Workout equipment

Abstract

Exercise machines for the leg muscles using separate machines for the biceps femoris and quadriceps and with the biceps femoris machines configured so that the muscle attachment below the knee is the “origin” and muscle attachment of the upper leg and hip bone is the “insertion”.

Description

This application is a continuation-in-part of U.S. patent application Ser. No. 10/211,553, filed Aug. 5, 2002.

The present invention relates in general to workout or exercise equipment, and in particular to such equipment which can be used for primarily exercising the leg mussels.

The need for physical exercise and conditioning is well know, especially in a culture where physical exertion is not emphasized as it once may have bee, and where the demand on athletes of al ages to compete at a high level is on the rise. An entire industry has developed for the purpose of affording people the opportunity to exercise so as to maintain health, appearance, and competitiveness. Gyms can be found in almost every city and town in the country. All of them have a variety of machine which one can use in their workouts. Some are quire complicated, and some are designed for special muscle groups. To understand the present invention better, a general review of the muscles of the human body should help.

All of the muscles on the exterior of the human body involved a muscle belly with a tendon on each end attaching each end to a respective bone. As the muscles flex and extend, they operate the bones as levers. The tendon that attaches one end of a muscle to a bone and remains fixed during flexion is termed the “origin” of the muscle and the tendon that attaches the other end of the muscle to a second bone and moves that bone during flexion is termed the “insertion” of the muscle.

The most common and easily recognized example of these relationships is the biceps brachii, located on the upper arm and attached at two points at the upper arm and scapula and a single lower point on the lower arm slightly past the elbow. The most common exercise for the biceps brachii is the barbell curl (which can be achieved by a dead weight or a machine). A barbell (dead weight) is lifted off the floor with both arms extended and with the body fully vertical, the barbell is curled to a position below the chin as the elbows are held at the sides of the body. The “origin” of the biceps brachii in this exercise si the two-point upper attachment (fixed) while the “insertion” is the lower attachment that moves the lower arm in a pivotal motion from full extension to full flexion to the position below the chin.

Another common exercise for the biceps brachii is the chinning exercise. The arms grasp an overhead bar and the body is pulled up until the chin is positioned over the bar at full flexion. In this exercise, the: “origin” and “insertion” are the reverse of the barbell curl exercise. The attachment to the lower arm is the “origin” (fixed) while the two-point attachment at the upper arm and scapula becomes the “insertion” and performs the movement of the entire body to the position where the chin is positioned over the bar.

By changing the position of muscle flexion based upon the “origin” and “insertion” of a muscle, the belly of the muscle becomes more developed and adaptable in strength and coordination.

There has been consideration development in the past fifty years of exercise machines using various body supports with pulleys and weights to position a user to isolate and exercise specific muscles in a multitude of varying positions.

The present invention is directed to a novel group of workout equipment and to a method to exercise the upper leg muscles, the biceps femoris, commonly referred to as the hamstrings, and also to the quadriceps. The biceps femoris is an upper leg muscle somewhat analogous to the biceps brachii on the upper arm. In a similar manner, the biceps femoris is attached between two points at the upper leg bone and hip bone and a single lower point on the lower leg slightly past the knee.

There are several exercise machines that are well known in which the attachment of the upper leg bone and hi bone attachment is the “origin” and the lower leg bone attachment is the “insertion”. For example, U.S. Pat. No. 5,499,962, discloses a sitting position in which the knees are fixed in front and the heels are imposed on a padded roller on a lever that raises a stack of weights as the biceps femoris is flexed to bring the heels close to the buttocks. U.S. Pat. No. 4,575,077, discloses a bench on which the user lies on his stomach with the knees fixed in front the heels, again, imposed on a padded roller on a lever that raises a stack of weights as the biceps femoris is flexed to bring the heels close to the buttocks.

Additional examples of machines of this type are the following U.S. Pat. Nos. 4,468,026; 4,725,056; 5,5058,884;5,094,450; 5,158,520; 5,334,120; 5,569,133; 5,628,714; 5,634,873; 5,711,749; 5,766,118; 6,059,698; 6,059,701; 6,106,444; 6,296,594; and 6,231,486.

None of the known equipment is specifically directed to exercising the upper leg muscles, such as the biceps femoris, and the quadriceps, and to do so in an efficient manner.

In view of the present state of the art, ti would desirable to have equipment available for use in specifically exercising the upper leg muscles, such as the biceps femoris and the provide a technique which one can utilize in using this equipment for efficiently exercising the upper leg muscles.

It is an object of the present invention to provide equipment and a technique for specifically exercising the upper leg muscles, such as the biceps femoris. The equipment and technique according to the present invention reverses the origin” and “insertion” of the biceps femoris, for example, by fixing the position of the heel to stabilized the lower leg and have the upper leg bone pull the entire upper body to bring the buttocks close to the heel. This results in the biceps femoris attachment to the lower leg bone being the “origin” and the attachment at the upper leg bone and hip bone being the “insertion”.

The muscles of the leg are extremely strong with power lifters having squatted with over 1000 pounds on the shoulders. However, the main muscle mass performing the squat is the quadriceps muscle on the front of the thigh bone. The biceps femoris on the rear of the thigh bone acts mainly as a stabilizing muscle during heavy squatting.

It is further object of the present invention to employ in the technique use of the part of the upper body weight as the resistance that the biceps femoris muscle moves from full extension to full flexion. This is accomplished by using levers and weights to support part of the upper body weight during movement from full extension to full flexion.

It is still a further object of the present invention to provide an exercise machine for the quadriceps muscle on the front of the legs. This machine will enable an elder person or a person beginning an exercise program or a person recovering from a leg injury to perform the squat exercise. It consists of a cable with a stack of weights combined with a pivotable seat on which the user can sit while squatting to a parallel position with the weight stack offsetting a portion of the user's body weight.

The following figures have been selected to illustrate the present invention in its various aspects.

FIG. 1 is the most simple apparatus for exercising the hamstrings with the muscle attachment below the knees functioning as the “origin”.

FIG. 2 is a second apparatus for exercising the hamstrings with the muscle attachment below the knees functioning as the “origin” using a pivotable lever with a varying moment arm.

FIG. 3 is a perspective view of the apparatus shown in FIG. 2.

FIG. 4 is a third apparatus for exercising the hamstrings with the muscle attachment below the knees functioning as the “origin” using a pivotable lever attached to a cable to raise and lower a stack of selected weights.

FIG. 5 is an apparatus for exercising the quadriceps muscles with a body weight offsetting seat that slides up and down on vertical rods.

FIGS. 6a and 6b show a stand along apparatus which be used with weights.

FIG. 7 is a side view illustrating an alternate embodiment of the invention.

In FIG. 1, a hamstring exercise using the muscle attachment of the biceps femoris below the knees as the “origin” can be performed with a minimum of equipment in a person's home. This exercise requires a door 1, and the equipment includes a knee pad 2, a set of anchor boots 3 with tips to slide under the door, and elastic band 4 with a door clamp 5 and a body harness 6 with a hook 7 for attachment to the elastic band. 4.

The harness 6 has as a minimum a torso strap 6a and two shoulder straps 6b and 6xc. The shoulder straps 6b and 6c are connected to the torso strap 6a in an overlap fashion or separate from each other. The torso strap 6a can be worn at the waist of the user or above. The two shoulder straps 6b and 6c and the torso strap 6a can each be provided with an adjustment capability, such as would result from the use of a typical buckle arrangement. The hook 7 is attached, preferably, to the torso strap 6a on the back of the harness.

The user attaches the elastic band 4 to the top of the door 1, by engaging the clamp 5 with the top of the door 1, and to the back of the harness 6, with any conventional clamp-type device, and kneels on the knee pad 2 with the tips of the anchor boots 3 inserted under the door in the position shown. The user then leans forward toward a horizontal position (full extension of the biceps femoris) and, from that position, returns his or her body to the original position by flexing the biceps femoris. The strain on the biceps femoris is reduced by the elastic band 4 assisting the hamstrings.

In FIGS. 2 and 3, the hamstring exercise apparatus comprises a strand along support base with a lever. A generally L:=shaped base 8 provides a raised padded knee pad 9, and on substantially the same plane, a pivot 10. The rear of the knee pad has a raised padded roller 11 under which a user can place their ankles. A lever 12 is attached to the pivot and has an upper padded area 13 that can contact a user's chest along with a handle bar 14 on each side. The lever 12 has a lower rear extending portion 12a on which different size weights 156 can be placed on horizontally extending pins 17. An upper portion 12b is adjustable in height, preferably telescopically, relative to the lower rear extending portion 12a, and is fastened in place once adjusted by a fastening means, preferably a set screw or locking pin and slow arrangement 15.

The user adjusts the chest pad 13 to a desired position and kneels on the pad 89 with his ankles secured under the roller 11, which can be single roller or spaced rollers, one for each ankle, and leans forward toward a horizontal position (full extension of the biceps femoris) and, from the at position, returns his body to the original position by flexing the biceps femoris. The strain on the biceps femoris is reduced by the weights on the lever.

In FIG. 4, the hamstring exercise apparatus comprises a stand along support base 18 with a lever and cable attached to a weight stack. The support base 18 has a raised portion 19 attached to one end with a padded knee pad 20 and a raised padded roller 21 on the rear portion of the knee pad 20. The roller 21 can be similarly configured to roller 11. The opposite end of the support base 18 has a raised framework 22 with descending guide rods 23 that contains selectorized weight stack of flat plates 24. A cable 25 is attached to the top of the weigh stack over two pulleys 26 and 27 at the top of the framework and down to a pulley 28 at the base of the framework. Extending out from the framework 22 on the same level of the knee pad is a horizontal support 289 for a pivot 30. The pivot supports a lever 31 comprising an upper adjustable portion 31a that has an upper padded area that can contact a user's chest along with a handle bar 33 on each side. The lower potion 31b of the lever on the other side of the pivot has a curved portion 34 of varying radius with an attachment to the cable 25 as it extends horizontally from pulley 28.

The upper portion 31a is adjustable in height similarly to the upper portion 12b and is fastened by a set screw or pin and slow arrangement 35, which is similar to the screw or pin and slow arrangement.

The user adjusts the chest pad 32 to a desired position and kneels on the pad 20 with his or her ankles secured under the roller 21 and leans forward toward a horizontal position (full extension of the biceps femoris) and, from the position, returns his or her body to the original position by flexing the biceps femoris. The strain on the biceps femoris is reduced by the weights supported on the cable.

FIG. 5 is an exercise apparatus for the front thigh muscles, the quadriceps (or quads), and comprises a stand along 4support based 36 with sliding pivotable seat and cable attached to a weight stack. The support base 36 has an upper horizontal and raised framework 37 supported on two cylindrical vertical bars 38. Descending from the upper framework 37 is a vertical plate 39 positioned between the vertical bars and attached to each vertical bar. A horizontal support 40 with circular holes is slidably mounted on the two cylindrical bars 38 with a pivotable padded seat 41 extending away from the base. The upper framework 37 on the vertical bars 38 has a cantilevered portion containing two pulleys 42 and 43 with a cable 44 attached to the top of selectorized weight stack 45 on guide rods 46. Vertical plate 39 contains holes 47 and a surrounding slide 47 with a sling hole with a pin 49 in the hole positioning the slide with respect to one of the vertical plate holes. The slide has a bar 50 on each side extending to an area adjacent and above the padded seat 41. The horizontal support 40 has an attachment point 51 directly below pulley 43 with the cable 44 attached thereto.

The user positions a stopper 52 on the vertical bar 38 so that the user does not go below a point at which the thighs are parallel to the floor. With the weight selected on the weight stack 45, the user backs up between and grasps the bars 50 with his buttocks contacting padded seat 41 with the legs fully extended. From this position, the user can slowly squat to the horizontal position, pause, and return to the legs fully extended position. This squat exercise can be performed with one or two legs, depending on the amount of weight selected on weight stack 45 to assist and offset the user's body weight.

The four apparatuses described above are very beneficial in rehabilitating and developing the hamstring and quad muscles of the legs of users who have not developed their muscles to a great degree. The biceps femoris muscle is exercised in a novel way by reversing the locations to the “origin” and “insertion” of the biceps femoris muscle that is not available in currently known machines.

FIGS. 6a and 6b illustrate a stand along apparatus 53 intended to be used without weights.

The stand along apparatus has a base structure 54 to which a pad 55 is attached by an conventional manner. At one end of the base structure 54 there extends a post 56 to which a slidable cushion 57 is mounted. The post 56 includes a plurality of spaced holes 58 for accommodating a pin 59 inserted therein for user in retaining the cushion 57 fixed onto the post 56. For this purpose a pin 59 would be inserted in the hole above and below the cushion 57. At its front end the base structure 55 has an opening 60 in which a balance bean 61 is slidable relative to the base structure 54.

In use, an individual kneels as show in FIG. 6b on the pad 55 with their ankles 62 engaging the cushion 57. The balance bean 61 has been withdrawn from the base structure 54 a sufficient extent to produce the reaction force R. The reaction force R differs depending on its extension from the base structure 54. The individual so positions extends forwardly in the direction M₁. This movement creates the action for A due to the engagement of the ankles 52 with the cushion 57, and also the reaction force $ due to the engagement of the balance beam 61 with the floor. The forces A-R creates a moment which counter-acts the moment created by the individuals body weight as the upper body moves in the direction M₁.

FIG. 7 illustrates the exercise machine of FIG. 2 with member 64 affixed thereto. Pin 66 supports weight 68 on member 64. Member 64 can include multiple spaced apart pins 66 to support a plurality of weights.

Having described my invention and the presently preferred embodiments thereof in such terms to enable one of ordinary skill in the art to practice the invention,

Claims

1. Workout equipment for exercising the leg muscles, comprising

a support base;

a lever pivotably connected to said support base, said lever having a plurality of spaced apart weight support rods connected at one end and a chest engagement means and handles at the other end; and

said support base includes a knee pad and means for mounting said ankle engaging means.