Abstract:
A Mobil Variable Hydraulic Resistance Exerciser which allows a user to be in motion throughout the complete exercise movement. This exercises the muscles of the feet, ankles, knees, hips, spine, legs and trunk of the body by providing a constant resistance to the user while in motion. A variable hydraulic reservoir is used to regulate the amount of resistance applied thru the Mobil Exerciser.

Description:
BACKGROUND OF THE INVENTION 
     Contact sports and similar activities subject the feet, ankles, knees, hips and spine to great stress and frequent injury. Most exercises are accomplished while standing or sitting in one spot and the user moves the weights or stretches something to work the desired muscle groups. The existing Threadmill Machines only allow the user to walk in place with no load imposed on the user. The best way to exercise is by walking and using all of the muscle groups at the same time under load. The mobil exercising machine accomplishes this by allowing the body to move under a controlled resistant load, thereby strengthing the joint muscles. Muscle strength around joints enhance the joints stability and ability to withstand stress. This is particularly important in contact sports where a high incidence of lower body injuries occur. 
     SUMMARY OF THE INVENTION 
     The Mobil Variable Resistance Exerciser of the present invention comprises a track mounted wheeled sled which carries a controlled hydraulic resistance system which is moved along a track by body strength and motion. The mobil exerciser provides a constant resistance to muscle action and muscle groups. This regulation of the amount of resistance applied permits the user to achieve a training effect as well as to provide the means of rehabilitating an injury to the lower body. The Mobil Variable Resistance Exerciser should prove to be very beneficial for rehabilitation of the feet, ankles, knees and hips after an injury or surgery. Muscle pulls and sprains should also respond very well to this therapy. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1--Shows an overall picture of what the track mounted exerciser looks like. 
     FIG. 2--The top view shows all surfaces of the interior and exterior planes of this embodiment from above. 
     FIG. 3--Sectional view &#34;3--3&#34; is a view of the interior construction of this embodiment of a Mobil Variable Resistance Exerciser and how it is mounted on a track. 
     FIG. 4--This is a view of the handle or extension, called a Power Arm. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     Keeping the design of the exerciser as simple as possible, the preferred embodiment of the Variable Hydraulic Resistant Exerciser herein illustrated consists of an immobile Track, 6, with a moveable sled mounted on it using Plastic Wheels &amp; Bearings, 5, for mobility and a hydraulic braking system for creating resistance against the Track, 6, (FIG. 1). The sled is moved along the Track, 6, by the user&#39;s own body strength pushing on a Power Arm, 9. The Power Arm, 9, is a 0.250&#34;×2.0&#34;×2.0&#34; square steel tubing 4 feet in length with two 0.250&#34;×1.0&#34;×5.0&#34; steel pieces welded in place,(FIG. 4). This assembly is slid into two steel Retainers, 8, located on the top of the sled and is perpendicular to the steel Track, 6. The Power Arm, 9, being perpendicular to the Track, 6, allows the user to push against the Power Arm, 9, by walking. This moves the sled down the Track, 6, at a preselected resistant rate that is measured in Pounds Per Square Inch (P.S.I.) by the Meter, 4, installed in the Hydraulic Lines, 7. The Track, 6, is a 0.3750&#34;×3.0&#34;×3.0&#34; stainless steel angle iron, 20 feet in length, and can be assembled with as many 20 foot lengths as desirable. The lengths of track are put together in the normal manner of welding or with bolts. The Track, 6, is mounted 42&#34; high and can be used for inside or outside exercising using any normal method of setup. 
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     The sled is made by using 0.3750&#34; steel, constructed into a 6&#34;×6&#34;×18&#34; U-shaped Chassis, 1, with machined out holes for the mounting of the Hydraulic Calipher Brake, 2, and Plastic Wheels &amp; Bearings, 5. The Hydraulic Calipher Brake, 2, is mounted onto the Chassis, 1, using 0.6250&#34; bolts. The Plastic Wheels &amp; Bearing, 5, are mounted onto the Chassis, 1, using steel dowel shoulder screws. All hardware is tighten in a well known manner. The Plastic Wheels, 5, are positioned to support the sled rigidly against the Track, 6, but still allows it to move easily with a minimum amount of user effort. (See FIGS. 1 thru 3). The Variable Hydraulic System uses opposing hydraulic pistons capable of exerting pressure on linings, pads or sets of pads against the Track, 6, creating a resistant to movement to be overcome by the user. The method of choice for creating the braking part of the Variable Hydraulic Braking System is an existing Calipher Brake, 2, available in the market place. In this preferred embodiment, the Calipher Brake, 2, mounted to the Chassis, 1, is connected to the Meter, 4, mounted on the top of the sled, thru a Hydraulic Line, 7, to the Hydraulic Reservoir, 3, also mounted on the top of the sled. Because of the simplicity of this design, any embodiment can be created using these parts. The embodiment can be fixed or mobil depending on the use it is designed for. The only function of the Hydraulic Fluid in the system is to transmit pressure to the Calipher Brake, 2. There isn&#39;t any resistance to the fluid movement in this system. By varying the pressure generated by the Hydraulic Reservoir, 3, a variable resistant load to movement is created. This is done with a Adjusting Screw, 10, that can be screwed in and out of the Hydraulic Reservoir, 3, changing the pressure exerted on the Calipher Braking System, 2, which shows up as a Pounds Per Square Inch (P.S.I.) reading on the Meter, 4, and controls the resistant load to be overcome by the users body strength as the sled is moved down the Track, 6, by walking. 
     It is thought that the invention will be understood from the foregoing description and it will be apparent that various changes may be made in the form, arrangement and construction of the various parts described without departing from the spirit and scope of the invention. Accordingly, the aforedescribed embodiment is intended for the purpose of illustration and not as a limitation.