that allows a user to strengthen the hips and associated musculature.
It is another object of the invention to provide an exercise and training apparatus that allows the user to train the hips to expect resistance to hip rotation during a golf swing.
It is another object of this invention to aid in the development of a golf swing that emulates a proper kinematic sequence from the ground up.
It is another object of the invention to provide an exercise and training apparatus that allows the user to train indoors or outdoors.
It is another object of the invention to provide an exercise and training apparatus that allows the user to exercise and train the hips in both directions of rotation.
It is another object of the invention to provide an exercise and training apparatus that allows a left hand and a right hand person to use the same device in the same manner.
It is another object of the invention to strengthen the hips and lower body for sports involving rotational movement of the body such as hitting, swinging, and kicking, for example, activities such as golf, baseball, football, tennis, soccer and boxing.
These and other objects and advantages are achieved by providing an exercise apparatus for strengthening the hips and including a belt adapted for being tightly secured around the hip area of a user, a resistance band attached to the belt at a position wherein the resistance band resides proximate the hips, and an anchor for attaching a distal end of the resistance band to a support generally at a level with the hips with anchoring point at level of iliac crest. Rotating the hips applies resistance to the hips providing strengthening to the hips.
According to another aspect of the invention, the belt is constructed of fabric webbing and includes complementary touch fasteners, especially hook and loop attached to the belt for securing the belt to the user.
According to another aspect of the invention, at least one attachment device is provided for attaching the resistance band to the belt.
According to another aspect of the invention, the resistance band comprises an elastic band.
According to another aspect of the invention, a securing strap is attached by a proximal end to a distal end of the resistance tubing for being trapped between a door and door frame for use, the anchor being attached to a distal end of the securing strap.
According to another aspect of the invention, the belt includes a length of hook material extending beyond one end of the webbing, and an opposite end of the belt includes at least one ring for receiving the length of hook material and securing the belt around the hips of the user.
According to another aspect of the invention, at least one ring is attached to the belt and is adapted for receiving and being attached to a proximal end of the resistant band.
According to another aspect of the invention, first and second rings are attached to the belt at spaced apart positions and are adapted for receiving and being attached to a proximal end of the resistant band.
According to another aspect of the invention, a single ring is attached to the belt in a central position on the belt and is adapted for receiving and being attached to a proximal end of the resistant band for use in both a first and a second direction of rotation of the user.
According to another aspect of the invention, a single ring is attached to the belt and is adapted for receiving and being attached to a proximal end of the resistant band.
According to another aspect of the invention, a high-friction layer is applied to an inner surface of the belt.
According to another aspect of the invention, an exercise apparatus for strengthening the hips is provided, and includes a belt constructed of webbing and touch fasteners carried by the webbing adapted for tightly securing the belt around the hip area of a user. At least one attachment ring is secured to the belt and an elastic resistance band is adapted for being attached to the attachment ring of the belt at a position wherein the resistance band resides proximate the hips. An anchor is provided having a width sufficient for attaching a distal end of the resistance band to a support generally at a level with the hips.
According to another aspect of the invention, a wear-resistant strap is attached to a distal end of the resistance band and the anchor for resisting wear from being trapped between two surfaces of a support.
According to another aspect of the invention, an exercise apparatus for strengthening the hips is provided and includes a belt constructed of webbing having a high-friction layer applied to an inner surface of the belt. Touch fasteners, such as hook and loop, are carried by the webbing and adapted for tightly securing the belt around the hip area of a user and at least one attachment ring is secured to the belt. An elastic resistance band is provided and is adapted for being attached to the attachment ring of the belt at a position wherein the resistance band resides proximate the hips. An anchor is provided having a width sufficient for attaching a distal end of the resistance band to a support generally at a level with the hips. A wear-resistant strap is attached to a distal end of the resistance band and the anchor for resisting wear from being trapped between two surfaces of a support.
According to another aspect of the invention, a method of strengthening the hips is disclosed that includes the steps of providing a belt adapted for being tightly secured around the hip area of a user, a resistance band having a first predetermined level of resistance and adapted to be attached to the belt at a position wherein the resistance band resides proximate the hip area of the user, and an anchor for attaching a distal end of the resistance band to a support generally at a level with the hips. The belt is secured around a user's hips and the anchor is attached to a support. The belt is moved to a position placing the resistance band under tension. The hips are rotated repeatedly over a period of time and at intervals sufficient to achieve a strengthening training effect. When the hips have reached a level of greater strength, the resistance band is removed from attachment with the belt and a resistance band having a second, greater, level of resistance is attached to the belt. The hips are rotated repeatedly over a period of time and at intervals sufficient to achieve a strengthening training effect using the resistance band having the second, greater, level of resistance.
Referring now to the drawings, an exercise and training apparatus 10 for strengthening and training the hips and associated musculature is shown. The apparatus 10 is formed of a length of heavy webbing forming a belt 12. Loop material 14 is sewn or otherwise attached to the surface of the belt 12 along at least some of the length of the webbing on outer surface, as shown. Rings 16, 18 are sewn to the belt 12 with another length of webbing 20.
On the other end of the belt 12 the loop material 14 extends beyond the end of the belt 12. A length of complementary hook material 22 is attached to the free end of the loop material 14. By passing the end of the hook material 22 through one of the rings 16 or 18 and then doubling back the hook material 22 onto the loop material 14, the hooks and loops interlock and the apparatus 10 can be secured around the hips of the user. See
Referring back to
The resistance band 30 has a carabiner 32 on one end permitting the resistance band 30 to be releasably attached to the belt 12 by locking into the D-ring 26, as shown in
By rotating the hip closest to the door away from the door, the hip and associated musculature is exercised as desired. See
The apparatus 10 may be attached to any suitable support, although trapping the resistance band 30 between a door and door frame is ideal, since the range of adjustment is essentially infinite within the height of the door. This permits individuals of differing heights to easily adjust the height as needed. Maximum effectiveness will be achieved with the resistance band extending outwardly from the belt at the approximate height of the belt above floor level, since this position most closely corresponds to the pivoting motion of the hips of the user when swinging a golf club and thus provides training resistance optimized to achieve the desired training results.
To exercise the hip in the opposite direction, the carabiner 32 is opened, the resistance band 30 removed from the D-ring 26, moved to the D-ring 28 and attached in the same manner. See
As shown in
Variations of the design elements described above can be made within the scope of the invention. For example, as shown in
Attachment methods other than by use of touch fasteners, for example, a conventional leather, plastic or rubber belt with spaced apart holes adapted to receive the pin of a pin-type buckle, claw buckle, friction buckle and others may be suitable.
When training, resistance bands 30 with incrementally increasing levels of resistance may substituted as the exercise strengthens the hips. It has been found that 20 pounds (9 kilograms) may be a suitable weight at the commencement of a training program, with the weight increasing by 10 pound (4.5 kilogram) or 20 pound (9 kilogram) increments up to perhaps 100 pounds (45 kilograms) or greater by attaching multiple resistance bands.
An exercise apparatus for strengthening the hips according to the invention has been described with reference to specific embodiments and examples. Various details of the invention may be changed without departing from the scope of the invention. Furthermore, the foregoing description of the preferred embodiments of the invention and best mode for practicing the invention are provided for the purpose of illustration only and not for the purpose of limitation, the invention being defined by the claims.