JP2001517134A - Exercise treadmill - Google Patents

Abstract

SUMMARY A curved deck treadmill (10) includes a support frame (12) having a first side (20) and a second opposing side (22) for supporting a deck (56) therebetween. It is disclosed as. The deck has a front end (58), a rear end (60), and an intermediate portion (62) disposed between the front and rear ends. The intermediate section is preferably substantially arcuate, with the main part of the intermediate section being dimensionally lower in length relation to the first and second ends of the deck for operation. It is arranged as possible. Further, the roller assembly (14) is preferably provided as including a first roller (78) and a second roller (86). The first roller is rotatably disposed adjacent the first end of the deck between the first side and the second side of the support frame. Similarly, the second roller is preferably disposed between the first and second sides of the support frame and adjacent the second end of the deck. In operation, the endless belt (16) is rotatably mounted on the roller assembly (14) and is operably disposed on the deck (56) and is structurally supported; It provides an arc, a movable surface on which the user moves.

Description

DETAILED DESCRIPTION OF THE INVENTION Title of invention Exercise treadmill Field of the invention The present invention relates to exercise treadmills and, more particularly, to a novel system and method for providing a curved deck treadmill. Background of the Invention As a general effort to improve health, many people exercise regularly on a treadmill by walking, jogging, or running along a rotating surface. Although exercise treadmills have proven useful, conventional exercise treadmills have several disadvantages. Traditionally, conventional exercise treadmills have an endless belt rotatably disposed with respect to a plurality of anti-friction rollers rigidly fixed to a frame. A major disadvantage of such conventional exercise treadmills is that when trying to exercise on the treadmill, unpleasant vibration sensations and unpleasant feelings are commonly received by the user. In addition, if there is not enough frictional resistance to rotation of the free-rotating rollers rotatably engaging the belt, a user moving on the treadmill will not have control of the anti-friction rollers engaging the belt. Damage can occur as a result of rotation. In particular, if the rollers that are supported to the endless chain are easily movable, the user may lose the balance and balance of the user, and may fall from the exercise treadmill. There is a possibility of injury. To reduce the potential danger of falling from conventional exercise treadmills with anti-friction, free-moving rollers, those skilled in the art have developed rollers that provide frictional resistance to roller and belt rotation. . However, in conventional exercise treadmills having frictional resistance to the rollers, difficulties have been found, particularly in maintaining a sufficient balance between excessive and insufficient resistance. For example, if the roller cannot store enough inertial energy to overcome the established frictional resistance, the treadmill roller will be supported and disposed relative to the roller after it begins to rotate. The belt will not have a continuous tendency in rotational movement. In this regard, conventional exercise treadmills need to balance these competing factors and provide frictional resistance that allows for smooth and continuous movement of the belt, and in doing so, A series of stops and starts that simultaneously cause a pulling motion in the movement of the endless belt is prevented. To address these problems associated with frictional roller assemblies, those skilled in the art have developed an exercise treadmill that includes a motor disposed for the rollers and a means for controlling the rotational speed of the endless belt at a constant rate. I have. Traditional exercise treadmills with motors that drive roller and belt rotation speeds eliminate the need to balance resistance with the inertial energy required by traditional treadmills with frictional roller assemblies It is assumed that. A significant drawback in conventional exercise treadmills driven by a motor is the positioning or positioning of the motor relative to the roller assembly or belt. The motor is generally disposed on the front, rear, or either side of the endless belt. However, the arrangement of motors in conventional treadmills is intended to increase the walking surface provided by the useful space that could be allocated for mounting other components of the treadmill, or the dimensional dimensions of the belt. Less useful space to do. In a conventional treadmill having a movable surface that is flat, horizontal, or slightly inclined, an endless belt that is supported and supported on rollers is configured to absorb the entire impact force of the user's foot that is repeatedly applied. It has become. The impact forces maintained by the endless belt create a braking effect that can cause a temporary stop in the rotational movement of the belt. Unwanted stopping of the belt changes the continuity of the user's athletic routine and constitutes a further pulling action with each step of the user. The greater the force and pressure associated with the impact of the user's foot on a flat, level surface, the greater the braking effect on the treadmill. In this context, when a heavy person runs on a horizontal belt supported by rollers engaged with the frame, the rotational movement of the belt is less than when a lighter person walks on the same treadmill. It is easy to cause a stable braking effect on the vehicle. Similarly, conventional exercise treadmills have been modified to provide a springy and elastic walking surface. However, conventional treadmills and treadmills with flat surfaces encourage the formation of a vertical lifting effect as the user moves up and down relative to the treadmill. This continued lifting action makes it almost impossible for the user to reach and maintain a fixed position on the treadmill belt surface. In addition, the support structure disposed on the rotating belt forms a springy and elastic walking surface, so that the user is walking in the water rather than walking, jogging, or running. I was supposed to receive such a feeling. In tandem with these conventional treadmills, it was nearly impossible to adequately simulate natural walking, jogging and running. Another drawback of conventional exercise treadmills is that the user tends to fall from the rear end of the treadmill, causing injury. Various attempts have been made to prevent a user from dropping from the rear end of an endless belt or a treadmill frame. For example, treadmills have been developed that include a belt that connects the user to the treadmill. However, connecting the user to the treadmill is as dangerous as falling from behind the treadmill. Also, some conventional exercise treadmills include an upright handle that allows a user to grasp during exercise. While this is somewhat beneficial to maintaining the user's balance on the rotating endless belt, having to grasp the fixed handle means that the user's natural body movements during exercise Will be hindered. While these obstructions are feasible when the user tries to walk, when the user starts jogging or running, holding the handle and maintaining the center of the treadmill is a natural part of the human body. It interferes with movement and abandons the physical effects of exercise routines. Another disadvantage of conventional exercise treadmills is that they do not reduce the physical impact on joints and muscles when the user performs an exercise routine. In this context, treadmills, which can reduce the physical impact on the user's knees and hips, have several barriers that cannot be solved by conventional devices, especially maneuvers in rehabilitation exercises Can be solved in light of providing an appropriate role. Efforts to solve the above drawbacks are ongoing, in keeping with what has been described above or what has been described by various prior patents and other disclosures. While traditional treadmills may seem appropriate for their purpose, they are more efficient, safer, reduce the physical impact on the user's joints and muscles, and simulate the natural physical behavior of an exercising user. From this point of view, there are still many issues that need to be resolved. In this regard, the present invention provides a novel curved deck treadmill that solves some deficiencies in conventional exercise treadmills and solves some problems that conventional treadmills cannot solve. Is what you do. Disclosure of the invention In light of the foregoing, it is a first object of the present invention to provide a novel curved deck treadmill that provides a movable surface on which a user can move in a structurally supported arcuate shape. is there. Another object of the present invention is to provide a first end and a second end disposed substantially parallel in a dimensional relationship, wherein the first end and the second end are lower in a dimensional relationship with respect to the first and second ends. To provide a curved deck treadmill including a deck having a substantially arcuate and elongated shape disposed therebetween and having an intermediate portion disposed therebetween. Another object of the present invention is to provide a curved deck treadmill in which the area of the upper surface of the belt can be maximized by the efficient arrangement of the driving means. It is another object of the present invention to provide a curved deck treadmill that substantially prevents a user from falling off the rear end of the treadmill, without interfering with the natural movement of the exercising user. The user can be maintained at the center of the upper surface of the treadmill. In addition, another object of the present invention is to provide a curved deck treadmill that can provide significant walking, jogging, and running comfort to the physiology of the user, providing a longer stride with more freedom. To promote the upper surface to provide supportably. Furthermore, an object of the present invention is to provide a curved deck treadmill capable of reducing a physical impact on a user's joints and muscles (for example, knees and hips), and to provide an effective device having a rehabilitation function. It is in. Similarly, it is an object of the present invention to provide a curved deck treadmill that can provide continuous, smooth motion. In accordance with these and other objects, in accordance with the invention embodied and broadly described, the curved deck treadmill, in one embodiment of the present invention, comprises a first deck having a deck supported therebetween. It is disclosed as including a support frame having a second opposing side. The middle portion of the deck is preferably substantially arcuate, with the major portion of the middle portion being dimensionally lower in length relation to the first and second ends of the deck. Operable. Further, the roller assembly is preferably provided as including first and second rollers. The first roller is rotatably disposed adjacent the first end of the deck between the first side and the second side of the support frame. Correspondingly similar in construction and design, the second roller is preferably disposed adjacent the second end of the deck between the first and second sides of the support frame. In operation, the endless belt is rotatably mounted on the roller assembly and operatively disposed on the deck, is structurally supported, and has an arcuate shape on which the user moves. Offers a movable surface. BRIEF DESCRIPTION OF THE FIGURES The foregoing aspects and many advantages of the present invention can be better understood with reference to the following detailed description when taken in conjunction with the accompanying drawings. The foregoing and other objects and aspects of the present invention can be more fully understood from the following description and appended claims, taken in conjunction with the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The drawings described below are merely exemplary embodiments of the present invention and are not to be considered as limiting the scope of the present invention. This will be described in detail by using. FIG. 1 is a perspective view showing one embodiment of a curved deck treadmill. FIG. 2 is a side elevation view of the embodiment shown in FIG. 1, exposing one preferred arrangement of internal components of the present invention. FIG. 3 is a cutaway view of the embodiment of FIG. FIG. 4 is a side elevational view showing a preferred embodiment of one side of a support frame according to one preferred embodiment of the present invention. FIG. 5 is an exploded partial cross-sectional view of the embodiment of FIG. 2, taken along line 5-5 of FIG. FIG. 6 is a side elevational view similar to FIG. 2, showing another embodiment of the present invention. FIG. 7 is a side elevational view similar to FIGS. 2 and 6, showing still another embodiment of the present invention. FIG. 8 is an enlarged partial sectional view similar to FIG. 5, showing another preferred embodiment of the present invention. FIG. 9A is a view similar to FIG. 8 and shows yet another preferred embodiment of the present invention. FIG. 9B is an enlarged partial cross-sectional view of the preferred embodiment of the present invention in FIG. 9A, taken along line 9B-9B in FIG. 10A and 10B are views similar to FIGS. 9A and 9B, and show another preferred embodiment of the present invention. FIG. 11 is a view similar to FIG. 9A, showing another preferred embodiment of the present invention. FIG. 12 is a plan sectional view taken along line 12-12 in FIG. FIG. 13 is a view similar to FIG. 11, showing another preferred embodiment of the present invention. Detailed Description of the Preferred Embodiment The components of the present invention, generally depicted in the drawings, It can be easily understood that it is arranged or designed as a wide variety of other various configurations. Therefore, The following detailed description of embodiments of the system and system of the present invention, as represented in FIGS. 1-5, is not intended to limit the scope of the claimed invention. They are merely representative of preferred embodiments of the present invention. Preferred embodiments of the present invention are understood by reference numerals in the drawings, In the drawings, similar members are denoted by similar reference numerals. One preferred embodiment of the present invention, designated as reference 10, Figure 1, This is better illustrated in FIG. As shown, The curved deck treadmill 10 includes a support frame 12, The support frame 12 has a second side 22 facing the first side 20, And a deck 56 that is supported between them. In a preferred configuration, The deck 56 has a first end 58, Second end 60, And an intermediate portion 62 disposed therebetween. The intermediate portion 62 of the deck 56 preferably has an arcuate shape, The significant part of the intermediate part 62 is A first end 58 of the deck 56, It is operatively disposed dimensionally lower in the length relationship with respect to the second end 60. further, The roller assembly 14 Preferably, First roller 78, It is provided so as to include the second roller 86. The first roller 78 is provided between the first side portion 20 and the second side portion 22 of the support frame 12. It is arranged rotatably close to the first end 58 of the deck 56. Correspondingly in configuration and design, The second roller 86 is preferably located between the first side 20 and the second side 22 of the support frame 12. It is arranged close to the second end 60 of the deck 56. In the preferred operation, The belt 16 is provided rotatably with respect to the roller assembly 14, It is arranged operably with respect to the deck 56, It is intended to provide a structurally supported arcuate movable surface on which a user can move. As further described in FIGS. 1 and 2, At least one crossbar 130 is structurally supported with respect to support frame 12. Preferably, The crossbar 130 functionally supports the support frame 12, Deck 56, A console 132 is supported substantially above the surface of the belt 16. The crossbar 130 has a substantially U shape, It is provided for the support frame 12. further, The crossbar 130 has a pivot engagement 140, The pivot engagement 140 is provided on the opposite side surface 126 of the crossbar 130, 128, one or more handles 134, 144 constitutes a means for rotatably engaging. Structurally, The support frame 12 is preferably a first side 20, Has an opposing second side 22; With these combinations, It provides a means for structurally supporting the treadmill 10 with the curved deck and the various components of the treadmill. In one preferred embodiment of the present invention, The support frame 12 is preferably Substantially rugged enough to provide sufficient structural integrity to support the curved deck treadmill 10 and a user exercising thereon; It is formed from a robust material. For example, The support frame 12 Many organic materials, Any synthetic or processed material, These are often Plasticizer, Autoxidizer, Bulking agent, dye, UV stabilizer, A high-molecular-weight thermoplastic polymer or thermosetting polymer with or without additives such as additives, Formation, Molding, Extrusion, Pull out, Foamed or laminated, Consists of However, In keeping with the spirit and scope of the present invention, metal, alloy, Fiber glass, wood, ceramic, Such as graphite or other composite or polymeric materials, One skilled in the art will readily appreciate that a wide variety of other suitable materials are possible. Preferably, The support frame 12 Is configured to have a first side 20 disposed substantially parallel to the opposing second side 22; In the meantime, it provides a generally longitudinal alignment. In one preferred embodiment of the present invention, Because the first side 20 and the second side 22 of the support frame 12 are configured to have relatively substantially comparable structures and aspects, Only the first side 20 is operatively disclosed in detail. here, Any configuration changes that exist between the first side 20 and the second opposing side 22 Given these changes, Further disclosed. Figure 1, In FIG. The first side portion 20 of the support frame 12 includes a first end portion 24, It has an opposing second end 26. First end 24, The second end 26 is Preferably, A first end 58 of the deck 56, It is arranged so as to correspond to the second end 60. Figure 2 As shown in FIG. A first journal housing 28 is formed proximate the first end 24 of the first side 20 of the support frame 12. Preferably, First journal housing 28 has an opening adapted to easily receive at least one journal end (not shown) of first roller 78. Similarly, The second journal housing 34 is disposed substantially adjacent to the second end 26 of the first side 20 of the support frame 12, and It has an opening adapted to easily receive at least one journal end (not shown) of the second roller 86. In the preferred design, The first end 24 of the first side 20 of the support frame 12, A journal housing 28 formed at the second end 26, 34 is First roller 78, The second roller 86 is formed as an opening constituting a means for facilitating the introduction of the end of the journal. Preferably, The opening has a long groove, First roller 78, The journal end of the second roller 86 can be slidably adjusted. Journal housing 28 of support frame 12, A first roller 78 in each of the long grooves formed in By introducing the journal end of the second roller 86, The horizontal arrangement of the belt 16 First roller 78, It can be adjusted in relation to the arrangement of the second roller 86. In one preferred embodiment of the present invention, Figure 2 4, As shown in 5, A third journal housing 36 is formed on the first side 20 of the support frame 12. Preferably, A third journal housing is formed between the first journal housing 28 and the second journal housing 34 on the first side 20 of the support frame 12, The third journal housing 36 is the first, Second journal housing 28, 24 are arranged dimensionally below the substantially horizontal arrangement. first, Second journal housing 28, To match 34 The third journal housing 36 is preferably As shown in FIG. The third roller 88 is formed to have an opening having an inner periphery sufficient to introduce at least one journal end 90. Preferably, The journal end 90 of the third roller 88 is The third journal housing 36 is formed in a substantially cylindrical shape having an outer dimension smaller than the inner diameter of the opening formed in the third journal housing 36. However, Journal housing 28, 34, 36 and the internal openings formed therein, Other shapes, Size, The form is first, second, Third roller 78, 86, It is possible that it is possible to provide a means for introducing at least one journal end of each of the 88 therein. It will be readily recognized by those skilled in the art. In one preferred embodiment of the present invention, A journal housing 28 formed on the first side 20 of the support frame 12, 34, 36 is The journal housing formed on the second side portion 22 of the support frame 12 is operably disposed concentrically with the journal housing. The first of the support frames 12, Second side 20, 22, both journal housings 28, 34, The configuration of 36 is Preferably, The corresponding roller 78, 86, Providing the introduction and retention of 88 journal ends; It facilitates the means for rotating the roller according to a substantially fixed axis. A first side 20 of the support frame 12, The journal housing 28 on the second side 22, 34, 36 preferably have corresponding rollers 78, 86, Accepts 88 journal ends, For those skilled in the art, Other mechanisms may be configured according to the principles of the disclosed invention to achieve the desired effects of the present invention, It is easy to adopt other relative arrangements of the corresponding rollers. Therefore, The examples merely illustrate the principles of the invention, The present invention is not limited to a specific configuration for achieving these principles. Figure 1, Returning to FIG. Roller 78, 86, The belt 16 operably disposed with respect to 88, It is preferably formed to have an endless configuration formed from a sufficiently strong member. For example, Belt 16 is formed from a flexible canvas or endless sheet of rubber impregnated material. Alternatively, the belt 16 is made of a thin flat band of steel or a polymer or composite material having sufficient holding power. For those skilled in the art, of course, The belt 16 It can be formed from a wide variety of suitable materials to meet the spirit and scope of the present invention. In one preferred embodiment, The belt 16 First roller 78, Second roller 86, It is disposed rotatably with respect to the third roller 88, Each roller 78, 86, 88 is preferably As disclosed above, In each preferred position, The support frame 12 is provided so as to correspond structurally. The tension of the belt 16 is Journal housing 28, A first, which is disposed to be freely engageable with the corresponding long groove of 34; Second roller 78, Tension easily according to the position of 86, Or you can relax it. further, Conventional fixing members (not shown) Journal housing 28 of support frame 12, 34, For each opening or long groove formed in 36, In a fixed or adjustable positional relationship, Journal End 78, 86, It is used to provide a means for disposing 88. Returning to the mode of the support frame 12, The deck slot 32 is, as shown in FIG. The first side portion 20 is formed so as to substantially extend to the longitudinal length. Preferably, The deck slot 32 A deck 56 is disposed so as to be freely inserted therein. In one preferred embodiment of the present invention, The deck slot 32 has a substantially curved shape, It substantially corresponds in size and shape to the arcuate shape of the intermediate portion 62 of the deck 56. Similarly, Preferably, The deck slot 32 At least one longitudinal side of the deck 56, Formed to have dimensions and depth sufficient to retain an insertable engagement therein; The possible deflection of the deck 56 due to the weight of the user, The deck 56 is not retreated from the deck slot 32. on the other hand, Opposing longitudinal sides of the deck 56 Preferably, The support frame 12 is disposed in a deck slot 32 formed in the second side portion 22. In a preferred configuration, The deck 56 is substantially sturdy, It is formed from a rigid member, It has sufficient structural integrity to adequately support the weight of a user exercising on curved deck treadmill 10. In one preferred embodiment, Deck 56 is preferably By impregnating the wax material 56, It is configured to include a wooden laminate with a top surface 66 that provides a means of reducing the coefficient of friction acting thereon. In another embodiment, Deck 56 Many organic components, Any synthetic material or processed material, In many cases, Plasticizer, Autoxidizer, Bulking agent, dye, UV stabilizer, A high-molecular-weight thermoplastic polymer or thermosetting polymer with or without additives such as additives, Formation, Molding, Extrusion, Pull out, Foamed or laminated, Consists of However, In keeping with the spirit and scope of the present invention, metal, alloy, Fiber glass, wood, ceramic, Such as graphite or other composite or polymeric materials, Those of skill in the art will readily appreciate that a wide variety of other suitable materials are possible. As shown in FIG. The first side 20 of the support frame 12 includes one or more rib seats 30 disposed adjacent the deck slots 32. The rib seat 30 is Preferably, The support rib 54 is formed with sufficient internal surface area to fit at least one end of the support rib 54 therein. As shown in FIG. One or more support ribs 54 The first of the support frames 12, Second side 20, It extends substantially between two and two dimensions. In a preferred embodiment, The support ribs 54 provide a means for structurally supporting the deck 56. Similarly, The rib seat 30 is Preferably, When the support rib 54 is introduced therein, Deck 56 The first of the support frames 12, Second side 20, 22 are easily disposed in corresponding deck slots 32 formed in As structurally supported by supporting ribs 54 disposed in connection therewith, It is formed. In one preferred embodiment of the invention, The support rib 54 Strong enough to provide adequate structural support for the deck 56, It is formed from a rigid material. For example, The support rib 54 It is formed from a rigid metal or alloy. However, In keeping with the spirit and scope of the present invention, Fiber glass, ceramic, Graphite, Any many organic materials, Synthetic materials, Like processing materials, A wide variety of other suitable materials, These are often For example, a plasticizer, Autoxidizer, Bulking agent, dye, UV stabilizer, A thermoplastic polymer or a thermosetting polymer having a high molecular weight with or without additives such as additives, Formation, Molding, Extrusion, Pull out, It is easily understood by those skilled in the art that foamed or laminated materials are possible. In the current design, The support rib 54 A first side 20 of the support frame 12, It is formed to have a generally elongate shape so that it can be installed in a corresponding rib seat 30 spaced apart at the opposing second side portion 22. Therefore, The rib seat 30 is In it, It has corresponding dimensions to provide a means for introducing and holding the end of the support rib 54. As you can easily imagine, The amount and arrangement of the engagement support ribs 54 that are provided so as to be freely supported on the rib seat 30 and the support frame 12 are as follows. It can vary according to the weight of the user and the structural integrity generally required to support the deck 56. For example, The first of the support frames 12, Second end 24, The addition of rib sheet 30 and support ribs 54 proximate to 26 increases the overall structural integrity of deck 56 with respect to support frame 12. Therefore, For those skilled in the art, Other possible modifications and adaptations that are consistent with the spirit and scope of the invention can be readily discerned. The first of the support frames 12, Second side 20, In addition to support ribs 54 which provide a means for engagingly supporting 22, The support frame 12 As shown in FIG. first, Second side 20, A plurality of structural reinforcing members 50 may be provided corresponding to 22. As shown The plurality of reinforcing members 50 Both sides 20, 22 parallel to the whole, Vertically, Or are arranged diagonally, First, to resist buckling and loss of structural integrity Second side 20, 22 to provide a means to increase their capacity. In one embodiment of the present invention, The structural member 50 is Preferably, The support frame 12 is formed along the inner surface of the first side portion 20. For those skilled in the art, To further enhance the supportable properties of the support frame 12, Or to enhance the aesthetics of the device, It is readily understood that other structural reinforcements can be added. In one preferred embodiment of the present invention, The first side portion 20 of the support frame 12 includes: As shown in FIG. It has at least one conventional foot roller assembly 38 removably mounted thereto. The foot roller assembly 38 includes: Preferably, Including one or more wheels 42 rotatably coupled thereto, The curved deck treadmill 10 is configured to provide a means for better movement. The foot roller assembly 38 includes Preferably, further, A force absorbing member 40 is provided disposed thereon to provide a means for absorbing any forces or shocks arising when moving the present invention from one position to another. In tune, The force absorbing member 40 Consisting of conventional shock absorbers that are advantageous for absorbing sudden movements, bouncing, etc. when riding over rough surfaces. Also, The force absorbing member 40 Includes means for stabilizing the curved deck treadmill 10 at high positions to increase the user's workout by tilting the front end of the support frame 12. In this connection, The force absorbing member 40 Shock filled with gas or oil, Or alternatively, It has an electric gear motor with a locking shaft that raises the front end 24 of the support frame 12. Obviously, other mechanisms can be constructed in accordance with the principles of the invention as set forth herein. Therefore, The embodiments shown here are only examples of the principles of the present invention, It is not intended to limit the particular mechanism of implementing these principles. As mentioned above, The opposing second side portion 22 of the support frame 12 includes: It has a similar dimensional configuration and shape corresponding to the first side 20. Therefore, On the first side 20 of the support frame 20, Alternatively, the components arranged in connection therewith Preferably, On the second side 22, Or it is provided in connection with it. Substantially comparable sides 20, of the support frame 12, The incorporation of 22 includes one preferred embodiment. Therefore, Examples here are: Is provided as an illustration of the principles of the present invention, It does not limit the specific mechanisms for implementing these principles. Therefore, The use of a corresponding supporting frame with similar sides It is just an example, It is not used as a limitation. In FIG. Curved deck treadmill 10 It includes one or more belt fastening assemblies 94 that provide a means for retaining the curved endless belt 16 formed substantially flush with the upper surface 66 of the deck 56. Preferably, The belt fixing assembly 94 includes: A means is provided to substantially match the flexing properties of the belt 16 to the arcuate shape of the intermediate portion 62 of the deck 56. In the design, One or more belt fastening assemblies 94 include: As shown in FIG. It is arranged at intervals along the upper surface 66 of the intermediate portion 62 of the deck 56, The belt 16 is sufficiently held in a position operable with respect to the deck 56. In one preferred embodiment of the present invention, The belt fixing assembly 94 includes: It has a roller 98 with an axle 100 rotatably engaged with a mounting bracket 96. Preferably, The mounting bracket 96 moves with respect to the roller 98. A roller 98 is disposed to engage the belt 16; The side portion of the belt 16 is held substantially flush with the deck 56. In the preferred operation, When the belt 16 rotates with respect to the roller assembly 14, Preferably, rollers 98 of belt fixing assembly 94 rotate in association therewith. Obviously, other belt securing mechanisms may be constructed in accordance with the principles of the invention described herein. Similarly, Those skilled in the art Other possible modifications or adaptations to the spirit and scope of the invention may be recognized. Figure 1, Returning to FIG. The cover member 68 The first of the support frames 12, Second side 20, It is located at the connection between 22. The cover member 68 Preferably, It is configured to provide a means for coating the internal components of the curved deck treadmill 10. In the current design, The cover member 68 is the first of the support frames 12, Second side 20, It is arranged detachably so as to be connected to 22, It provides easy access to the internal operating components of the present invention. For example, The cover member 68 Mounted to the support frame 12 by a series of tabs 72 disposed along an outer edge 70 of the cover member 68; As shown in FIG. first, Second side 20, 22 so as to be detachably engaged therewith. further, The cover member 168 is The first of the support frames 12, The second side 20, Means are provided for coating a belt fastening assembly 94 disposed relative to the belt 22. In a preferred configuration, The cover member 168 disposed to cover the belt securing assembly 94 has a horizontal portion 104 disposed on one or more vertical sides 106. As mentioned above, The mounting bracket 96 For the cover member 168, Secured to provide a means to assist in the rotational centering of the rollers 98 of the belt securing assembly 94. Preferably, At least one vertical side 106 includes Disposed close to the rollers of the belt fixing assembly 94; The vertical side 106 and the horizontal portion 104 of the cover member 168 substantially cover the belt fastening assembly 94. further, Figure 1, FIG. As shown in FIG. One or more longitudinal grooves 110 The cover member 168 is formed on the outer surface of the horizontal portion 104. As will be easily recognized, The cover member 168 may include other components for functional or aesthetic reasons. In one preferred embodiment of the present invention, Cover member 68, 168 is preferably substantially sturdy, It is formed from a semi-flexible member. For example, Cover member 68, 168 is Any many organic materials, Synthetic or processed materials, These are often Plasticizer, Autoxidizer, Bulking agent, dye, UV stabilizer, A high-molecular-weight thermoplastic polymer or thermosetting polymer with or without additives such as additives, Formation, Molding, Extrusion, Pull out, Foamed or laminated, Consists of However, In keeping with the spirit and scope of the present invention, metal, alloy, Fiber glass, wood, ceramic, Such as graphite or other composite or polymeric materials, Those of skill in the art will readily appreciate that a wide variety of other suitable materials are possible. In FIG. The belt fixing member 94 and the corresponding cover member 68 It is mounted on the support frame 12 by conventional fixing means. For example, In one preferred embodiment of the present invention, Bolts 118 form one opening 112 formed in cover member 168 and each side 20 of support frame 12, 22 is provided so as to pass through at least one opening 114 formed therein. Or, Bolt 118 The support ribs 54 are disposed so as to pass through openings 116 formed in the support ribs 54 that serve to further fix the support ribs 54 to the support frame 12. further, If the longitudinal side 64 of the deck 56 extends to pass through an opening formed in the cover member 168 and the support frame 12, Corresponding through holes (not shown) are formed in the deck 56, It is arranged in alignment with the other openings. If desired, A locking nut 120 is provided for the first end of the bolt 118, The preferred engagement outlined, The curved deck treadmill 10 is adapted to be fixed between various components. In one preferred embodiment of the present invention, To enable the rotation of the belt 16, A driving means 84 is operably connected to at least one roller. Preferably, The driving means 84 has a conventional electric motor for rotating the belt 16. In a preferred arrangement, At the first end 24 of the support frame 12, A pulley 80 is mounted on the first roller 78 so as to be freely disposed. In operation, The pulley belt 82 is disposed so as to be freely engageable between the pulley 80 and the motor 84, A means for rotating the first roller 78 correspondingly by the forced rotation of the pulley belt 82 by the motor 84 is provided. As shown in FIG. The motor 84 moves with respect to the support frame 12. Substantially adjacent to the first end 58 and below the deck 56, It is mounted by a fixing bracket (not shown). Or, The motor 84 is engaged secondly, Third roller 86, 88, The rotation of the belt 16 is enabled. In an alternative embodiment, Curved deck treadmill 10 or the present invention, Without adopting a driving means arranged to be freely engageable with a roller for facilitating forced rotation of the belt 16, Can be implemented. if, In such a case, Roller 78, 86, 88 and deck 56 are generally calibrated to belt 16 and While providing sufficient resistance to allow the user to exercise, The user walks safely on it, jogging, Alternatively, an optimal frictional resistance is provided so that the vehicle can run. Figure 1 2, In 3, The crossbar 130 is preferably formed to have a generally U shape, With conventional fasteners, The first of the support frames 12, Second side 20, It is arranged in a fixed state with respect to 22. The fastener has one or more female screw seats 46 (shown in FIG. 4), An appropriate size fastener 48 is To fix the first side 126 of the crossbar 130 to the first side 20 of the support frame 12, In between, they are introduced to provide a threaded or push-fit engagement. The second end 128 of the crossbar 130 is similarly Due to the preferred fixed engagement with the second end 22 of the support frame 12, Be attached. The crossbar 130 of the present invention Although described and described with a generally U-shaped configuration, One of ordinary skill in the art will readily recognize that numerous other geometries are equally suitable. Therefore, The substantially U-shaped form is merely an example, It is not used as a restriction. In one preferred embodiment of the present invention, Preferably, A console 132 is attached to the crossbar 130. By being disposed so as to be freely supported by the crossbar 130, The console 132 is substantially Support frame 12, Deck 56, It is mounted above the belt 16, The user can see the information displayed on the console 132. Preferably, Console 132 is a processor, Has a display, Also, It has input keys for entering user programmable options. Similarly, The console 132 elapsed time, speed, distance, Heart rate, Or other desired features, Numerous feedback data such as aspects are provided. The console 132 To perform that function, One skilled in the art will recognize that additional external components or devices may be provided. For example, The console 132 One or more sensors to check the rotation speed of the belt 16, Sensors that determine the user's pulse and heart rate, A device for controlling the speed of the motor is provided. Although these external components and devices are not specifically shown in the drawings, In the present invention, What can be easily expected of these electronic or mechanical equipment in the use of the present invention is that It is obvious. Figure 1, FIG. As shown in FIG. In a preferred configuration, The crossbar 130 is Opposing sides 126 of the crossbar 130, 128, one or more handles 134, It has a pivotal engagement 140 which provides a means for pivotally engaging 144. Handle 134, 144 may be constructed from any suitable rigid material. For example, Handle 134, 144 is metal, alloy, wood, Fiber glass, Graphite, ceramic, plastic, Alternatively, it is formed from another suitable composite material. further, Handle 134, 144 is To make it easier for the user to grip the handle, Preferably, Substantially handle 134, It has a gripping member (not shown) disposed close to the end of 144. In particular, Handle 134, A rubber grip is attached to the end 138 of the 144, During the exercise, the user The grip member 144 is provided so as to be gripped. Preferably, The first handle 134 is Rotating end 136, End 138, It has an intermediate part located between them. As shown in FIG. The rotating end 136 of the first handle 134 is It is pivotally connected to the first side 126 of the crossbar 130 by means of a pivot connection 140. In the current design, The pivot connection 140 is A conventional insertion hole and a pivot pin 142 operably disposed therein. A means for pivoting the handle 134 relative to the pivot is provided. Similarly, The second handle 144 is rotatably connected to the second side 128 of the crossbar 130. In the function operation, Handle 134, 144 is preferably While the user is exercising, Handle 134, Hold near the end 138 of 144, Therefore, It is arranged to rotate the handle back and forth according to the user's stride, Generates a potential aerobic workout. In other embodiments, Handle 134 144 has the conventional form of another resistor, Further, the exercise of the upper body of the user is promoted. First handle 134, The second handle 144 is Opposing sides 126 of the crossbar 130 by means of a pivot connection 140, 128 is described as being connected to One skilled in the art will readily recognize that other connection points are possible. For example, first, Second handle 134, 144 is Respectively, The first of the support frames 12, Second side 20, 22 is rotatably connected. Or, Handle 1 34, 144 is operatively connected to the motor 84, While maintaining a constant back and forth arm movement, The user On the rotating belt 16, Predetermined, It provides a means of encouraging the maintenance of a constant stride. From the above description, The present invention It is recognized that there is provided a novel curved deck treadmill that provides an arcuately movable surface for a structurally supported user to move. The invention further provides A curved deck treadmill is provided which maximizes the area of the upper surface of the belt by effective placement of the drive means. further, The present invention substantially prevents the user from falling from behind the treadmill, It functions to maintain the user in the center of the upper surface of the rotating belt without disturbing the natural body movement of the user exercising thereon. Unlike the prior art, The curved deck treadmill of the present invention comprises: A first end and a second end disposed substantially in parallel in a three-dimensional positional relationship, It has an intermediate part disposed between them, The intermediate site is first, It has a substantially arcuate length shape disposed below the second end in a dimensional relationship. Similarly, A novel aspect of the present invention is: User joints, Muscle (for example, Knees and hips) to reduce physical impact, An effective device with rehabilitation function is provided. further, The present invention Continuous, providing meaningful exercise comfort Provide smooth motion movement, It promotes an upper surface that provides a freer and longer stride in a supportable manner. These objectives are This is achieved by forming the deck with a curvature corresponding to a diameter of about 3 to 20 feet, ideally 4 to 10 feet. For diameters in this range, On a four foot long deck, The middle part of the deck is about 0. 75 to 0. One foot below the first and second ends of the deck. FIG. 6 shows another preferred embodiment of the present invention, in which the same or similar components as those employed in the embodiment of the present invention shown in FIGS. Have been. In the embodiment of the present invention shown in FIG. 6, the endless belt 16 is driven not at the front but at the rear of the treadmill 200. An idler roller 202 is rotatably mounted at the first or front end 58 of the deck 56 in a manner similar to the mounting of the rear roller 86 shown in FIGS. In this manner, the front end of the belt 16 is wound around the front idler roller 202. A relatively large diameter drive drum 204 is provided proximate the second end 60 of the deck 56 between the first side of the support frame 12 and the opposing second sides 20,22. The drive drum 204 is mounted on the frame by many well-known means. The drive drum 204 is driven by an electric motor 206 that drives a belt 208 via a drive pulley 210. A driven pulley 212 having a somewhat larger diameter is connected to one end of the drive drum 204 for rotation of the drive drum. As will be appreciated, ideally, the diameter of the drive drum 204 (preferably 4 inches to 8 inches) is greater than the drive roller 78 used in the embodiment of the present invention shown in FIGS. It has a rather large diameter. This allows the belt 16 to be driven with less tension on the belt, reduces the tendency of the belt to "straight-in" between the drive drum 202 and the idler roller 200, and adapts more to the curvature of the deck 56. I do. Further, by disposing the driving drum 204 at the rear end of the treadmill 200, the load required between the belt 16 and the driving drum is smaller than when the driving drum is disposed in front of the treadmill. Less is needed. As the belt 16 moves rearward along the deck 56 (from the front end 58 to the rear end 60), the drive drum 204 causes the belt to move from the rear of the deck to the front as the belt wraps down around the take-up pulley roller 88. Instead of driving the belt at the opposite end of the deck 56 after moving, the portion of the belt 16 riding along the deck 56 is driven directly. Yet another embodiment of the present invention is shown in FIG. 7, where the belt 16 of the treadmill 300 is also driven at the rearward end 60 of the deck 56. The rear end of the belt 16 is rotatably mounted on the support frame 12 and is located between upper and lower pinch rollers 302 and 304 extending between the first side portion 20 and the second side portion 22 of the support frame. Is accepted. As shown in FIG. 7, the lower pinch roller 304 is loaded upward on the upper pinch roller 302 by a spring 305, and applies a compressive load to a portion of the endless belt 16 extending therebetween. Also, as shown in FIG. 7, the lower pinch roller 304 is driven by an electric motor 306 that operates via a drive belt 308. The motor 306 supplies power to the driving pulley 310, and the driving pulley 310 supplies power to the driven pulley 312 via the belt 308. The driven pulley is ideally mounted on one end of the lower pinch roller 304 in a known manner. The drive system in FIG. 7 is arranged adjacent to the second end 60 on the deck 56 to directly drive the belt 16 as described in connection with the embodiment of the invention in FIG. It has become. In addition, the compressive load between the pinch rollers 302 and 304 is used to pinch the endless belt 16 and creates friction between the drive roller (pinch roller 302) and the partially wound belt 16 therearound. You don't have to rely on it. Accordingly, it is possible to supply power to the belt 16 by applying a smaller tension to the belt, particularly to the portion of the belt that rides on the upper surface of the deck 56. In this way, the endless belt 16 is more adapted to the curvature of the deck 56 than is possible with the embodiment of the invention shown in FIGS. Instead of being located at the rear end 60 of the deck 56, the pinch rollers can be located elsewhere relative to the deck. For example, the pinch rollers may be located below an intermediate portion of the deck, for example, at the location of a third roller 88, where a play roller, such as roller 86, is located near the rear end 60 of the deck. Used as Alternatively, the pinch rollers are disposed in front of the deck. 8-13 illustrate another preferred mechanism for holding the belt 16 in a curved configuration that is substantially flush with the upper surface 66 of the deck 56. FIG. In these figures, components that are the same as or similar to the corresponding components shown in FIGS. 1 to 7 are identified by the same member numbers. As shown in FIG. 8, the belt fixing assembly 402 is incorporated in the configuration of the cover member 404 corresponding to the cover member 168 shown in FIGS. A tubular retaining member 406 having a generally square or square cross section is integrated into the configuration of the cover 404 and is disposed on the peripheral edge of the belt 16. Ideally, the anti-friction sliding surface 408 is mounted on or incorporated into the lower surface of the bottom wall 410 of the retaining member 406. Such anti-friction materials are commercially available, for example, Teflon, graphite, polished stainless steel, the material from which deck 56 is constructed (phenol impregnated wood), nylon, or synthetic resin. It is composed of other low-friction and durable members. The sliding surface 408 is spaced slightly above the upper surface 66 of the deck 56 and receives the belt 16 tightly between the upper surface 66 and the sliding surface 408. In this method, the endless belt 16 is configured to take the contour of the length of the deck 56 in the longitudinal direction, while sliding freely between the deck 56 and the holding member 406. 9A and 9B, yet another belt securing assembly 502 is shown, which is also integrated into the configuration of the cover member 504, which corresponds to the cover members 404, 168 described above. are doing. The belt fixing assembly 502 includes a downwardly extending groove 506 formed by vertical walls 508, 510 extending parallel and spaced apart from each other downwardly from the upper horizontal wall 512 of the cover member 504. Contains. The groove 506 is dimensioned to tightly receive the retaining member 514 therein, and the retaining member is ideally formed in a generally sinusoidal shape, as shown in FIG. 9B. Preferably, the retaining member is constructed from a durable material such as spring steel or durable plastic. Ideally, the nominal amplitude of the waveform of the holding member is slightly larger than the distance 518 between the lower surface of the cover horizontal wall 512 (inside the groove 506) and the upper surface of the endless belt 16. At a position 520 spaced apart from the belt in contact therewith. In addition, the surface of the contact position of the holding member 514 is coated with an anti-friction member to minimize sliding resistance between the contact position 520 and a lubricant that may be incorporated into the belt or the holding member itself. I have. Such lubrication members include Teflon ™, polished stainless steel, deck members, nylon, plastic molds, and other durable coatings that are commercially available for lubrication. 10A and 10B disclose a belt holding assembly 602 incorporated into the configuration of the cover member 604, such as the belt holding assemblies 94, 402, 502 described above. The belt securing assembly 602 has a downwardly open groove 606 defined by walls 608, 610 extending laterally downwardly from the cover upper wall 612. The substantially groove-shaped holding member 614 is sized to slidably engage in the groove 606. The retaining member 614 includes a lower or bottom wall 616, which is ideally substantially parallel to the longitudinally curved upper surface 66 of the deck 56. Ideally, the bottom wall 616 has a friction reducing surface 618 extending along the retaining member 614 and abutting against the upper surface of the belt 16 by compression of a tubular, resilient spring 620 trapped in the groove 606. Have. The resilient spring 620 is comprised of rubber, synthetic rubber, plastic composite, or other suitable material. In the above embodiment of the present invention, the anti-friction surface 618 is comprised of Teflon ™, graphite, polished stainless steel, deck material, nylon, plastic, and other commercially available materials. Also, the anti-friction surface may be incorporated into the bottom wall 616 of the separated member, or the composition of the layer attached to the bottom wall. As shown in FIGS. 10A and 10B, the side wall 622 of the holding member 614 is cut out, as shown at 624, so that the holding member is bent in a concave shape facing upward, so that the deck is bent during use. Accordingly, the holding member 614 is relatively moved in the groove 606 toward or away from the deck 56, while being close to a curved surface in the longitudinal direction of the deck 56. It is understood that other well-known means may be employed to load the retaining member 614 below the belt 16 instead of the spring 620 without departing from the spirit or scope of the present invention. You. In addition, the sidewall 622 of the retaining member 614 may have other shapes or configurations, and may provide the retaining member with sufficient flexibility to absorb changes in the curvature of the deck 56 during use. FIGS. 11 and 12 show the belt fixing assembly 702 mounted on the deck 56, rather than being incorporated into the structure of the cover member 704 like the belt fixing assemblies 94, 402, 502 and 602. The belt fixing assembly 702 includes a roller 706 rotatably mounted on a shaft 708 of a crank arm 710. The other end of the crank arm (defined as shaft 711) is rotatably mounted by hardware member 714 or other suitable means in a mounting block 712 fixed to the side edge of deck 56. A torsion coil spring 715 is interposed between the mounting block 712 and the crank arm 710, and applies a load downwardly to the roller 706 against the upper surface of the endless belt 16. As shown in FIG. 11, the belt fixing assembly 702 is disposed below the cover member 704 and between spaced-apart walls 718 and 720 extending downward from the cover upper wall 722. It provides protection for the belt securing assembly 702. A plurality of belt securing assemblies 702 are disposed along the side edges of deck 56, depending on the number and spacing of belt securing assemblies selected as needed. An advantage of the belt securing assembly 702 is that changes in the longitudinal curvature of the deck 56 (eg, during use) are automatically compensated for by the belt securing assembly. Further, the downward pressure applied to the side edges of the endless belt 16 can be varied by changing the nature of the spring 715. A further preferred embodiment of the present invention is shown in FIG. 13, which shows a belt securing assembly 802 mounted along the side edges of the deck 56 in a manner similar to the belt securing assembly 702. Like the belt securing assembly 702, the belt securing assembly 802 is located below the cover member 804, which allows for protection of the belt securing assembly. The belt anchoring assembly 802 includes a pressure pad 806 that ideally rounds or surfaces the lower perimeter so as not to add sharp corners or edges to the endless belt 16. It has a generally square or square shape. The curved, resilient arm 810 is mounted from a generally upper central portion of the pressure pad 806 to a side edge of the deck 56 by a suitable fastener 814, which may be a screw, bolt, or other type of hardware-member. It extends toward the protrusion or base 812. Ideally, the arm 810 is made of a resilient, high strength material and the pressure pad 806 provides a desired downward load on the side edges of the endless belt 16. One or more shims 818 are located below base 812 to adjust the downward load imposed on pressure pad 806 by arm 810. The pressure pad 806 may be formed in a shape other than a square or a square, for example, an ellipse or a circle. Also, the plurality of belt securing assemblies 802 may extend along the length of the side edges of the deck 56 as necessary to sufficiently hold the endless belt 16 in a curved configuration corresponding to the curvature of the upper surface 66 of the deck 56. Is located. The present invention may be embodied in other special forms without departing from its spirit and essential characteristics. The embodiments described herein are merely illustrative in all aspects and are not to be considered as limiting. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. Changes in the equivalent meaning and range of the claims are embraced within these ranges. While the preferred embodiment of the invention has been illustrated and described, it will be appreciated that various changes can be made therein without departing from the spirit and scope of the invention.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, L U, MC, NL, PT, SE), OA (BF, BJ, CF) , CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (GH, GM, KE, LS, M W, SD, SZ, UG, ZW), EA (AM, AZ, BY) , KG, KZ, MD, RU, TJ, TM), AL, AM , AT, AU, AZ, BA, BB, BG, BR, BY, CA, CH, CN, CU, CZ, DE, DK, EE, E S, FI, GB, GE, GH, HU, IL, IS, JP , KE, KG, KP, KR, KZ, LC, LK, LR, LS, LT, LU, LV, MD, MG, MK, MN, M W, MX, NO, NZ, PL, PT, RO, RU, SD , SE, SG, SI, SK, SL, TJ, TM, TR, TT, UA, UG, UZ, VN, YU, ZW [Continuation of summary] Offering surface.

Claims (1)

[Claims] 1. a a support frame extending in the longitudinal direction;           b a deck extending in the longitudinal direction, said deck comprising said support frame; And supported upwardly in a direction along the length of the support frame. Deck,           c Arranged so as to slide on the upper surface of the deck while being supported by the deck. With the endless belt installed,           d at least one bell which keeps the belt substantially flush with the deck Holding assembly,           Exercise treadmill having a. 2. In claim 1, the holding assembly is provided by the support frame. An exercise treadmill characterized by being supported. 3. In claim 2, the holding assembly is provided along the support frame. And a plurality of rollers spaced apart from each other, the rollers being endless. Exercise treadmill located on the side edge of the belt Le. 4. 4. The belt according to claim 3, wherein the roller is cantilevered on a side edge of the belt. Exercise characterized by being supported by a support shaft protruding in a shape Ztreadmill. 5. In claim 3, the roller is elastically loaded against the belt. Exercise treadmill, characterized in that 6. 3. The holding assembly of claim 2, wherein the holding assembly extends longitudinally along the frame. And forms a sliding surface against the upper surface of the side edge of the belt. Exercise treadmill characterized by the following. 7. Claim 6 wherein the sliding surface comprises a lubricating composition. Exercise treadmill to symbolize. 8. In claim 7, the anti-friction material is Teflon (trademark), graphite, Ron, plastic, stainless steel, phenol-impregnated wood An exercise treadmill characterized by being selected. 9. In claim 6, the retaining assembly is positioned relative to an upper edge of the belt. An exercise treadmill, which loads a sliding surface. 10. In claim 9, the sliding surface has a spring against the upper edge of the belt. An exercise treadmill characterized by being loaded. 11. In claim 9, the retaining assembly is provided on a top edge of the belt. And an elastic load on the sliding surface. Ztreadmill. 12. In claim 1, the retaining assembly is supported by the deck. Exercise treadmill, characterized in that 13. 13. The deck of claim 12, wherein the retaining assembly includes a side edge of the deck. And a plurality of rollers spaced apart from each other along An exercise tray, which is located on a side edge of the endless belt. Do mill. 14． In claim 1, the treadmill further comprises: And a cover structure that extends along the side edges of the deck. Exercise, wherein the holding assembly is supported by the cover structure treadmill. 15. In claim 14, the retaining assembly includes a cover structure and an endless base. An exercise treadmill, which is arranged between the racks. 16. Claim 14. The retention assembly as defined in claim 14, wherein the retention assembly extends along the cover structure. And a plurality of rollers spaced apart from each other, the rollers being endless. Exercise treadmill located on the side edge of the belt Le. 17． In claim 1, the treadmill further comprises: An electronic drive system for moving an endless belt Small treadmill. 18. In the treadmill according to claim 17,         a. The support frame has a front end portion and a rear end portion,         b. The drive system is mounted on one of the front and rear end portions of the support frame. The endless belt is wound around the driving roller, and is electrically driven. The power supply rotates the drive roller and the belt is configured to move on the deck Exercise treadmill, 19. In the treadmill according to claim 17,         a a pair of rollers disposed orthogonal to the length of the endless belt, The rollers are arranged in parallel and closely spaced, and receive an endless belt between a pair of rollers. And a pair of rollers configured to apply a compressive load to the endless belt. A pair of rollers,         b. The roller is moved so that the belt is moved with the rotation of the pair of rollers. Power supply to drive one or both of the         An exercise treadmill comprising: 20. In claim 19, the support frame includes a front end portion and a rear end portion. And a pair of rollers is provided near one of the front and rear end portions of the support frame. And the endless belt is wound around one of the pair of rollers. Exercise treadmill characterized by the following. 21. Elongate frame assembly,           A deck supported by the frame assembly, the deck being a first An end, a second end, and an intermediate portion, the intermediate portion of the deck being a deck A position substantially below the first and second ends between the first end and the second end A deck having a substantially arcuate longitudinal shape that curves downwardly into;             An upper running portion supported on the deck and sliding on the deck is provided. An endless belt that is movable and provides an upwardly concave surface;             A belt holding system for maintaining the endless belt substantially flush with the deck And             An exercise treadmill having 22. In claim 21, the retaining system comprises a frame assembly. An exercise treadmill characterized by being supported. 23. 23. The apparatus of claim 22, wherein the retaining assembly is configured to extend along the frame. And a plurality of rollers spaced apart from each other, the rollers being endless. Exercise treadmill located on the side edge of the belt Le. 24. 24. The belt of claim 23, wherein the roller has a piece on a side edge of the belt. Exa, characterized by being supported by a support shaft protruding in a holding shape Size treadmill. 25. In claim 23, the roller is elastically negative with respect to the belt. An exercise treadmill that is loaded. 26. 23. The retention system of claim 22, wherein the retention system extends longitudinally along the frame. Direction, forming a sliding surface against the upper surface of the side edge of the belt An exercise treadmill, characterized in that: 27. 27. The sliding surface of claim 26, wherein the sliding surface comprises an anti-friction composition. Exercise treadmill characterized by the following. 28. 9. The anti-friction material according to claim 7, wherein the anti-friction material is Teflon (trademark), graphite, Group consisting of iron, plastic, stainless steel, phenol-impregnated wood An exercise treadmill characterized by being selected from: 29. In claim 26, the retaining system is provided with respect to a top edge of the belt. Exercise treadmill characterized in that the sliding surface is loaded by pressing . 30. In claim 21, the retention system is supported by the deck. A treadmill, characterized in that it is 31. In claim 30, the retention system includes a side edge of the deck. A plurality of rollers spaced apart from one another along the An exercise train, which is located on the side edge of the endless belt Domir. 32. In claim 21, the treadmill further comprises a It has a cover structure that extends along the side edges of the deck The exercise tray is supported by the cover structure. Do mill. 33. 33. The belt holding system according to claim 32, wherein the belt holding system has a cover structure. An exercise treadmill, which is disposed between end belts. 34. 33. The system of claim 32, wherein the retaining system is configured to move along the cover structure. It has a plurality of rollers spaced apart from each other, the rollers being endless bases. Exercise treadmill located on the side edge of the . 35. In claim 21, the treadmill further comprises a pair of Characterized by having an electric drive system for moving the endless belt Exercise treadmill. 36. A treadmill according to claim 35,         a. The support frame has a front end portion and a rear end portion,         b. The drive system is mounted on one of the front and rear end portions of the support frame. The endless belt is wound around the driving roller, and is electrically driven. The power supply rotates the drive roller to move the endless belt on the deck. Exercise treadmill, characterized in that 37. A treadmill according to claim 35,         A pair of rollers arranged perpendicular to the length of the endless belt, Adjacent, spaced apart and parallel, with an endless belt between a pair of rollers And a pair of rollers are configured to apply a compressive load to the endless belt. A pair of rollers,         The belt is moved so that the belt is moved with the rotation of the pair of rollers. Power supply to drive one or both,         An exercise treadmill comprising: 38. 37. The frame assembly of claim 37, wherein the frame assembly includes a front end portion and a rear end portion. An end portion, and a pair of adjacent front and rear end portions of the support frame. A roller is provided, and the endless belt is wound around one of a pair of rollers. Exercise treadmill,